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19417 63rd Ave Ne_BLD2822_2026
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Xcn Zrn om w � n N own v � C O r Coo ` InMz vCi H � � °y � z z N n H O r ti7 CJ n~ r � � � N O Own a � � ❑ \ a ��10t-I z � Z m � � z3 'fib O t�f C S n tz _ � z trJ t!7 � G O 7d C x x r0 • �' o � H :h Z � � "� tz d rC C7 v I I I Permit#: 2822 Permit Date: 09/30/I9 Project Name: Mountain Hi, LLC Site Address: 19417 63rd Avenue NE Company Name: Mountain Hi, LLC Company Address: 19417 63rd Avenue NE City, State, Zip: Arlington, WA 98223 Contact: Ben London Phone: 206-679-0028 Email: london@creaseattle.com Permit Type: Commercial Mechanical Valuation: 98506.05 Square Feet: 0 Number of Stories: 1 Type of Construction: Occupancy Type: Proposed Use: Update extraction equipment MIC/Opportunity Zone: MIC Permit Issued: Permit Expires: Type of Construction-DNU: Status-DNU: Status: IN PROCESS Property Parcel# Address Legal Description Owner Name Owner Phone Zoning 31051500401200 19417 63RD AVE NE SAJE Properties LLC Contractors Contractor Primary Contact Phone Address Contractor Type License License Mountain Hi 19417 63rd Avenue OWNER Plan Reviews Date Review Type Description Assigned To Review Status 09/30/2019 Commercial Mechanical Building in Review jw r : - Y �lf 1 I I i' �•�Y �,� COMMERCIAL MECHANICAL �• PERMIT APPLICATION Department of Community& Economic Development City of Arlington* 18204 59th Ave NE. Arlington,WA 98223• Phone(360) 403-3551 THIS APPLICATION MUST BE ACCOMPANIED BY TWO (2) SETS OF CONSTRUCTION DRAWINGS AND ALL OTHER INFORMATION OUTLINED IN THE MECHANICAL PERMIT SUBMITTAL REOUIREM NTS,IF APPLICABLE. Type of Permit: ❑ New Installation El Replacement I f A eration Project Address: ��- (��R� QVe NE ,t VQIW,,J Q— VA ,qg_Z3 Parcel#: '2MITI19 Project Description:UPli•,ior QX-`VC;C4;0" 9-4 Valuation: 409,506,. oS - owner: 1"��,tie c.; 1�1, LL i Phone#;Zo(n (v Q- Oo2� Address:non (�Ra Nv,- I y E 7t: ��Q'�.nr'�ci�� State:A✓A Zip. '181.2 � II 'Ernaii ACldresS: �11� GV �h �-CD M o�On�� C,C`�C"C;e��1� V.\ Contact Person.��, �o•�clo,,, Phone#:Z016- 0 02S Address: vmq � City: A A-'U (h- State:�v Zip: g2z 3 - II `1p Email Address: ov\c+o Contractor Name, Phone#: Contractor Address: -_ City: _ State: Zip: Email:— Contact Person: Contractor License Number: Expiration: Please Indicate type of number of appliances: FURNACE CONDENSING UNIT GAS PIPING OUTLET BOILER HEAT PUMP(multi-split) UNIT HEATER CHILLER , HEAT PUMP(mini-spirt) PAINT BOOTH COOLER HEAT PUMP(other) TYPE I HOOD AC(air cooled) HEAT REJECTION EQUIP TYPE 11 HOOD AC(water cooled) VENTILATION SYSTEM AST AC(evaporator) PACKAGED UNIT UST AC(VR DRYER OTHER I hereby certify that the above information is correct and that ft construction on, and the occupancy and the use of the above- described property will be inacc ance with the laws,rules and regulation of the State of Washington. Applicants Signature: pate 09 110( ZO o Applicants Printed Name: ��V'k Low c1C)V, FOR STAFF USE ONLY SEP 30 2019 P N#1 U Accepted By Amount Received Receipt Date Received S/t&LP Wage t of 1 .. Y� I � � , 11 1:�� 1- i � i � ' � CITY OF ARLINGTON 238 N. OLYMPIC AVE - ARLINGTON, WA. 98223 ` PHONE; (360) 403-3551 BUILDING PERMIT Address:19417 63rd Avenue NE Permit#:2822 Parcel#:31051500401200 Valuation:98506.05 OWNER APPLICANT CONTRACTOR Name:SAJE Properties LLC Name:Mountain Hi,LLC Name:Mountain Hi Address:6213 192nd Street Address:19417 63rd Avenue NE Address: 19417 63rd Avenue City,State Zip:Arlington,WA 98223 City,State Zip:Arlington,WA 98223 City,State Zip:Arlington,WA 98223 Phone: Phone:206-679-0028 Phone: LIC: EXP: MECHANICAL CONTRACTOR PLUMBING CONTRACTOR Name: Name: Address: Address: City,State,Zip: City,State,Zip: Phone: Phone: LIC#: EXP: LIC#: EXP: JOB DESCRIPTION PERMIT TYPE: Commercial Mechanical CODE YEAR: 2015 STORIES: CONST.TYPE: DWELLING UNITS: OCC GROUP: BUILDINGS: OCC LOAD: PERMIT APPROVAL I AGREE TO COMPLY WITH CITY AND STATE LAWS REGULATING CONSTRUCTION AND IN DOING THE WORK AUTHORIZED THEREBY; NO PERSON WILL BE EMPLOYED IN VIOLATION OF THE LABOR CODE OF THE STATE OF WASHINGTON RELATING TO WORKMEN'S COMPENSATION INSURANCE AND RCW 18.27. THIS APPLICATION IS NOT A PERMIT UNTIL SIGNED BY THE BUILDING OFFICIAL OR HIS/HER DEPUTY AND ALL FEES ARE PAID. IT IS UNLAWFUL TO USE OR OCCUPY A BUILDING OR STRUCTURE UNTIL A FINAL INSPECTION HAS BEEN MADE AND APPROVAL OR A CERTIFICATE OF OCCUPANCY HAS BEEN GRANTED. IBCI10/IRCI10. SALES TAX NOTICE:Sales tax relating to construction and construction materials in the City of Arlington must be reported on your sales tax return form and coded City of Arlington#3101. Signature Print Name Date Released By 6Date CONDITIONS Adhere to approved plans. Call for inspections. THIS PERMIT AUTHORIZES ONLY THE WORK NOTED.THIS PERMIT COVERS WORK TO BE DONE ON PRIVATE PROPERTY ONLY. ANY CONSTRUCTION ON THE PUBLIC DOMAIN(CURBS,SIDEWALKS,DRIVEWAYS,MARQUEES,ETC.)WILL REQUIRE SEPARATE PERMISSION. PERMIT FEES Date Description Fee Amount 10/03/2019 Mechanical Fee(Enter Fixture Fee) $26.00 10/03/2019 Mechanical Permit Base Fee $25.00 10/03/2019 Mechanical Plan Review Fee $650.00 10/03/2019 Processing/Technology Fee $25.00 Total Due: $726.00 Total Payment: $0.00 Balance Due: $726.00 CALL FOR INSPECTIONS BUILDING(360)403-3417 When calling for an inspection please leave the following information: Permit Number,Type of Inspection being requested,and whether you prefer morning or afternoon -x• :; I �.: .. I I I I � 1 INSTALLATION ICR- 190089-RO CERTIFICATION REPORT REVISION 0 i Received 5EP 3 0 2019 CE 'Ile . CITY OF ARLIN BUILDING DEPARTMENT APPROVED DAT �30 By Gp NO CHANGES AUTHORIZED UNLESS APPROVED BY THE BUILDING INSPECTOR JOB COPY 15/ ERTz SIGNATURE PAGE _ l The Bizzybee extraction unit owned by Mountain Hi, located at the address shown below, has been reviewed by a Washington Licensed Professional Engineer and found to be correctly installed in a suitable environment for use with flammable gas solvent. The items reviewed during this installation inspection are described within this report. ---------------------------------- ------------------- - .--------- ----------------------- Ukense Holder: 1 Facility Information: lMOuntain Hi Address: 19417 63rd Ave NE ;Ben London Arlington,WA 98223 19417 63rd Ave NE i ' !Arlington,WA 98223 Extraction Solvents: 100%Butane I _____^--------------- ' p 773 355-9809 70/30 Butane-Propane Mix --- -------------------------------'---~~------------------------------------ ------- _a Signatures: ; Engineer of Record: Brian Kester, PE Date: September 26,2019 Signature: 'Z I Email: briar@3pcertz.com , Reviewed By: David Olson PE l rA ,� 333A1 , Date: September 26,2019 O•<`�, mil ' S%NAL O Signature: Email: david@03pcertz.com I = Authored By: Tyler Fritsch T. Date: September 26,2019 Signature: g Email: ty1m@3pcertz.corn ; i ' I Report Number: ICR-290089-RO 50605 4r� O AG►IS1"BR� �' Inspection Date: 9/25/2019 s'SIONAL��G , Revision History RO - T 9/26/2019 -.4ki I ReleaseUi 1 , i nl ---------------- -5, --------------------- ----------- 3PC#: ICR 190089?RO 9 )PROPRIETARY CONTENT Release DAte:9/26/)2019 www.3pcertz.com PAGE i `3 gERT r Z i CONTENTS 's i SIGNATURE PAGE 1 i i INTRODUCTION 1 PROCESSING EQUIPMENT 2 LEGAL DISCLAIMER 12 I SUPPORTING DOCUMENTATION APPENDIX A i I i i I i I i i i i i i I wi zi 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 11 AV ERTz s INTRODUCTI011' This technical report documents the extraction unit installation inspection performed at Mountain Hi in , Arlington,Washington on Wednesday,September 25, 2019. The extraction process at this facility utilizes flammable LP-gas(100% Butane &70/30 Butane-Propane mix) in a controlled environment,following the appropriate methods, and using certified extraction equipment. The Bizzybee Large Live Hexapod Rack extraction unit is used inside of a purpose built extraction room in which all electrical components are rated for a Class 1, Division 1 hazardous environment. The extraction room and surrounding environment are being certified by another third party engineering firm,therefore this installation inspection focuses on the Bizzybee extraction unit only. The following hazardous material is used in the inspected extraction system: { ------------------------------------- •-------- ------.. ; I Flammable Gas- 70130 Butane-Propane Mix Maximum Quantity: 40 Ibs y G------------------------------------------------------------------------- t The extraction equipment used inside the extraction room has been reviewed and certified for use in a I hazardous environment per the following document: 3P Certz DOC: ECR-190089-RO -Bizzybee Large Live Hexapod Rack ; Correct installation of this equipment has been verified in accordance with any installation requirements/instructions provided in the above documents. Details of the equipment installation verification can be found in the PROCESSING EQUIPMENT section of this report. , I , , , ti I i 0 �I �1 x 7, ---------- FIGURE 1.1 Installed Extraction System--- ----- 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 1 IKERTz I PROCESSING EQUIPMENT s The installation of the Bizzybee Large Live Hexapod extraction unit has been reviewed and verified by 3P = Certz during the on-site inspection. The installation has been found to meet the seismic mounting requirements,as well as the hazardous location electrical requirements outlined in NFPA 70 and NFPA 497. Additionally,the proper installation and set pressure of the Pressure Relief Valves on each pressure vessel t has been verified. s SI 1SMIC REQUIREMENTS I i t ELM Design Maps Summary Report = Report Title: Mountain Hi Install Location t Wednesday,September 26th,2019 t Reference Document: ASCE7-16 Site Coordinates: 48.171°N,-122.207°W Site Soil Classification: Site Class D-"Stiff Soil" Risk Category: 1/11/III 1 I 1 � t t i t i0 I 1 t t t � t I t t 1 ♦'°"' ' Avt+nue N"r1bMtl t t 10 t 4411p1tM —. , btt,rup � i AN I t 1 1 1 ll1 y1 i I 1 1 1 t t t 1 ti i wI 1 -- al �t t Output: Sps= 0.84 g *Seismic coefficient used to determine horizontal forces. a; oI al 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 2 3R�- : ^"CERTz I 3 YBEE L, R"T, LIVE WY''POO I The Bizzybee Large Live Hexapod is composed of two 6-8 solvent vessels,two 6-8 material vessels, one color remediation column, one 4-5 molecular sieve, and one 10-12 collection tank.The 10-12 Collection tank is ASME U-Stamped. N IT 3 �t �t b w� { I I ' --- FIGURE2.1 - BIZZYBEE EXTRACTION UNIT OVFRVIEW--- I I w€ a_ cr w l7 z w U O ar € 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 3 3R�'->. 'CERTZ ANCHOR CALCULATIONS-LARGE LIVE HEXAPOD In order to meet the seismic requirements for this install location,the Large Live Hexapod shall be anchored , to the floor of the extraction area. The following calculation determines the minimum anchor pullout and shear strength. A minimum of four anchors shall be used. Correct anchor installation shall be verified prior to operating the equipment. Max Weight, W = 767 Ibs 11 ' Frame Length, L = 40.0 in Frame Depth, D = 36.0 in CGS Reference, L CG = 17.8 in CGp Reference, D cG = 12.2 in CGH Reference, H cG = 43.3 in _ _ I Response Modification Factor, R = 1lo - -- (Assumes no strength reduction necessary for this frame) I I i Importance Factor, / — e = 1.00 0 (Risk Category II from ASCE/SEI 7-10,Table 1 5 2) � CS = rR/IeJ (ASCE/5E1 7 10, EQ 17_.8 2) V i I V= CS W (ASCE/SEI 7-10, EQ. 12.8-1) I W I Design Spectral Response,S Os = 0.840 g Applied Horizontal Seismic Force, VA = S Os W 644 Ibs , FM O =0 D X F ANCHOR =H CG X V-D cG X W ; I � FANCHOR = 517 Ibs 48,39in J •�4"t.3im i i *If four anchors are used,the minimum anchor iI pullout strength must be greater than 258 Ibs per 17.ain anchor. Anchor shear strength must be greater than ! 161 Ibs per anchor. W z fANC� a u o a ___FIGURE21 - Hexapod Tipping--- 313C#:ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 4 3R ' L'V)tERTz SEISMIC RESTRAINING METHOD AND ELECTRICAL GROUNDING S The Large Live Hexapod has a high seismic Sos value and is required to be anchored to the floor in order to = prevent the stand from tipping over in the event of an earthquake. The stand is restrained using a chain wrapped around the base of the frame and bolted to the floor on each side of the rack.The chains are I connected to the floor by Quick Links rated for 880 Ibs each. _ _ IL I , _ , _ , 1 1 1 1 1 ---FIGURE2.3 -Seismic Restraining Strap --- _ _ CATEGORY PRODUCT INFO-GENERAL SPECIFICATIONS Manufacturer: Red Head Trubolt Wedge Anchor Part#: WS-3822 o = u Model: 3/8"x 2-1/4"L Material: Carbon Steel = c = 11 Seismic Rated Pullout Strength: 1,620 Ibs Seismic Rated Shear Strength: 2,320 Ibs 1 Manufacturer: Everbilt Quick Link Part#: 42704 = Model: 1/4" Material: Zinc Plated Steel Rated Capacity: 880 Ibs 1 , Manufacturer: Everbilt Chain Part#: 806656 S c5 Model: 3/16" Material: Zinc Plated Steel = f6 /-}j ' U _ Rated Capacity: 750 Ibs Manufacturer: National Hardware Part#: N221-309 = o Model: 1/2" Material: Zinc Plated Steel L , W Rated Capacity: 300 Ibs W= Manufacturer: Superstrut Part#: B-1400-HS S, Depth: 13/16" Material: GoldGaly Steel G; z= V) s Gauge: 14ga u Rated Capacity: 800 Ibs a al , 313C#:ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 5 (IKERTz I The pressure relief valves on each pressure vessel on the Bizzybee extraction unit were verified for the correct installation and set pressure. The following images of the vessel PRVs were taken at the extraction site. I I i I I yam- - ; i i i i i i i i FIGURE 2.4 5nM nr Vessel it L PRV-Set'ro 150 psi -- i 1 1 fv _ w a Cr n � Cr z ' of FIGURE2.5 SolNi(,n #1 PRV-;ct i:o 1,,)0 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 6 (3OERTZ VESSEL PRESSURE RELIEF VALVES C(JN71NLttU I The pressure relief valves on each pressure vessel on the Bizzybee extraction unit were verified for the correct installation and set pressure. The following images of the vessel PRVs were taken at the extraction site. l l _ 1 1 � I 1 1 1 •r l 1 I 1 1 1 1 i 7,7 t 1 I � 1 I 1 I 1 1 1 1 I I 1 1 1 1 I I 1 l ---FIGURE2.6 -Material Vessel PRV#1 -Set to 150 psi --- 1 1 1 1 l 1 1 I l I 1 1 1 � 1 1 7' I 1 1 I „I I 1 I I 1 1 1 I 1 _ W 4 W l7 Z W� s o� a� ---FIGURE 2.7 Material Vessel PRV#2 -Set to 150 psi --- 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 7 IkERTz VF.S,SFl. PRFSSIIRF RF_L IFF VALVF.S CONTINUED... 1 The pressure relief valves on each pressure vessel on the Bizzybee extraction unit were verified for the correct installation and set pressure. The following images of the vessel PRVs were taken at the extraction site. 1 1 1 1 P 1 1 T, 1 1 1 1 1 1 1 i 1 1 1 1 1 I 1 i 1 1 3 j 1 1 1 1 1 1 1 1 1 1 1 1 1 1 t t t 1 1 1 1 1 1 1 1 1 --FIGUREI.B - la('?V-=er.Eo 1'_)()nsi-- Z 1 1 1 1 1 1 1 _ - 1 1 1 � 1 1 i � t 1 1 1 1 1 1 1 I 1 I 1 1 1 1 zl _ wl ai jI �1 wl �1 1 zl w' u; o/ FIGURE 1.9 Color Remedial ion Column PRV-Set to 150 psi - a; 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 8 3P , C"tERTz _ 1 VESSEL PRESSURE RELIEF VALVES CONTINUED— The pressure relief valves on each pressure vessel on the Bizzybee extraction unit were verified for the correct installation and set pressure. The following images of the vessel PRVs were taken at the extraction site. f I i f / 1 i s r 1 T i 1 1 i 1 1 1 1 S S 1 1 1 1 1 1 1 1 1 l 1 1 1 ---FIGURE 2.10 -Collection Vessel PRV-Set to 150 psi--- 1 1 1 _ 1 I I 1 1 I I 1 I 1 1 1 1 1 S 1 � � I 1 1 t w� a_i z� �l ul of ---FIGURE 2.11 -Material Rack CO2 PRV 41 and#2-Set to 100 psi--- a' 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 9 ,%ERTz I VESSEL PRESSURE RELIEF VALVES CONTINUED The pressure relief valves on each pressure vessel on the Bizzybee extraction unit were verified for the correct installation and set pressure. The following images of the vessel PRVs were taken at the extraction site. I I � 1 I I I I 1 I I R 1 I R i I i ---FIGURE2.12 Material Rack CO2 PRV#3 and#4-Set to 100 psi--- I r ; i - i i i i i i i i i i i i i i i i i i i i i 1 aj W Z w= u� ---FIGURE2.13 Material Rack CO2 Manifold --- a= 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 10 AF ( gI ERT , � z ASME U-STAMP PLACARDS I NFPA 58,5.2.11 dictates that LP-Gas containers shall be marked(or stamped)in accordance with the ASME Code,Section VIII,or meet DOT requirements,which applies to all vessels with an inside diameter greater than 6 inches.The collection and solvent vessel in this system have been fabricated and ASME U-Stamped by an ASME certified metal fabricator. Ic MIPS , , , , , , 1 1 , , 1 , , � 1 , , , I , i , , 1 , , 1 , 1 , 1 1 , , , ---F/GURE2.14 -Collection Tank ASME U-Stamp Placard --- , , , 1 , , , , , , , , 1 1 , I I 1 1 1 1 1 1 �1 z0 WI �1 al 3' al wl �i ZI 1 OI cc1 4I 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 11 3R '' LEGAL DISCLAIMER — 1 1 1 This engineering report applies to the Mountain Hi extraction equipment in Arlington,Washington, in the condition shown and described herein. It is the responsibility of the facility owner to ensure this facility continues to adhere to state and national codes and that the reviewed extraction system remains in the j configuration referenced within this report. All processing equipment and safety systems are to be properly maintained, and the gas detection system shall be tested per the manufacturer's preventative maintenance schedule. All employees and equipment operators must be thoroughly trained in the equipment usage and emergency procedures. 1 1 1 1 1 1 1 1 1 I 1 1 1 1 I 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 t I 1 1 1 1 1 1 1 I 1 1 1 w� �1 �I 1 v; In� o� Qi l7� WI JI 1 313C#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 12 SUPPORTING APPENDIX A DOCUMENTATION ICR-190089-RO l't 1' -3P ' `' 'CERTz TRACTION ROOM GA.S DETECTION The gas detection used in the extraction room is a Class 1, Division 1 hazardous location rated unit, as shown below. GAS DETECTION SENSOR PAGE A-1 GAS DETECTION MONITOR UP CLOSE J - qLah, C1D1 RATED ELECTRICAL RECEPTACLES AND PNEUMATIC SUPPLY LINES PAGE A-2 EXTRACTION ROOM EXHAUST VENTILATION a% r t. EXHAUST INLET LOCATED WITHIN 12" FROM THE FLOOR PAGE A-3 ANCILLARY EQUIPMENT The heater below is located outside of the extraction booth and plumbed in through the walls to heat the collection vessel. tea.- TRUE TEMP HEATER UNIT HEATER LINES PLUMBED INTO ROOM PAGE A-4 ANCILLARY EQUIPMENT CONTINUED 04 AL • �)ti�i�ito AIR COMPRESSOR FOR PNEUMATIC TOOLS PAGE A-5 ANCHORING COMPONENTS The Hexapod frame is anchored using the following parts listed below: CHAIN +aen, ,;adena QUICK UNK 8801b [� 399.1 CHAIN LINKAGE FOR CHAIN TO EYELET SUPERSTRUT ANCHORING CHANNEL RIEO "EA" O. MR HEAVY DUTY CONCRE't US' 3/8"x2-1/4" CONCRETE ANCHORS PAGE A-6 r ADDITIONAL PHOTOS i r EXTRACTION ROOM ENTRY DOOR PAGE A-7 _ 1 a ■ ' BIZZYBEE LLC CERTIFICATION REPORT ECR- 190089 REVISION 0 ti a ' 9 CITY OF ARLING BUILDING DEPARTMENT APPROVED DA BY NO CHANGES AUTHORIZED UNLESS APPROVED BY THE BUILDING INSPECTOR lFn n OFFICE COP Received S EP 3 0 2019 ERTz b Ur-��-2-S 21i c33Vaga9A Y9 ... ;; CERTz SIGNATURE PAGE i The extraction system indicated below has been reviewed by 3P Certz and found to meet all requirements of the applicable state, national, and international codes and regulations for the environment and operating conditions described within this report. This document certifies the safety and code compliance of the , reviewed system only, and is not a guarantee of the quality or performance of the extraction system. f------------------------------------ --- ------- ---- -- ----------- -------------------------------------------------------- !Product Manufacturer: ; f Equipment Information: BIZZYBEE LLC Model Number: Large Live Hexapod 5001 Burlington Way STE B i Approved Solvents: 100%Butane i Tacoma,WA 98409 70-30 Butane/Propane Mix I I I (206)707-9417 1 Max Pressure Rating: 150 psi = )____________ _-_-_ �www.bizzybee.com 1 Temperature Range: -34'to60'c(-30'to140"F) - ^__'___-_.. L-'----_"__^•__--- «_--..«..--_- L---------------------------- ------ -----_---1 Certification Company: 3P Certz;LLC Included State Certifications: 14090 Fryelands Blvd.Suite 230 Monroe,WA 98272 I Signatures: Engineer of Record: Brian Kester, PE Date: September 13, 2019 rQ 33341 I A�/ONAL�� i i Signature: (f I I 1/4 Email: brian@3pcertz.com ; I ! I Reviewed By: David Olson, PE Date: September 13, 2019 Signature: Email: david@3pcertz,com I Authored By: Tyler Fritsch Date: Septem r 13, 201 i Signature: 1 Email: tyler@3pcertz.com S I Report Number: 190089-RO *Representation only, See State Certification pages for actual certification stamps. Revision History RO 9/13/2019 - Initial Release W I a. W' I ti / VC! 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com PAGE i CERTz CONTENTS ; SIGNATURE PAGE ` i I i INTRODUCTION 1 METHODOLOGY 2 SOLVENT INFORMATION 4 FACILITY/INSTALLATION REQUIREMENTS 6 SYSTEM OVERVIEW 9 PROCESS FLOW 17 ; HAZARD ANALYSIS 21 PRESSURE VESSELS 23 ; GENERAL COMPONENTS 41 ELECTRICAL COMPONENTS 46 STAND/MOUNT ANALYSIS 48 GENERAL MAINTENANCE 55 LEGAL DISCLAIMER 56 ; REFERENCES 57 STATE CERTIFICATIONS 58 ; MANUFACTURER SPEC SHEETS-GENERAL COMPONENTS APPENDIX A MANUFACTURER SPEC SHEETS-ELECTRICAL COMPONENTS APPENDIX B ; OPERATING MANUAL -SAFETY PROCEDURE APPENDIX C TECHNICAL DRAWINGS-PRESSURE VESSELS(AVAILABLE BY REQUEST) APPENDIX D W a� c U; i 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com PAGE ii INTRODUCTION The Bizzybee Medium Live Hexapod is a closed-loop extraction system used to extract cannabis concentrates using 100% Butane or a 70-30 Butane/Propane mix. The system consists of a series of stainless steel pressure vessels used to combine the solvent with the plant material, and then separate the solvent from the cannabis extract. As Butane and Propane are flammable liquid petroleum gases, strict precautions must be taken to ensure the safety of the extraction equipment and the environment in which it is installed. This technical safety report has been performed in accordance with Section 3904 of the International Fire ! Code(1FQ 2018. The reviewed system is found to be in compliance with IFC2018 Section 5003.2 (Systems, equipment and processes of hazardous materials), and NFPA 58-2017 (LP Gas Code). All pressure vessels j have been found to meet the 2017 ASME Boiler and Pressure Vessel Code, Section Vlll, Division 1 j requirements for a pressure rating of 150 psi or greater. The minimum facility and installation requirements 1 for this extraction system have been described in this report per NFPA 497-2017, Section 5.9 (Classification Diagrams for Class I, Divisions) and NFPA 70-2017,Article 500 (Hazardous Locations, Classes I, II, and III, E ! Divisions 1 and 2). E ! This report is a technical safety review of the extraction system design only. It does not evaluate or guarantee the performance of the system, ensure conformance of manufactured units, or certify the facility or control area where the system will be installed. Each manufactured unit shall be reviewed by 3P Certz and issued a serial number and certificate of conformance prior to operation. A separate site review and facility report are typically required per the Authority Having Jurisdiction (AHJ). , , , , , i , i - L , , , , 87 ' , , , , , , , , , , , , , , , ! o' *All dimensions are in inches. FIGURE 1.1 -Overall Dimensions---------- jE o; ! 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 1 �ERTz METHODOLOGY I This engineering review has been conducted by a Professional Engineer familiar with the extraction process I and knowledgeable in the design and safety requirements for these systems. The following describes the method used to identify, and ensure compliance with,the applicable codes and minimum safety requirements for the extraction equipment under review: _ 1). IDENTIFY THE SOLVENTS TO BE USED i Identification of the solvents used in the extraction system determines which chapter of the IFC will be used to dictate the facility and equipment requirements. The extraction system reviewed in this report uses an LP-gas such as Butane. Butane is classified as a Flammable LP-Gas in IFC 2018 and therefore, must comply with IFC, Chapter 61 (Liquefied Petroleum Gases) and NFPA-58 (Liquefied Petroleum Gas Code). The specific properties I of the LP-gases used are identified in the SOLVENT INFORMATION section of this report. I I 2).DETERMINE THE MINIMUM FACILITY/INSTALLATION REQUIREMENTS The IFC dictates certain requirements for the facility and equipment installed within based on the type of solvent used. These requirements often impact the design of the extraction system or process by establishing maximum quantities of solvent allowed,setting criteria for electrical components, and identifying the required safety features. The facility and installation requirements for the extraction system under review have been identified per IFC2018,Section 5003.8 and NFPA 497 in the FACILITY/INSTALLATION REQUIREMENTS section of this report. I 3). REVIEW THE GENERAL EXTRACTION SYSTEM DESIGN The general design of the extraction system is reviewed to develop an understanding of the desired function of ' each vesseel and component, identify the configurations available, and establish the nomenclature used to reference the main components and elements in the assembly. The overview for the extraction system under review can be found in the SYSTEM OVERVIEW section of this report. i 4).REVIEW THE PROCESS FLOW OF THE SYSTEM 1 The process flow of the system is reviewed from the introduction of plant material to the solvent recovery at the j end of the process. For each step in the process,the temperatures, pressures,and solvent state are identified for all pressure vessels in the system. Additionally, any safety concerns or warnings are included for each process step. A labeled piping and instrumentation diagram (PID) is reviewed and included in this section to link I the overall flow of the system to the individual process steps analyzed. The PID and process flow for the extraction system under review can be found in the PROCESS FLOW section of this report. S). PERFORM A HAZARD ANALYSIS A hazard analysis is developed for the system which identifies the potential safety hazards of operation and describes the processes and safety features that have been,or will be, implemented in order to prevent them. For this LP-gas extraction system, many of the safety features/requirements have been obtained from IFC2018, I Section 5003, NFPA 58-2017, Chapter 5, NFPA 70-2017,Article 500, and IMC 2018, Chapter 4. See the HAZARD ANALYSIS section in this report for the complete hazard analysis of the extraction system under review. S 6).ANALYZE THE PRESSURE VESSELS Any pressure vessels required to operate over 15 psi are analyzed per the ASME Boiler and Pressure Vessel Code,Section Vlll, Division I to obtain their maximum allowable working pressure rating. The vessel pressure ratings are then evaluated to ensure they meet or exceed the required operating pressure,which is dictated by either the desired process or solvent vapor pressure, depending on the system being evaluated. The PRVs are also evaluated for proper construction and installation per the requirements of the ASME code. For this LP-gas o` system under review,the required minimum pressure rating is dictated by the vapor pressure of the solvent °1 used.All pressure vessels in the system have been found to meet the ASME design requirements, as indicated in the PRESSURE VESSELS section of this report. , 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 2 \ -,"CERTz 7). REVIEW THE GENERAL COMPONENT SPECIFICATIONS I The ratings and specifications of all general components used in this extraction system, including pressure relief valves,sight glasses, pressure gauges,valves,fittings, hoses,gaskets, and pumps, have been reviewed and listed in this report. All components listed have been verified to meet the temperature and pressure requirements of the reviewed extraction system,and all component materials have been confirmed to be compatible with the solvent(s) being used. PRVs used in the reviewed extraction system have been found to comply with NFPA 58- 2017,Section 5.9.2. For a complete list of all general components reviewed for this extraction system, see the �! GENERAL COMPONENTS section of this report. i 8). REVIEW THE ELECTRICAL COMPONENT SPECIFICATIONS The ratings and specifications of all electrical components used in this extraction system, including chillers, heaters, pumps, and electronic sensors, have been reviewed and listed in this report. All electronic components are reviewed for compliance with NFPA 70-2017 (National Electrical Code) per the requirements of the I environment dictated by the solvent(s) used. For a complete list of all electrical components reviewed for this extraction system, see the ELECTRICAL COMPONENTS section of this report. 9).ANALYZE THE STAND OR MOUNTING METHOD The stand or mounting method used to support the vessels and components of the extraction system are reviewed with both a structural analysis and a seismic tipping analysis. The structural analysis reviews the frame design (if applicable) and any clamp mounts or brackets to ensure their design is adequate for the weight of the vessel or component they are supporting. The seismic tipping analysis reviews the physical stability of the system based on the requirements of the ASCE/SEI 7-10 Minimum Design Loads for Buildings and Other Structures, Third Printing. The stand analysis for the extraction system under review can be found in the ! STAND/MOUNT ANALYSIS section of this report. I i i 10). REVIEW AND CONFIRM COMPLIANCE WITH SPECIFIC STATE CODES I This engineering report uses international codes as the primary basis for approval and certification of the reviewed extraction system. However, certain states and jurisdictions have adopted their own revised versions of the international codes and/or implemented additional regulations and requirements for these extraction systems. This section of the report provides an in-depth review of any and all state specific codes and regulations and confirms compliance of the extraction system under review. Any discrepancies or nonconformances found with the extraction system in relation to state specific codes will be resolved prior to issuing a Certificate of Conformance for the manufactured unit. Each state certification provided in this section i will bear the seal of a professional engineer licensed in that state. The state certifications provided for the extraction system under review can be found in the STATE CERTIFICATIONS section of this report. I I Any items found to not be in compliance with the governing codes or requirements during the initial review will be documented on an Action Item List and provided to the responsible party. The release of this report indicates that all action items have been resolved and the system design reflected herein meets all applicable safety requirements for operation. I i I I of of al o, �I 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 3 CERTz SOLVENT INFORMATION _ The components and equipment reviewed in this report will be used in systems designed to operate with _ either 100% Butane or a 70/30 Butane-Propane mixture. The compatible solvents for each component or piece of equipment have been listed within this document based on the chemical compatibility of the i materials of construction. Butane and Propane are liquid petroleum gases that are highly flammable, _ i colorless, and easily vaporized at room temperature. The appropriate cautions must be taken to ensure the safety of the extraction systems and environments in which these solvents are used. The following provides 1 the estimated vapor pressures, the required minimum design pressures, the chemical properties, and a list of materials compatible with these solvents. , _ BUTANE/PROPANE Butane Butane and Propane are both LP gases and may be used J t individually or together in a mixture. Since Butane and F Propane have vastly different vapor pressures,the minimum design pressure ratings for systems using these solvents r I —F Prona ne { depends on the variation of the solvent used. See below for ; I the required minimum design pressures for components and i equipment using these solvents. #' 1 MINIMUM DESIGN PRESSURE 1 ------------------------------------------------------------- --------------- TEMPERATURE VAPOR PRESSURE _ BUTANE 70/30 Maximum Vapor Culiment ASNIF ' i = 'F PSIG n.esstwe Coale' I I ' I 40 3 25 At 100"F At:37.8°C ' 50 6.9 32 (psig) (Mpag) psig Wag _ ' ' 60 12 39.5 ► 80 0.6 100 0.7 I 7017 48.5 100 0.7 !2ri 0.9 = 80 23 58 125 0.9 156 1.1 I 90 29 69 150 1.0 187 1.3 I ------ -----=--- 175 1.2 219 1.5 ' = I 100136 1084.5 215 1.5 250 13, 11045 105 215 1.5 312 2.2` ' I *Reference:Fisher Controls LP-Gas *Reference:NFPA Ss,Table 5.2 4.2 Maximum Vapor Pressure = , Serviceman's Handbook,2001 and Maximum Allowable Working Pressure(MAWP) Per the above table provided by the NFPA 58 LP Gas Code, all vessels and components used with these _ ' LP gas solvents must rate for the following minimum design pressures depending on the composition of I the solvent used: s= 1 = 100% Butane: 100 psi �; Z, 70%Butane/30%Propane: 125 psi _ r , -------- -- -----------------•-------------------------. -------------------------------------1 � 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 4 i i .iil (j�bERTZ CHEMICAL PROPERTIES ------------------------------------------------------- - —------------------------------ ---------- r BUTANE i ' I sr Freezing Point: -220 'F (-140°C) r I Initial Boiling Point: 30 'F (-1 °C) *At 1 atm Flash Point: -76 °F (-60-C) , r r Autoignition: 761 °F (405-C) O r r r r r r Classification: Flammable Gas-Class I,Group D CAS Number: 75-28-5 (Isobutane) r r = 106-97-8 (n-Butane) `Reference:NFPA 197,Table/1A.2 j PROPANE = Freezing Point: -306.4 'F (-188-C) Initial Boiling Point: -44.05 °F (-42.25 °C) *At 1 atm } r Flash Point: -155 °F (-104°C) ! 3 Autoignition: 878 °F (470-C) O Classification: Flammable Gas-Class I,Group D ! CAS Number: 74-98-6 "Reference:PJFPA 497,Table 4.4.2 ! ! ! 1.----------------------------------------------— _---__--______..-------------------------------i I ! ! ! MATERIAL COMPATIBILITY r � r r , ! SOLVENT: BUTANE PROPANE r r r ! Ratings-Chemical Effect i PTFE A-Excellent A-Excellent A-Excellent FKM A-Excellent A-Excellent B-Good: Minor Effect, slight corrosion, or discoloration. ! EPDM D-Poor D-Poor C- Fair: Moderate Effect, not recommended for continuous ; I Buna N A-Excellent A-Excellent use.Softening or loss of strength, and swelling may occur. aViton A-Excellent A-Excellent D-Severe Effect: Not recommended for any use. UjSilicone D-Poor D-Poor E- Information not available. 1 PVC C1-Fair Al Excellent j PEEK A-Excellent A-Excellent ! SS 304 AZ-Excellent A-Excellent Explanation of Footnotes ! SS 316 AZ-Excellent A-Excellent 1 -Satisfactory to 72 'F(22 `C) ! ! i Brass N/A A-Excellent 2-Satisfactory to 120°F (48 °C) 1 r , 'Reference:Cole-Parmer (https://www.colepanner.coin/Chernical-Resistance) 0= �r Component seals and gaskets may be made from PTFE, PEEK, FKM, Buna N, or Viton. EPDM, PVC and Silicone are not acceptable materials to be used in this extraction system. S ; i r �! --------- -_- .... o 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 5 i i 3 ; _.CERTz I FACILITY/INSTALLATION REQUIREMENTS CONTROL AREA SPECIFICATIONS ; The extraction system certified in this report must be installed and operated in a control area meeting the requirements of the IFC 2018,5003.8.3/IBC 2018, 414.2. Per NFPA 497,the solvents used in this extraction system are classified as Class I, Group D Flammable Gases. The maximum allowable quantities for solvents in a control area are dictated in IFC2018 Table 5003.1.1(1) as follows: MAXIMUM ALLOWABLE QUANTITY PER CONTROL AREA 1 MATERIAL CLASS ISTORAGE USE-CLOSED SYSTEM 'Flammable Gas ILiquified 5150 pounds de I150 pounds d e I- ---- ---- --------------------- -------------------------__-- --------------� ; �d.Maximum allowable quantities shall be increased 100 percent in buildings equipped with an approved ; ;automatic sprinkler system in accordance with Section 903.3.1.1. Where Note a applies,the increase for ; #both notes shall be applied accumulatively. I ; le.Maximum allowable quantities shall be increased 100 percent where stored in approved storage ; cabinets,day boxes,gas cabinets,gas rooms,exhausted enclosures or in listed safety cans in accordance ,with Section S003.9.10. Where Note d applies,the increase for both notes shall be applied accumulatively. i 1 , I--------------------------------------------------------------------------------------------5 ' 'Reference:IFC 2018 Table 5003.1.1(1) ---------- TABLE 4.1 -Max Allowable Solvent Quantity---------- The percentage of the maximum allowable quantity and the fire-resistance rating for the walls of the control area are dependent on the location of the control area within the extraction facility. The design and number of control areas are dictated by IFC 2018 Table 5003.8.3.2 as follows: DESIGN AND NUMBER OF CONTROL AREAS PERCENTAGE OF THE MAXIMUM FIRE-RESISTANCE STORY ALLOWABLE QUANTITY PER NUMBER OF CONTROL RATING FOR FIRE CONTROL AREA AREAS PER STORY BARRIERS IN HOURS Higher than 9 5 i 1 f ' 1 � 2 I 7-9 5 ; I I 2 I 2 I ; 6 I 12.5 2 2 1 , Above grade I 5 ; 12.5 2 ; 2 plane 4 I 12.5 2 2 , I I 3 50 2 ' 1 I , 1 i j I 2 1 75 3 i 1 1 , , 1 I I tiI I 1 I 100 4 1 W� .-..---------------J----.____..-.-.-_ Below grade ; 1 I 75 I 3 1 I �; 1 1 plane 2 50 2 1 Lower than 2 I Not Allowed Not Allowed Not Allowed oI ----------------- ------------------ -------------------------------------------------•-- - - -----------------.. ___ ------- tiI *Reference:IFC 2018 Table 5003.8.3.2 ---------- TABLE 4.2 -Control Area Specifications --------- � ;I 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 6 it INSTALLATION OF ELECTRICAL (_� UIPMENT The control area in which this equipment will be operated shall be classified as a Class I, Division 1 zone per NFPA 497, Section 5.1.1.2. Any and all electrical equipment used in this control area must meet the requirements defined in NFPA 70,Article 500.7 and be rated for use in a Class I, Division 1 environment. ' E I PROCESSING FACILF. . { - - CLASS I, DIVISION 1 ZONE EXTRACTION ROOM I I NON-RATED ELECTRICAL EXTRACTION EQUIPMENT EQUIPMENT OUTSIDE OF ROOM j I I I - I I I 1 1 i+ I I I ---------- FIGURE 4.3 -Classified Area, Elevation View---------- 1 1 GAS DETECTION SYSTEM Due to the fire/explosion hazard associated with LP-gases, a gas detection system must be provided in the control area where the extraction system is used. The gas detection system shall comply with the requirements of IFC2018, Section 3905.1 . The gas detection system shall be set to activate when the gas level exceeds 25%of the Lower Flammability Limit(LFL) of the LP-gas used. Upon activation,the gas detection system shall automatically initiate audible and visual alarm signals, deactivate all heating systems, and activate the mechanical exhaust ventilation system in the extraction room. All gas detection system components and sensors must be UL listed and labeled for the gas vapors being detected. I 1 1 "The flammable gas detection system shall be listed or approved and shall be calibrated to the types of fuels or gases zi used for the extraction process. The gas detection system shall be designed to activate when the level of flammable gas exceeds 25 percent of the LFL. -IFC 2018,Section 3905.1.1 0= QI Q; �I z l \1 1 UI �l I 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 7 XERTz- VENTILATION S f The extraction room or area must be properly ventilated per the requirements of IMC, Chapter 4, by either natural ventilation or continuous mechanical ventilation while the space is occupied. In addition,the area shall have a mechanical hazardous exhaust ventilation system installed,which meets the requirements of IMC 2018, Section 510 (Hazardous Exhaust Systems). The mechanical hazardous exhaust system will be i activated by the gas detection system installed in the control area. The design and operation of the exhaust system shall be such that flammable contaminants are diluted in noncontaminated air to maintain concentrations in the exhaust flow below 25 percent of the contaminant's lower flammability limit." -IMC 2018,Section 510.3 i SIGNAGE ' I Warning signs shall be placed at the entrance to the extraction control area and on LP-gas containers per IFC ; 2018, Section 5003.5 and 5003.6. The following are examples of the signage to be posted. The local fire code official must approve the actual warning signs used. S , i , , , , , , LP GAS STORAGE HI-- GHLY ; NO SMOKING FLAMMABLE LPG ; NO NAKED FLAMES NO SPARKS ---------- FIGURE 4.4 -Example Warning Signs---------- i Ensure the appropriate hazard identification signs are posted and the material safety data sheets are available for the specific hazardous material present. The following are the hazard identifications signs that should be posted at the entrance to the extraction area, depending on which LP gases are present. i i , 4 : <i)> , V; z' BUTANE PROPANE ' ---------- FIGURE 4.5 -Hazard Identification Signs---------- 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 8 I T �„ %ERTz SYSTEM OVERVIEW LARGE LIVE HEXAPOD 1 The Bizzybee Large Live Hexapod extraction system is composed of one rack with two 19 lb solvent columns, I two 10 lb material vessels, one collection vessel, and one molecular sieve as well as a color remediation column (CRC). Vessel pressure ratings and component specifications are identified later in this report. I I I I 1 I 1 1 1 I 1 � 1 •� � x I _ I _ I I -...-� LARGE LIVE HEXAPOD I 1 1 1 1 � - 1 33 � 1 1 I _ 1 .I.. 1 1 1 I 1 !1 1 t t 1 j 1 ; / 1 � 1 %r 31 WI S, w' of �j ti ---------- FIGURE 5.1 -Extraction System, ISO View- hl 1 3PC M ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 9 i NERTz BIZZYBEE LARGE LIVE HEXAPOD 6-8 MATERIAL VESSELS 10-12 COLLECTION I � I COLOR til � REMEDIATION ` COLUMN 31 ' t t i I I_ I i L i i i i i 2.0" FRAME I I 3; W� �I ---------- FIGURE 5.2 -Large Live Hexapod, Front View-- -- t 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 10 ERTZ BIZZYBEE LARGE LIVE HEXAPOD 6-8 SOLVENT VESSELS 4-5 MOLECULAR SIEVE t — i , COLOR REMEDIATION } COLUMN i 1 c 77 1� ss y y 1 —Y 4`O ILA -- i i vlt - : _ i i i 3i Wi ---------- FIGURE 5.3 - Large Live Hexapod, Rear View---------- , of �i >i 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 11 (NERTZ 6-8 SOLVENT VESSEL The solvent vessels included with this unit are 19 lb vessels with a CO2 jacket, as shown. S 6"TRI-CLAMP AND GASKET S QUICK DISCONNECT ' PRESSURE RELIEF VALVE i 1/2" PLUG VALVE DIP TUBE f PRESSURE GAUGE \ _ 1/2" 3-WAY \j ! --CO2 JACKET ; BALL VALVE ; rI 1 6"TRI-CLAMP 1 r � CO2 PORT - - I w THERMOCOUPLE o= ---------- FIGURE 5.4 -Solvent Vessel Overview---------- y{ 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 12 I C'11�E R Tz - 6-8 MATERIAL VESSEL The material vessels included with this unit have 10 lb material capacity and a CO2 jacket, as shown below. PRESSURE GAUGE 6"TRI-CLAMP - & GASKET I PRESSURE RELIEF VALVE / 1/2" BALL VALVE _ I J QUICK DISCONNECT 6"TRI-CLAMP CO2 PORT ; I I R i �'!l.. IACKFT i CO2PORT i —� 6"TRI-CLAMP l THERMOCOUPLE ' I I 3/8" 3-WAY BALL VALVE QUICK DISCONNECT i - FIGURE5.5 - Material Vessel, Overview a, 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 13 4'!VERTz_ 6"TRI-CLAMP I 10-12 COLLECTION VESS O; & GASKET ; The collection vessel included with this unit has a heater jacket, as shown below. r� I QUICK DISC THERMOCOUPLE PRESSURE GAUGE ll 112" BALL VALVE ` PRESSURE RELIEF ' VALVE HEATER PORT 6" IN-LINE SIGHT GLASS f 6"TRI-CLAMS - / 1 I I I HEATER JACKET ' — I I I I 6"TRI-CLAMP ---�- �_ 6" IN-LINE SIGHT GLASS HEATER PORT r. 6"TRI-CLAMP / HEATERJACKET 3/8" BALL VALVE HEATER PORT HEATER PORT W ' o W -----•----- FIGURE 5.6 Collection Vessel, Overview - - a 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 14 i i CERTz , 4-5 MOLECULAR SIEVE The molecular sieve included with this unit has a heater jacket, as shown below. f 4"TRI-CLAMP &GASKET PRESSURE GAUGE =� QUICK DISCONNECT / f' PRESSURE RELIEF VALVE \ i S � i HEATER PORT _ �- 4"TRI-CLAMP fl ; I I I I I I HEATER JACKET I HEATER PORT 4"TRI-CLAMP i I HEATER PORT C. i QUICK DISCONNECT �i 0 ---------- FIGURE 5.7 -Molecular Sieve, Overview---------- Hi 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 15 1,��ERTz_ i C-LOR REMEDIATION COLUMN The color remediation column has a filter plate and two in-line sight glasses, as seen below. PRESSURE RELIEF VALVE 6"TRI-CLAMP � & GASKET PRESSURE 1/2" 3-WAY BALL VALVE ; GAUGE QUICK DISCONNECT i r ' � r 6" IN-LINE f r --�" SIGHT GLASS i I r r i r ; _ _ r r b"TRI-CLAMP r _ r i r r r r ; r r r r ; r r ; FILTER PLATE - % 6"TRI-CLAMP r r — r r r 6" IN-LINE i SIGHT GLASS i E i i r 1/2" BALL VALVE W ---------- FIGURE 5.8 -Color Remediation Column, Overview 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 16 -3p ('19ERTz- PROCESS FLOW / i LARGE LIVE HEXAPOD EXTRACTION SYSTEM PIPING AND INSTRUMENTATION DIAGRAM (P1D) 1 1 1 1 1 ! 1 1 1 i 1 1 S ! ! 1 '� �-♦- MANIFOLD :'.� �� � ! • V-19 ! • 16 1 1 • —� • ! GA I T GX2 GAd GA 5 CA V-20 CA 1 V-2 V3 ..�•. w/..w n'wl lnlnm 1 t wMm 1 V-1 Y-S V•30 V-12 1 ` >m»a 1 _ W v 2 t]p 1 rV 20 • `v 1 PRV-1 PRV-3 PRVA PIN-S V•17 1 15o psl P:p ISO PSI �$.,(j IMw 1 /250 P51G 15o psl Sso Psi 1so Psl PR-1 �����{{{{'7J77JJJ1 PR-2 ! V-3 xV"1 _ V-12 Y V-13 300 P51G I00 ! �r 11 77TSSS 1 1 1 V-21` V-23 1 _ Z r 1 > Of •%z 3M PSIG zI Pf0 p11( aW W 0 m ! I . ! o O a a u o $ i L 1 1 Y•9 Fl �p_2 F-3 1 1 V-4 V-g , V-12 • V-16 COLLECTOR- - V-24 1 SQUIRTER HEATER — 1 SOLVENT OUT i / ------ FIGURE 6.1 -BIZZYBEE LARGE LIVE HEXAPOD SYSTEM, PID------ 1 1 1 1 1 1 1 1 1 I 1 1 1 1 I 1 1 1 1 1 1 n� �1 y! WI J/ nl 4i 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 17 NERTz ! PROCESS DESCRIPTION = l The following describes the high level steps of the extraction process and indicates the system properties and l potential safety hazards of each process task. See Appendix C for more specific safety instructions. Definitions for the symbols used throughout this process analysis are provided below. 1 / i DEFINITIONS: t -----------------------" ----Y 1 T — Temperature A= Ambient(Room Temperature) *Reference PI on previous page P = Pressure L Liquid 'for vessel and component 1 = 1 / identification. ; SS-_-Solvent State-------- G=-Gas 1 ! '-------------- 1 1� LOAD TRIM INTO MATERIAL VESSEL(S) ----------------------------------------------------------------r----------------------------------------------------- ! SYSTEM PROPERTIES ! - V ESSELS T (°F) 'P {psiJ --SS = I------ --------;--------�---- i I Solvent, A I <150 L , 1 Material; A ; 0 t --__------_ Collection; A 0 --- j 1 --------------^-^- -------- •-------- ---- i �u t ! *Do not exceed rated material vessel ! i / capacity. 1 1 t 1 1 I 1 -----------------__-------- __...-....-- _--_-rrrr_rrr--r____V----------------- ------------------ Q SAFETY. Ensure all solvent has been recovered from Material Vessels and Pressure Gauges read 0 psi } t ■ before opening the caps. , ••--- ------- -----_-__--------------------------------------=-------------------------------------------------------- i i i ZJ PUMP AIR OUT OF SYSTEM : , --------------------------------------- ------ Vacuum pump 1 SYSTEM PROPERTIES representation only. ! ! ' I V ESSELS 1 T(-F) ;P(psig)I SS ' ' ---------►- ---*-------- --- i 1 I Solvent A ! <150 ; L ; I Material! A I -14 ---^-------- -------t 1 1 1 1 S Collection; A ; -14 ! ! '------------------L-----------------J-------- J 4i41 .J ! -Use a vacuum pump to draw vacuum in ; , t , system. ` --- ---------- ------------------------------------------- ------------------------------------------------------ z SAFETY. Once vacuum is drawn, make sure pressure remains constant in Material and Collection Vessels to ensure there are no leaks present in the system. o� -------------- --------------------------------------- Ui 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 18 i i (PCERTz PROCESS DESCRIPTION 3) TRANSFER SOLVENT TO MATERIAL VESSEL(S) SYSTEM PROPERTIES = 1 1 ----__�VESSELS; T(_F)_i p(psig)1 SS i--------- Solvent ---A <150 { - L/G- i Matenal, 30 <150 ` L Collection; A -14--I- - -- ' --------------- - •_----- I 1 -Close all ball valves _ -Open ball valves that will allow flow from ! Solvent Vessels to Material Vessels. 1 ------------------ -------------------------------------------- -------------------------- ---------------------------1 Q SAFETY. If the gas detection system shows signs of the presence of gas, immediately close all ball valves 1 and check for loose fittings and other potential leak sources. -------------------------------------------------------------------------------------------------------- 4J WAIT DESIRED SOAK TIME , ---- ' t -Close all ball valves. -System Properties same as Step 3. Soak times may vary... ----= SJ TRANSFER SOLVENT AND OIL EXTRACT TO COLLECTION VESSELS ----------------------------------------------------------- ------ , SYSTEM PROPERTIES ! 1 ' S VESSELS!! T(_FJ-aP(pslg)�--SS- 1 S ------ - _ j 1 Solvent; A ; <150 '1 L/G 1------------------�--------41--------4--------', 1 l 1 Material: -30 ; <150 1' L ; 1 ,--��------------,--------*------------------ , 1 Collection; -20 1 <150 1 L 1 i ------------------�--- -=--------j-------- � S 1 1 1 -Open ball valves that will allow flow from a, Material Vessels to Collection Vessel. 1 z , Q SAFETY. If the gas detection system shows signs of the presence of gas, immediately close all ball valves 1 and check for loose fittings and other potential leak sources. '------------------------------------------------------------------------..----------------------------------------------A , , , 01 �1 h� U� C' , ai 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 19 i (WERTz PROCESS DESCRIPTION ; 6) RECOVER SOLVENT 1 Floor tank SYSTEM PROPERTIES representation only. � 1 1 VESSELS; ; T(-F) 1;P(psig)1 I SS = I 1 1 ------------- Solvent' -30 '_< 150 ; L ----------- ------h-------- -i-------- i ; 1 M-aterial; A 0 Collection; < 120 <150 L/G ------------------'-- ---- ..---------1 � I 1 � 1 1 t f -Use passive recovery to transfer solvent. 1 1 1 1 ------------------------------------------- ------L---" 1 1 _ --------__--_..-_-_---__-r-_..---------------------1 I � 1 1 SAFETY. Continue recovery process until all solvent is removed from Collection Vessel. 1 , 1 1 � 1 , ----------------------------- ------------------------------------------------------- --------------� i S t 7J REMOVE OIL EXTRACT FROM COLLECTION VESSEL = ---------------------------------------------------------------------------- -------------------------------- 1 1 SYSTEM PROPERTIES _ ' - V ESSELS! T(-F) I P(psjQ2 SS Solvent; A ; <150 ; L _ --------------- ----- 1 ' Material' ------------------ -------- -------- ---Y--- ; Collection, < 120 0 ; 1 , -Close all ball valves. -Collect extracted oil. 1 ' 1 SAFETY. Ensure Pressure Gauge on Collection Vessel reads 0 psi or less before opening ball valve on the I 1 bottom of the Collection Vessel.------------------------------------------------------------------------------------------------------------------------- { 1 I I 1 1 1 1 ; 1 1 1 1 1 1 1 1 I I 1 I 1 1 1 al O� J� �1 �11 w' O; 21 i 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 20 i CdERTZ- HAZARD ANALYSIS The product under review is designed for use with Butane or a 70/30 Butane-Propane mix and may experience pressures up to 150 psi. Propane and Butane are flammable LP-gases and present several potential safety hazards with the use/operation of this product.The following hazard analysis identifies the potential safety hazards associated with this product, and describes the precautions taken to avoid them. �.�... FIRE/EXPLOSION I DEFINITION: Ignition of flammable solvent causing a sudden and violent expansion of fire in and around the ignition area. I CAUSE: Solvent vapors coming into contact with an ignition source such as a flame or spark. PREVENTION: 1). Eliminate Ignition Sources -No open flames or other ignition sources shall be present in or around this product at any time. This product will contain trace amounts of solvents, and the process of I using this product calls for these vapors to be released at regular intervals.Always perform this release of vapors in a safe area, using a controlled process. 2). Static Electricity Protection -All processing equipment used in extraction process must be effectively grounded, including vessels, pumps,frames and process piping. Personnel in extraction areas must make reasonable efforts to discharge static electricity off of their person before entering the extraction room and while interacting with extraction equipment. See NFPA 77 section 8.2.1 and 9.1 for more details. I 3). Adequate Ventilation -When releasing solvent vapors from the vessel during the crystallization process it is recommended that the vessel be placed under a hazardous exhaust fume hood so ; that it limits the possiblity of the vapors being ignited. See the FACILITY/INSTALLATION REQUIREMENTS section of this report for additional details = on the ventilation system recommendations. 4). Fire Extinguishers -A dry chemical type fire extinguisher shall be available in the area that this product is being used within. Do not attempt to extinguish a fire until the vapor source has been shut off. S 44, OVERPRESSURIZATION DEFINITION: Overpressurization occurs when the pressure within a vessel, pipe, hose,fitting,or component exceeds the rated pressure and causes a mechanical failure or rupture. CAUSE: Vessels or components exposed to pressures exceeding the design operating pressure due to operator error and/or improper selection of hoses,fittings,or components used within the product. zl Q� QI z� 3PC#: ECR-190089-RO PROPRIETARY CONTENT ' Release Date: 9/13/2019 www.3pcertz.com Page 21 I �-3 ERTz OVERPRESSURIZATION CONTINUED. . . ; _ I PREVENTION: 1). Pressure Relief Valves -A pressure relief valve (PRV) is properly installed on the vessel of this product. The PRV is set to the cracking pressure which corresponds to the maximum design operation pressure of the product(150 psi). This will prevent overpressurization of Ithe vessel by venting off any gas causing excess pressure. See the PRESSURE VESSELS and GENERAL COMPONENTS sections of this report for additional PRV specifications. 2). Engineering Review of all Vessel and Component Ratings -The pressure vessel and components used in this product have been reviewed within this report and found to meet the requirements for the operational temperatures and pressures to which they are subject to under normal operation of this product. The pressure vessel used in this product has been found to meet the requirements of ASME BPVC Section Vlll, Division 1 for the intended operating pressure, as shown in the PRESSURE VESSELS section of this report. The specifications for all PRVs,gauges, fittings,and valves have been reviewed and found to be in compliance with their intended operational conditions,as shown in the GENERAL COMPONENTS section of d this report. i •�� 3). Operator Training -Operators shall be trained in the correct operation of this product and the = implementation of emergency procedures in the event of overpressurization. _ ��A EYE OR SKIN CONTACT = DEFINITION: If any of the solvents in use come into contact with the eyes or skin of the operator or other personnel in the area, it may cause irritation or frostbite. CAUSE: Solvents may be splashed or spilled while filling the product. The gases used in this system are under high pressure and may be rapidly expelled from the product in the event of a leak or ' rupture. Rapid release of LP-gas can cause exposure to freezing temperatures, however the amount of solvent in use with this product results in a very low risk factor. , I i PREVENTION: 1). Use of Personal Protective Equipment(PPE) -In addition to the preventions described for overpressurization, personnel in the Our vicinity of the product during use shall wear the proper PPE,such as safety glasses and gloves,to prevent released solvent vapors from coming into contact with the eyes or skin. FIRST AID: In the event that solvent does come into contact with the eyes or skin,the following first aid should be performed: RINSE: Immediately rinse the eyes or contaminated skin with plenty of water. If Iv rinsing eyes, be sure to flush upper and lower eyelids. Rinse for at least 10 1 1 1 1 1 minutes. Seek medical attention if irritation continues. t 111 i WARM: If frostbite has occurred, immediately warm the frostbite area with warm _ water, not exceeding 106°F(41°C). Seek medical attention for large or sensitive exposure areas. _ x� 3PC#: ECR-190089-RO PROPRIETARY CONTENT ' Release Date: 9/13/2019 www.3pcertz.com Page 22 I I 3P% CERU - PRESSURE VESSELS The maximum allowable working pressure of each pressure vessel has been calculated per the ASME Boiler and Pressure Vessel Code, Section Vlll, Division 1. NFPA 58, 5.2.1.1 dictates that LP-Gas containers shall be marked (or stamped) in accordance with the ASME Code, Section VIII, or meet DOT requirements, which applies to all vessels with an inside diameter greater than 6 inches. The collection vessel and solvent tank in this system have been fabricated and ASME U-Stamped by an ASME certified metal fabricator. Information about the solvent floor tank can be found in the corresponding Certificate of Conformance.The solvent floor tank used with this system is certified by another 3rd party engineering firm and will not be included as part of the in depth review in this report.The following provides verification of the ASME code calculations used to determine the vessel pressure ratings. 1 � "Containers shall be designed,fabricated, tested, and marked(orstarnped)in accordance with the regulations of the ; US. Department of Transportation (DOT);the ASME Code,Section Vlll, "Rules for the Construction of Unfired Pressure Vessels" or the API-ASME Code for Unfired Pressure Vessels for Petroleum Liquids and Gases, except for UG-125 through UG-136." -2017 NFPA 58 Liquefied Petroleum Gas Code,5.2.1.1 MATERIAL PROPERTIES The following table provides the maximum allowable stress values for the materials used to make the j pressure vessels included in this system. - S MATERIAL CHEMICAL COMPOSITION MAX ALLOWABLE STRESS,S (KSI) , -20° F 100° F 150° F 200° F = ;304 Stainless Steel 118Cr-8Ni (0.08%Carbon), 20.0 ; 20.0 --- 16.7 1316 Stainless Steel 1'18Cr-13Ni-3Mo (0.080,%Carbonyl 20.0 I 20.0 I 20.0 I 20.0 ' .---'-------------------------------4------------------------ -----------1--------1-------- ------- --------- *Reference:ASME BPVC II D.C-2015 TABLE 1A ---------- TABLE8.1 - Max Allowable Stress Values---------- j Although ASME BPVC, Section 11, Part D- Table 1A only provides Maximum Allowable Stress values for temperatures down to-20' F, the Minimum Design Metal Temperature (MDMT) of 304 and 316 stainless steel is-320° F without requiring impact testing, per ASME BPVC, Section VIII, Division 1, UHA-51(d)(1)(a). For welded assemblies without the addition of filler material,the MDMT is-155' F, per ASME BPVC, Section Vlll, Division 1, UHA-51(e)(1). Note (e) of the General Notes for Part D- Table 1A states that the stress values provided for-20' F are applicable for colder temperatures, provided the applicable strength requirements are met. Therefore,the maximum allowable stress value of 20 ksi will be used to rate non- welded vessel components to a MDMT of-320° F and welded vessel components to a MDMT of-155' F. "Impact testing is not required far Table UHA-23 base metals for the following combinations of base metals and HAZs (if welded)and MDMTs, except as modified in (c): W= (1)for austenitic chromium-nickel stainless steels as follows: (a)having a carbon content not exceeding 0.10%at MDMTs of-320°F(-196°C)and warmer." J Vh -2017ASME BPVC Vlll Division 1 -UHA-51(d)(1)(a) w HI a` E 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 23 �3P _ HERTZ - , VESSEL SUMMARY SOLVENT VESSELS , MAWP: 150 psi PRV Set Pressure: 150 psi Max Design Pressure: 350 psi PRV Flow Rate: 140 SCFM ------- Limiting Feature_Flat End Cap w/Sight Glasses-- ------ - -----PRV-ID_- PRV1 Material: 316SS = Outside Diameter; 6 in Internal Volume: 950.7 in' Overall Length: 48 in , Maximum Capacity: 19.0 Ibs(70/30 BP-Mix) 19.8 Ibs(100%Butane) I 313C VIN:6-8 SOLVENT BARE-150 MATERIAL VESSEL MAWP: 150 psi PRV Set Pressure: 150 psi Max Design Pressure: 603 psi PRV Flow Rate: 140 SCFM ----Limiting Feature: Flat End Cap I PRV ID: PRV1 ---------------------------------------------- Material: , 316SS i Outside Diameter: 6 in Internal Volume: 950.7 in' ; Overall Length: 48 in Maximum Capacity: 10 Ibs , 1 (Trim) 3PC VIN:6-8 MATERIAL-150 1 i MOLECULAR_SIEVE _ 1 MAWP: 150 psi ; PRV Set Pressure: 150 psi Max Design Pressure: 296 psi PRV Flow Rate: 140 SCFM --------Limiting Feature_Flat End Cap , PRV ID: PRV1 _ 1 ---------------J---------------------------_ -._.-_-.----.-..-.._---- 1 Material: 316SS Outside Diameter: 4 in Internal Volume: 404 in' Overall Length: 36 in Maximum Capacity: N/A 3PC VIN:4-5 MOLSIEVE-150 1 COLOR REMEDIATION MAWP: 150 psi ; PRV Set Pressure: 150 psi Max Design Pressure: 356.6 psi Z PRV Flow Rate: 140 SCFM , 1 ----Limiting Feature: Sight Glass I ---PRV ID: PRV1 -------------------------------------1---------------- ----------------------- , Material: 316SS Outside Diameter: 6 in i Internal Volume: 315 in3 Overall Length: 12 in Maximum Capacity: N/A ; 3PC VIN:6 COLOR REMEDIATION-150 COLLECTION VESSEL MAWP: 150 psi PRV Set Pressure: 150 psi Max Design Pressure: 277.2 psi PRV Flow Rate: 140 SCFM Limiting Feature: Torispherical Dome Cap ! PRV ID: PRV1 --------------------- ---------- -------------------+------------------------------------------- Material• 316SS i Outside Diameter: 10 in Internal Volume: 2675 in Overall Length: 42 in Maximum Capacity: 44.2 lbs(70/30 BP-Mix) *ASME U-STAMPED* h� (Propane/Butane+Oil) 46 Ibs(100%Butane) I 3PC VIN:10-12 COLLECTION-SQUIRTER-150 , hi *See included ASME BPVC calculations for origin of maximum pressure ratings. Lug a= 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 24 i (3KERTz 6-8 x 48 VESSEL 6mm INNER WALL i/ SOo&VEW AND MATEMAQ VESSELS This vessel has a 6" diameter with an 8"jacket and 6mm inner wall for use with COz chilling. The following pressure vessel equations have been obtained from 2017ASME BPVC, Section VIII, Division 1. UG-27 PRESSURE RATING BASED ON SHELL THICKNESS 0:7.78 (MAIN VESSEL) 4 MATERIAL: 316 Stainless Steel J3 ' Wall Thickness, t = 0.236 in 1tJo Inside Radius, R = 2.77 in Joint Efficiency, E = 1.0 (Seamless Pipe) Max Allowable Stress, S = 20.0 ksi I I Equation UG-27(l) i P = SEt LIMITING fAC70R, I Circumferential Stress I (R+0.6t) — 1624 psi INTERNAL I I I I I UG-27 PRESSURE RATING BASED ON JACKET SHELL THICKNESS I (VESSEL JACKET) MATERIAL: 316 Stainless Steel Wall Thickness, t = 0.109 in 4 Inside Radius, R = 3.89 in Joint Efficiency, E = 0.6 (Welded) Max Allowable Stress, S = 20.0 ksi I I Equotion UG-27(1) P = SEt Circumferential Stress (R+0.6 - 330.7t psi tJ 1 ' LIMITING FACTOR, 9-5 DESIGN OF CLOSURE MEMBER OF JACKET TO VESSEL JACKET = (VESSEL JACKET) _ MATERIAL: 316 Stainless Steel { Thickness of Jacket, t J = 0.109 in Max Allowable Stress, S = 20.0 ksi Design Pressure, P = 600 psi i I Equation 9-5 I (Jacket Closures) t, =0.707 j = 0.109 in (REQUIRED JACKET THICKNESS) .109 i i i Req.Thickness of Closure t > t — j = .891 ' rc _ rj — 0.109 i n I i .109 - I �I 4. 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 25 i AERTz 6-8 x 48 VESSEL 6mm INNER WALL (CONT.) i 3 I UG-28 EXTERNAL PRESSURE RATING BASED ON SHELL THICKNESS (416.00 (MAIN VESSEL) .236 MATERIAL: 316 Stainless Steel _ Wall Thickness, t = 0.236 in Outside Diameter, Do = 6.00 in I Length of Shell, L = 46.25 in I Da/t = 25.42 I LIDO = 7.71 1 From Subsection 3 of Section II Part D, Figure G: I Factor A = 0.00175 6.25 From Subsection 3 of Section II Part D, Figure HA-2: I Factor 8= 11500 1 48 Pa = 3(D Olt) = 603.1 psi I I I CAPACITY CALCULATIONS Inside Diameter, D; = 5.53 in Length, L = 47.50 in 1 Volume, V = 1141 in3 SOLVENT VOLUME: 950.7 in3 20%HEAD SPACE: 190.1 in3 AMOUNT: 4.12 GAL ETHANOL BUTANE DENSITY: 6.58 LBS/GAL DENSITY: 4.81 LBS/GAL 1 CAPACITY: 27.1 LBS CAPACITY: 19.8 LBS I 70/30BUTAHE-PROPANE MIX PROPANE , DENSITY: 4.63 LBS/GAL DENSITY: 4.2 LBS/GAL I CAPACITY: 19.0 LBS CAPACITY: 17.3 LBS I The internal volume of these vessels is 1141 in3 (4.12 gal), therefore they should not be filled with more than 27.1 Ibs of Ethanol, 19.8 Ibs of Butane, 19 Ibs of 70/30 Butane-Propane Mix or 17.3 Ibs of Propane. y a' W �I h W i �i i 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 26 i i N,- ERTz 6''X 0.625", 3 FITTING'S., 112 O LLD_SIZE: 6"TRI-CLAMP STYLE,0.625"THICK PRESSURE RATING: 250 PSI O i TEMPERATURE RATING: -30 To 120°F ' SOLVENT COMPATIBILITY: BUTANE, PROPANEÐANOL The pressure rating for this flat lid has been verified by the j 2017 ASME Boiler and Pressure Vessel Code, Section Vlll, Division / calculations on the following pages. STANDARD ASSEMBLY COMPONENTS --- ----;-------------------------------------------------------------- ------------------------------ : SS-81---r7--------1-5V1/B---------------T � SS-660-1-6W8T 112"TUBE WELD FITTING ' 318"TUBE WELD FITTING — PRESSURE RATING: 2500 PSI PRESSURERATING: 2500 PSI i TEMP.RATING: NSA TEMP.RATING: N/A , *Sea'GENERAL COMPONENTS Section. i See GENERAL COMPONENTS section. ----------------------------------------------------------------I----------- PRESSURE RATING CALCULATIONS UG-34 PRESSURE RATING BASED ON FLAT HEAD THICKNESS MATERIAL: 316 Stainless Steel Head Thickness, t = 0.625 in 1 �� Head Diameter, d = 6.57 in Attachment Factor, C = 0.30 (Figure UG-34) o Joint Efficiency, E = 1.0 (Clamped) S Max Allowable Stress, S = 20.0 ksi _ Equation UG-34(1)flat � SE t1 d 2 _ Unstayed Cit culor Heads P C = 603.3 psi 0.5 N 0.319 UG-36 CONDITIONS FOR OPENINGS AND REINFORCEMENTS , 6.57 - Finished Opening Diameter, d 1 = 0.55 in E Finished Opening Diameter, d2 = 0.55 in Distance Between Centers, p = 1.88 in UG-36(c)(3)(d) Center i Distance for Openings I P min = 2.5(d 1 +d 2) = 2.75 in (FORMED OR FLAT HEADS) I i OPENINGS DO NOT MEET UG-36(c)(3)(d)CRITERIA. WI al 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 27 i ��i �3R; ERTZ 6"X 0.438" 3 FITTING; 1 2„ (CONT.) , UG-37 REINFORCEMENT FOR OPENINGS IN SHELLS AND FORMED HEADS I Finished Opening Diameter, d = 0.55 in _ 1.88 —• 1_88—�� _ Nozzle Thickness, t" = 0.145 in Inward Projection Distance, h = 0.00 in o Outer Weld Size, Wo = 0.125 in / Inner Weld Size, IN, = 0.00 in Correction Factor, F = 1.0 Joint Efficiency, E1 = 1.0 (Nozzle in Solid Material) 0.55 0.38� .�;6.57 Design Pressure, P = 603.3 psi I Equation UG-34(1)Flat 10 Unstayed Circular Heads t = d P/SE = 0.052 in 11 (REQ.SHELL THICKNESS) ' i Equation UG-27(1) t P(d/2) = 0.008 in i Cylindrical Shells I '" _(SE-0.6P) I (REQ.NOZZLE THICKNESS) 00 I Area Required, A = dt,F = 0.029 in 2 Area Available in Shell, A 1 = d(E1 t-Ft,) ; 0.315 inz (USES LARGEST VALUE) 2(t+t")(E1 t-Ft,) = 0.882 in t Area from Outward Nozzle A = 5 - z t( n t rnt) 0.427 in' Z (USES SMALLEST VALUE) 5(t, -t�")t" 0.099 in2 i Area from Inward Nozzle, A 3 = 5 t t" = 0.181 in2 t (USES SMALLEST VALUE) 5 tn z = 0.105 in 2 =2 h t" = 0.000 inz Area from Outward Weld, A 41 = W o� = 0.016 inz I Area from Inward Weld, A 43 = W" = 0.000 inz Area Available, AT = AI +Az +A3 +A41 +A43 = 0.997 in i ti' i OPENINGS MEET UG-37 CRITERIA. W. �I J HI W �I 4� 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 28 �3��ERTz �.._. _ 6��xo.62s�; 2 FlTTIn1GS �00 SOaVEN�'ANO MA1TC�G°30Qa VEST C�0 LID.SIZE: 6"TRI-CLAMP STYLE,0.625"THICK PRESSURE RATING: 250 PSI I TEMPERATURE RATING: -30 TO 120°F SOLVENT COMPATIBILITY: BUTANE,PROPANEÐANOL 1 1 The pressure rating for this flat lid has been verified by the 1 2017 ASME Boiler and Pressure Vessel Code, Section Vlll, Division I calculations on the following pages. STANDARD ASSEMBLY COMPONENTS 1 I --------------------------------------^-- -----------^^�«^^^^_---�—^--^^^^^«^^«« ------------------------------T i SS-600-1-6WBT T SS-6-TA-1-61W i t 1 318"TUBE WELD FITTING ; 318"TUBE ADAPTER ! PRESSURE RATING: 2500 PSI ! PRESSURE RATING: 2500 PSI 1 i TEMP.RATING: N/A TEMP.RATING: N/A 1 , i "See GENERAL COMPONENTS section. ; 'Sec GENERAL COMPONENTS section. , 1 1-------------------------------------------------------- ------- ----------------------------------------------^-«---^^^---- 1 PRESSURE RATING CALCULATIONS _ UG-34 PRESSURE RATING BASED ON FLAT HEAD THICKNESS MATERIAL: 316 Stainless Steel = Head Thickness, t = 0.625 in Head Diameter, d = 6.57 in Attachment Factor, C = 0.30 (Figure UG-34) ^I 1' Q9 ,.`, Joint Efficiency, E = 1.0 (Clamped) -20 ' Max Allowable Stress, S = 20.0 ksi 7,6.57 Equation UG-34(1)Flat I SE t d 2 P = � � = 603.3 psi 1 Onstoyed Circular Heads I C , UG-36 CONDITIONS FOR OPENINGS AND REINFORCEMENTS Finished Opening Diameter, d 1 = 0.38 in Finished Opening Diameter, dz = 0.422 in Distance Between Centers, p = 1.88 in UG-36(c)(3)(c)Center Distance for Openings ip min = (d i +d z) = 0.80 in (FORMED OR FLAT HEADS) OPENINGS MEET UG-36(c)(3)(c)CRITERIA. 1 1 V' W' h' h' 4!i ]I �1 ,1 hl yhjl 0., 3PC#: ECR-190089-RO PROPRIETARY CONTENT , Release Date: 9/13/2019 www.3pcertz.com Page 29 I NERTz PRESSURE RATING CALCULATIONS UG-34 PRESSURE RATING BASED ON FLAT HEAD THICKNESS I 1 8f3 � i MATERIAL: 316 Stainless Steel Head Thickness, t = 0.625 in Head Diameter, d = 6.57 in Attachment Factor, C = 0.30 (Figure UG-34) } Joint Efficiency, E = 1.0 (Clamped) Max Allowable Stress, S = 20.0 ksi 5 1 625 Equation UG-34(1)Flat __ SE(t/d)z Unstayed Circular Heads P = 603.3 psi I C 0 i I I UG-37 REINFORCEMENT FOR OPENINGS IN SHELLS AND FORMED HEADS ; Finished Opening Diameter, d = 0.38 in 0.38� Nozzle Thickness, t" = 0.154 in Inward Projection Distance, h = 0.00 in 1/8 Outer Weld Size, Wo = 0.125 in Inner Weld Size, W, = 0.00 in Correction Factor, F = 1.0 I Joint Efficiency, E1 = 1.0 (Nozzle in Solid Material) Design Pressure, P = 603 psi t Equation UG-34(1)Flat Unstayed Circular Heads I t r — d P/SE = 0.625 in (REQUIRED SHELL THICKNESS) i Equation UG-27(1) t _ P(d/2) = 0.006 in , Cylindrical Shells `" (SE-0.6P) ' (REQ.NOZZLE THICKNESS) i i Area Required, A = 0.5dtrF = 0.119 inZ = Area Available in Shell, A 1 = d(E1 t-Ft r J = 6E-05 inZ Area from Outward Nozzle, A 2 = 5(t" -t,)t" = 0.114 inZ Area from Inward Nozzle, A 3 = 2 h t" = 0.000 inZ Area from Outward Weld, A 41 = W o Z =0.016 inZ Area from Inward Weld, A 43 = WIZ =0.000 inZ y; W ck Area Available, AT = Al +AZ +A3 +A41 +A43 = 0.130 inZ ,' CA a� 313C#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 30 3R-- ` ..CERTz BB-JC-4-5-36-TC PRESSURE RATING CALCULA77ONS / Ul OLECUMQ x9EVES The following pressure vessel equations have been obtained from 2017ASME BPVC, Section Vlll, Division 1. UG-27 PRESSURE RATING BASED ON SHELL THICKNESS , MATERIAL: 316 Stainless Steel - 481 �— Wall Thickness, t = 0.083 in 0'3.83 Inside Radius, R = 1.92 in Joint Efficiency, E = 1.0 (Seamless Pipe) Max Allowable Stress, S = 20.0 ksi I I Equation UG-27(1) P = SEt = 844 psi Circumferential Stress (R+0.6t) I UG-27 PRESSURE RATING BASED ON JACKET SHELL THICKNESS (VESSEL SINGLE JACKET) I 34.7s MATERIAL: 316 Stainless Steel ; Wall Thickness, t = 0.083 in Inside Radius, R = 2.42 in ' Joint Efficiency, E = 1.0 (Seamless Pipe) Max Allowable Stress, S = 20.0 ksi Equation UG-27(1) ' P = SEt = Circumferential Stress I (R+0.6t) — 672.9 psi i UG-28 EXTERNAL PRESSURE RATING BASED ON SHELL THICKNESS 04.00 (MAIN VESSEL) MATERIAL: 316 Stainless Steel Wall Thickness, t = 0.083 in Outside Diameter, Do = 4.00 in I Length of Shell, L = 34.75 in Do/t = 48.19 3= ' I LID o = 8.69 From Subsection 3 of Section II Part D, Figure G: 30.0 Factor A = 0.0005 From Subsection 3 of Section II Part D, Figure HA-2: Factor B= 7000 1 4B ' PO 3(D ,It) 193.7 psi I w LIMITING FACTOR �I (EXTERNAL PRESSURE ON INNER COLUMN) al 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 31 NERTz,-- UG-34 PRESSURE RATING BASED ON FLAT HEAD THICKNESS ; \ i i MATERIAL: 316 Stainless Steel I Head Thickness, t = 0.312 in �\ Head Diameter, d = 4.68 in Attachment Factor, C = 0.30 (Figure UG-34) Joint Efficiency, E = 1.0 (Clamped) } Max Allowable Stress, S = 20.0 ksi Equation UG-34(1)Flat SE(t/d)2 i Unstayed Circular Heads j P = C = 296 psi 2.00 I UG-36 CONDITIONS FOR OPENINGS AND REINFORCEMENTS Finished Opening Diameter, d 1 = 0.38 in LIMITING FACTOR ; Finished Opening Diameter, d2 = 0.42 in (MOLECULAR SIEVE) Distance Between Centers, p = 2 in UG-36(c)(3)(d)Center Distance for Openings�p"in = 2.5(d 1 +d z) = 2.00 in (FORMED OR FLAT HEADS) i MEETS REQUIRED CRITERIA i i W �i �I al i 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 32 I I 'CERTZ BB-JT-10-34 SINGLE HANDLE PRESSURE RA 11NG CALCULATIONS COLLEC a TANK`' The following pressure vessel equations have been obtained from 2017ASME BPVC, Section Vlll, Division 1. UG-27 PRESSURE RATING BASED ON SHELL THICKNESS `/3 0 5.78, MATERIAL: 316 Stainless Steel Wall Thickness, t = 0.134 in Inside Radius, R = 4.87 in Joint Efficiency, E = 0.6 (Welded) Max Allowable Stress, S = 20.0 ksi Equation UG-27(1)I P = SEt Circumferential Stress (R+0.6t) — 325.2 psi UG-32 PRESSURE RATING BASED ON ELLIPSOIDAL HEAD THICKNESS MATERIAL: 316 Stainless Steel Wall Thickness, t = 0.134 in Inside Diameter, D = 9.73 in Joint Efficiency, E = 0.6 (Welded) -- Max Allowable Stress, S = 20.0 ksi Equation OG-32(1) _ 2SEt _ Ellipsoidal Heads P (D+0.2t) 329.6 psi i UG-36 CONDITIONS FOR OPENINGS AND REINFORCEMENTS Required Cap/Shell Thickness, t,, = 0.109 in = Finished Opening Diameter, d = 5.78 in (169,73 OPENING DOES NOT MEET UG-36(c)(3)(a) CRITERIA. --- ,5.7 8 REINFORCEMENT CALCULATIONS REQUIRED. (SEE FOLLOWING PAGE) 134 (3)Openings in vessels not subject to rapid fluctuations in pressure do not require reinforcement other than that inherent in = the construction under the following conditions: t (-a) welded, brazed, and flued connections meeting the applicable rules and with a finished opening not larger than: (-1)3 112 in. (89 mm)diameter-in vessel shells or heads with a required minimum thickness of 318 in. (10 mm)or less; � (-2)2 318 in. (60 mm)diameter-in vessel shells or heads over y� w� a required minimum thickness of 3/8 In. (10 mm)" W, -2017 ASME BPVC VI11 Division 1-UG-36(c)(3) � W, 4i 3PC#: ECR-190089-RO PROPRIETARY CONTENT ' Release Date: 9/13/2019 www.3pcertz.com Page 33 1 I I 3Px jCERTz / Wo Ll ECT90N V AA PiNa BB-JT-10-34 SINgLE HANDLE PRESSURE RATING CALCULATIONS UG-37 REINFORCEMENT FOR OPENINGS IN SHELLS AND FORMED HEADS -- — yrl9.73 Finished Opening Diameter, d = 5.78 in 05 Nozzle Thickness, t" = 0.109 in '?� 3/l6 , Inward Projection Distance, h = 0.00 in Outer Weld Size W o = 0.188in Rk.,i , 875 , Inner Weld Size, WI = 0.00 in - , , Correction Factor, F = 1.0 ' Joint Efficiency, E1 = 1.0 (Nozzle in Solid Material) Design Pressure, P = 300 psi Equation UG-32(1)I PD Ellipsoidal Heads t' (2SE-0.2P) — 0.073 in (REQUIRED SHELL THICKNESS) ' Equation UG-27(1)I _ P(d/2) _ Cylindrical Shells t r" (SE-0.6P) - 0.044 in (REQ.NOZZLE THICKNESS) i i Area Required, A = dt,F = 0.422 inZ I , , Area Available in Shell, A 1 = d(E1 t-Ft,) = 0.352 inZ Area from Outward Nozzle, A z = 5(t" -t,")t" = 0.036 inZ Area from Inward Nozzle, A 3 = 2 h t" = 0.000 inZ Area from Outward Weld, A 41 = W o 2 =0.035 in Area from Inward Weld, A 43 = WIZ =0.000 inZ Area Available, AT = Al +AZ +A3 +A41 +A43 = i i I I I I I I I I I hl W H H W= j HI W �I a, , 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 34 i i AERTz BB-11-10-34 SINGLE HANDLE PRESSURE RATING CALCULATIONS ; (VESSEL JACKET) i The following pressure vessel equations have been obtained from 2017ASME BPVC, Section Vlll, Division 1. i 0 UG-27 PRESSURE RATING BASED ON SHELL THICKNESS I i I I MATERIAL: 316 Stainless Steel Wall Thickness, t = 0.134 in Inside Radius, R = 5.87 in Joint Efficiency, E = 0.6 (Welded) Max Allowable Stress, S = 20.0 ksi I , , Equation UG-27(1)I P = SEt Circumferential Stress (R+0.6t) — 270.5 psi ; I UG-32 PRESSURE RATING BASED ON ELLIPSOIDAL HEAD THICKNESS i MATERIAL: 316 Stainless Steel = Wall Thickness, t = 0.134 in Inside Diameter, D = 11.73 in 2x 1/4 Joint Efficiency, E = 0.6 (Welded) Max Allowable Stress, S = 20.0 ksi Equation UG-32(1) _ 2SEt Ellipsoidal Heads P — 273.5 psi (D+0.2t) I I UG-36 CONDITIONS FOR OPENINGS AND REINFORCEMENTS ' , i I Required Cap/Shell Thickness, t, = 0.109 in i Finished Opening Diameter, d = 5.78 in 5.7�; _ OPENING DOES NOT MEET UG-36(c)(3)(a)CRITERIA. ) fl 3/ld REINFORCEMENT CALCULATIONS REQUIRED. (SEE FOLLOWING PAGE) rd "(3) Openings in vessels not subject to rapid fluctuations in pressure do not require reinforcement other than that inherent in the construction under the following conditions: _ (-a) welded, brazed, and flued connections meeting the applicable rules and with o finished opening not large-than: (-1)3 112 in. (89 mm)diameter-in vessel shells or heads with a required minimum thickness of 318 in. (10 mm)or less; w! a, (-2)2 318 in. (60 mm) diameter-in vessel shells or heads over a required minimum thickness of 318 in. (10 mm)" -2017 ASME BPVC VIII Division 1 -UG-36(c)(3) 4.11 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 35 i i (jKERTZ-- BB-IT 10-34 SINGLE HANDLE PRESSURE RATING CALCULATIONS (VESSEL JACKET) ; UG-37 REINFORCEMENT FOR OPENINGS IN SHELLS AND FORMED HEADS Finished Opening Diameter, d = 5.78 in I Nozzle Thickness, t„ = 0.109 in 3/16 Inward Projection Distance, h = 0.00 in ; Outer Weld Size, Wo = 0.188 in T R 10.70— Inner Weld Size, W I = 0.00 in Correction Factor, F = 1.0 ; Joint Efficiency, E1 = 1.0 (Nozzle in Solid Material) Design Pressure, P = 248 psi Equation UG-32(1) '; t _ PD = 0.073 in I Ellipsoidal Heads+ ` (2SE-0.2P) (REQUIRED SHELL THICKNESS) f.puatio»UG-?.7(.I j P(d/2) = 0.036 in ; Cylindrical Shells t'n -(SE-0.6P) ; (REQ.NOZZLE THICKNESS) ; Area Required, A = dt,F =0.421 inZ Area Available in Shell, A, = d(E1 t-Ft,.) = 0.354 inZ 0 lo.o» p} 3116 ; Area from Outward Nozzle, A 2 = S(t„ -t „)t„ = 0.036 in Z Area from Inward Nozzle, A 3 = 2 h t„ = 0.000 in I Area from Outward Weld, A 41 = W o Z =0.035 in Area from Inward Weld A 43 = W I z =0.000 inZ Area Available, A = Al +AZ +A3 +A41 +A43 = 0.425 inZ I UG-28 EXTERNAL PRESSURE RATING BASED ON SHELL THICKNESS (MAIN VESSEL) MATERIAL: 316 Stainless Steel 1' Wall Thickness, t = 0.134 in Outside Diameter, D,, = 10.00 in Length of Shell, L = 34.56 in I D o/t = 74.63 LID o = 3.46 From Subsection 3 of Section II Part D, Figure G: Factor A= 0.000575 From Subsection 3 of Section II Part D, Figure HA-2: W Factor B= 7750 LIMIT ING FACTVH P _ 48 = 138.5 psi �� (EXTERNAL PRESSURE ON INNER COLUMN) 3(D o/t) 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 36 I frp{5/ ERTz - 6°°x ®.625', 5 FITTIIVG.S, /2" %,y COMECY909 Ya S ! U 0 ! LID SIZE: 6"TRI-CLAMP STYLE,0.625"THICK PRESSURE RATING: 250 PSI r TEMPERATURE RATING: -30 To 120°F r SOLVENT COMPATIBILITY: BUTANE,PROPANEÐANOL !, The pressure rating for this flat lid has been verified by the 2017 ASME Boiler and Pressure Vessel Code, Section Vlll, S Division 1 calculations on the following pages. \ _ ! ! STANDARD ASSEMBLY COMPONENTS r -------------------------------------------------------------- ---------------; ! SS-810-1-6WBT SS-600-1-6WBT _ 112"TUBE WELD FITTING 318"TUBE WELD FITTING 1 = PRESSURE RATING: 2500 PSI p PRESSURE RATING: 2500 PSI j TEMP.RATING: N/A TEMP.RATING: N/A i r �- ---------------See GENERAL COMPONENTS section. i -_See GENERAL COMPONENTS section.---! S - ----------- ----- --------------------------- ! ! PRESSURE RATING CALCULATIONS UG-34 PRESSURE RATING BASED ON FLAT HEAD THICKNESS = MATERIAL: 316 Stainless Steel , Head Thickness, t = 0.625 in of ! ! Head Diameter, d = 6.57 in Attachment Factor, C = 0.30 (Figure UG-34) Joint Efficiency, E = 1.0 (Clamped) Max Allowable Stress, S = 20.0 ksi 0-55 Equation UG 34(1J Flat SE_ t d 2 ii'57 Equation ' ed Ch cular Heads P — (/ ) = 603.3 psi Unstu Y C r UG-36 CONDITIONS FOR OPENINGS AND REINFORCEMENTS ! ! Finished Opening Diameter, ds = 0.55 in Finished Opening Diameter, dz = 0.55 in Distance Between Centers, p = 1.88 in UG-36(c)(3)(d)Center Distance for Openings Amin = 2.5(dl +dz) = 2.75in (FORMED OR FLAT HEADS) OPENINGS DO NOT MEET UG-36(c)(3)(d) CRITERIA. W Wj �E 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 37 0" ERTZ - 6"X 10.62.5', .5 FITTINGS, 112" (CONT.) �0011E TRDuV WANKS i UG-37 REINFORCEMENT FOR OPENINGS IN SHELLS AND FORMED HEADS , 1.88 Finished Opening Diameter, d = 0.55 in Nozzle Thickness, t" = 0.145 in Inward Projection Distance, h = 0.00 in 0 o � ' I Outer Weld Size, Wo = 0.125 in Inner Weld Size, Wf = 0.00 in 77/7, ' Correction Factor, F = 1.0 00.55 ' Joint Efficiency, E1 = 1.0 (Nozzle in Solid Material) 6.57 i Design Pressure, P = 603.3 psi Equation UG-34(1)Flat t Unstoyed Circular Heads I r = d P/SE = 0.052 in (REQ.SHELL THfCKNESSJ Equation UG-27(1) = P(d/2)t = 0.008 in Cylindrical Shells I '" (SE- 0.6P) I (REQ.NOZZLETHlCKNESS) I Area Required, A = dtrF = 0.029 inZ Area Available in Shell, A 1 = d(E1 t-Ftr) ; 0.315 in (USES LARGEST VALUE) 2(t+t")(E1 t-Ftr) = 0.882 inZ ; i Area from Outward Nozzle, A 1 = 5(t, -t,,)t 0.427 inZ (USES SMALLEST VALUE) 5(t" -tr")t" 0.099 inZ I Area from Inward Nozzle, A 3 = 5 t t" = 0.181 in (USES SMALLEST VALUE) 5 t"Z = 0.105 in z ) 2 h t, = 0.000 inz ) Area from Outward Weld, A 41 = W o' = 0.016 inZ Area from Inward Weld, A 43 = W i` = 0.000 in Area Available, AT = Al +Az +A3 +A41 +A43 = 0.997 in OPENINGS MEET UG-37 CRITERIA. W� J a, i 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 38 .y V "i (,!', 6ERTz - PRESSURE RATING CALCULATIONS �r UG-32 PRESSURE RATING BASED ON TORISPHERICAL HEAD THICKNESS MATERIAL: 316 Stainless Steel Wall Thickness, t = 0.109 in Inside Spherical Radius, L = 5.32 in Joint Efficiency, E = 0.6 (Welded) ; Max Allowable Stress, S = 20.0 ksi - Equation UG-32(2) SEt Toris herical Heads P = 277.2 psi I p (0.885L+0.1 t) I _ ' LIMITING FACTOR - (COLLECTION TANK) I R5.32 UG-27 PRESSURE RATING BASED ON SHELL THICKNESS I I MATERIAL: Borosilicate Glass Wall Thickness, t = 0.378 in Inside Radius, R = 2.95 in Joint Efficiency, E = 1.0 (Seamless Pipe) Max Allowable Stress, S = 3.0 ksi Equation UG-27(1) _ SEt Circumferential Stress P (R+0.6t) 356.6 psi I NOTE:Do not exceed 150 psi per manufacturer's specifications. I I ae.aai i.00 I LIMITING FACTOR I (COLOR REMEDIATION COLUMN) i i 3 � 1 �i �i �l i 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 39 i 3R; f�ERTz GOWN GEME09,0J�DOnM COLUMN PRESSURE RATING CALCULATIONS 1 I UG-27 PRESSURE RATING BASED ON SHELL THICKNESS I MATERIAL: 316 Stainless Steel Wall Thickness, t = 0.109 in Inside Radius, R = 2.89 in Joint Efficiency, E = 1.0 (Seamless Pipe) Max Allowable Stress, S = 20.0 ksi Equation UG-27(1) SEt P = = 737.6 psi Circumferential Stress'i (R+0.6t) I f f CAPACITY CALCULATIONS Inside Diameter, D; = 5.78 in Length, L = 12.00 in Volume, V = 315 in SOLVENT VOLUME: 262.4 in 20%HEAD SPACE: 52.48 in AMOUNT: 1.14 GAL ETHANOL BUTANE DENSITY: 6.58 LBS/GAL DENSITY: 4.81 LBS/GAL CAPACITY: 7.5 LBS CAPACITY: 5.5 LBS 70130 BUTANE-PROPANE MIX PROPANE DENSITY: 4.63 LBS/GAL DENSITY: 4.2 LBS/GAL CAPACITY: 5.3 LBS CAPACITY: 4.8 LBS The internal volume of these vessels is 315 in3 (1.14 gal),therefore they should not be filled with more than y! 7.5 Ibs of Ethanol, 5.5 Ibs of Butane, 5.3 Ibs of 70/30 Butane-Propane Mix or 4.8 Ibs of Propane. ;; W i hi QI i 313C#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 40 I I I CERTz - - GENERAL COMPONENTS The product reviewed in this report uses the following components. The specifications of each component have been reviewed and determined to meet the material compatibility, pressure, and temperature requirements associated with the normal operation of this product. Components not shown on this list have NOT been approved for use on this product. See Appendix A for the manufacturer specification sheets associated with these components. CATEGORY PRODUCT MATERIALS RATINGS v I Manufacturer: Generant Set Pressure: 150/100 psi ai v > PRV1 Part#: CRV6T-6T-150 316 SS-Body Flow Rate: 140/97 SUM a PRV2 (CO2) CRV6T-6T-100 Max Temp: 165 'F 3/8" NPT Min Temp: -320 °F = - - 1 Its t C Supplier: Schott Duran Pyrex Borosilicate Glass Max Pressure: 150 psi Part#: BB-SG-6-TC-RI 304 SS-Body Max Temp: 932 °F 6"Glass Tube A Temp Failure: 329 °F I � I Supplier: Metaglas Borosilicate Glass Max Pressure: 1450 psi Part#: METACLAMP 1-5/8" 304 SS-Body Max Temp: 536 °F 1-5/8"Sightglass Window Min Temp: -22 °F 3 W Supplier: Swagelok Stainless Steel Housing Max Pressure: 200 psi I aPart#: PGI-63C-NC200-LBGX-9276 Un-Filled Max Temp: 140 °F Description: -30-200 psi Min Temp: -40 °F 1/4"NPT Bottom Mount I Manufacturer: Swagelok 316 SS-Housing Max Pressure: 2500 psi to i Part#: SS-43GXS6 PTFE-Seals Max Temp: 300 °F .fC 3/8"3-Way Ball Valve Min Temp: -65 °F I Q) Manufacturer: Swagelok 316 SS-Housing Max Pressure: 500 psi > Part#: SS-45GXS8 PTFE-Seals Max Temp: 3007 m 1/2" 3-Way Ball Valve Min Temp: -65 °F Manufacturer: Swagelok 316 SS-Housing Max Pressure: 2500 psi ; i Part#: SS-43GS6 PTFE-Seals Max Temp: 3007 a; I U 3/8" 2-Way Ball Valve Min Temp: -65 °F ' zl WI 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 41 3 %ERTZ CATEGORY PRODUCT MATERIALS RATINGS _ Manufacturer: Swagelok 316 SS-Housing Max Pressure: 2500 psi > Part#: SS-45GS8 PTFE-Seals Max Temp: 300 °F m �� ~ ►`= � 1/2"2-Way Ball Valve Min Temp: -65 'F _ _ ` Supplier: Swagelok 316 SS-Housing Max Pressure: 1000 psi Part#: SS-6P6T PTFE Coated FKM-Seals Max Temp: 400 °F _ Description: 3/8"Plug Valve Min Temp: -10 °F , _ v = _ Supplier: Swagelok 316 SS-Housing Max Pressure: 3875 psi v Part#: SS-1VS6 PTFE-Seals Max Temp: 300 'F Description: 3/8"Needle Valve Min Temp: -65 °F Manufacturer: Swagelok 316 SS Max Pressure: 1500 psi Part#: SS-QC6-B-600 Ethylene Propylene Max Temp: 400 °F = c = 0 3/8"Quick Disconnect Body Min Temp: -50 °F ' i 0 ' U ' Manufacturer: Swagelok 316 SS Max Pressure: 750 psi Part#: SS-QC8-B-810 Ethylene Propylene Max Temp: 400 °F = _ 1/2"Quick Disconnect Body Min Temp: -50 °F = _ Manufacturer: Swagelok 316 SS-Housing Max Pressure: psi Part#: SS-600-4 Cross,3/8"Tube low 1 Manufacturer: Swagelok 316 SS-Housing Max Pressure: 2600 psi Part#: SS-810-4 •� _ Cross, 1/2"Tube Manufacturer: Swagelok 316 SS-Housing Max Pressure: 3300 psi ii Part#: SS-600-3 = Tee,3/8"Tube (- I Manufacturer: Swagelok 316 SS-Housing Max Pressure: 2600 psi Part#: SS-810-3 Tee' 1/2"Tube wl i Manufacturer: Swagelok 316 SS-Housing Max Pressure: 2600 psi o; Part#: SS-810-9 Wi I Elbow, 1/2"Tube _ 3PC#: ECR-190089-RO PROPRIETARY CONTENT ' Release Date: 9/13/2019 www.3pcertz.com Page 42 6ERTz CATEGORY PRODUCT I MATERIALS RATINGS ; ;! I Manufacturer: Swagelok 316 SS-Housing Max Pressure: 3300 psi Part#: SS-600-9 I Elbow, 3/8"Tube ; I I Manufacturer: Swagelok 316 SS-Housing Max Pressure: 3300 psi Part#: SS-600-2R-6 90'Elbow Adapter,3/8" � I Manufacturer: Swagelok 316 SS-Housing Max Pressure: 2600 psi Part#: SS-810-2R-8 90'Elbow Adapter, 1/2" Manufacturer: Swagelok Part#: SS-600-1-6WBT 316 SS-Housing Max Pressure: 3300 psi i Weld Fitting,3/8"Tube Manufacturer: Swagelok Part#: SS-810-1-6WBT 316 SS-Housing Max Pressure: 2600 psi Weld Fitting, 1/2"Tube Manufacturer: Swagelok I 4:4 Part#: SS-6-TA-1-6W 316 SS-Housing Max Pressure: 2500 psi 3/8"Tube Adapter LL _ Manufacturer: Swagelok Part#: BB-T-12-10-03 316 SS-Housing Max Pressure: 2500 psi , 3/8"Tube Adapter Manufacturer: Swagelok Part#: SS-601-PC 316 SS-Housing Max Pressure: 2500 psi = 3/8"Tube Port Connector Manufacturer: Swagelok ., Part#: SS-811-PC 316 SS-Housing Max Pressure: 2500 psi 1/2"Tube Port Connector Manufacturer: Swagelok �j Part#: SS-600-6 316 SS-Housing Max Pressure: 2500 psi 3/8"Tube Union i Manufacturer: Swagelok Part#: SS-810-6 316 SS-Housing Max Pressure: 2500 psi 3/8 Tube Union Manufacturer: Swagelok Part#: SS-600-P 316 SS-Housing Max Pressure: 2500 psi 3/8"Tube Plug zi zl Manufacturer: Swagelok o; Part#: SS-810-P 316 SS-Housing Max Pressure: 2500 psi o; �- 1/2"Tube Plug �0 �I W z W; 3PC#: ECR-190089-RO PROPRIETARY CONTENT ' Release Date: 9/13/2019 www.3pcertz.com Page 43 i 3� iERTz_ CATEGORY PRODUCT MATERIALS RATINGS Manufacturer: Swagelok Silicone covered PTFE Max Pressure: 75 psi Part#: W-Series 316 SS End Connections Max Temp: 400 F Size: 1/2 in PTFE Core Min Temp: -65 'F 1 i K Manufacturer: Swagelok Silicone Covered PTFE Max Pressure: psi Part#: W-Series 316 SS End Connections Max Temp: 400 °F = Size: 3/8 in PTFE Core Min Temp: -65 °F t I Manufacturer: Swagelok Silicone Covered PTFE Max Pressure: 500 psi = Part#: W-Series 316 SS End Connections Max Temp: 400 °F Size: 3/4 in PTFE Core Min Temp: -65 °F Supplier: Zhejiang Kingstone 304 SS Max Pressure: 290 psi a Part#: KSTHP6 Max Temp: 392 °F E 6"Tri Clamp y I L ~ Supplier: Zhejiang Kingstone 304 SS Max Pressure: 493 psi Part#: KSTHP4 Max Temp: 3927 4"Tri Clamp I Supplier: Rubber Fab Max Temp: 400 °F I ' y Part#: 40MPSFY-600 Viton Min Temp: -30 `F ai ' V, 6"Tri-Clamp Gasket 0 �o C - - E u Supplier: Rubber Fab Max Temp: 400 °F I ~ 0 Part#: 40MPSFY-400 Viton Min Temp: -30 'F 4"Tri-Clamp Gasket Supplier: Rubber Fab Max Temp: 400 F Description: 6" PTFE-Coated EPDM Min Temp: -30 'F ; Part#: A40MPGR-600-E Tri-Clamp Envelope Gaskets v ? > i Supplier: Rubber Fab Max Temp: 400 °F o; `" Description: 4" PTFE-Coated EPDM Min Temp: -30 'F o; Part#: A40MPGR-400-E Q� Tri-Clamp Envelope Gaskets z 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 44 I C<3P--"' 77.b E R TZ - - - I CATEGORY PRODUCT MATERIALS + RATINGS ; E o°1n Max Vacuum: 13.8 psi = Manufacturer: PIAB PA,Al,SS, NBR(FKM), Max Temp: 176 °F = u Part#: piCLASSIC Xi X2 CuZn Min Temp: 14 °F ; TRI-CLAMP TOROUFSFT, Tri-Clamp fasteners shall be torqued to a maximum of 30 to 40 in-lbs per manufacturer specifications. Fasteners must be torqued using a preset torque tool prior to each use of the equipment to prevent over torquing the clamp fasteners. A preset torque tool similar to the one shown below may be used with this extraction system. 1 See maintenance requirements for 13 TORQUETOOL MHP tri-clamps in the GENERAL MAINTENANCE section of this report. I -------- FIGURE 9.1 - Preset Torque Tool-------- TIGHTFNINC, TUHF FI TTIIVGS This extraction system is not intended to be dismantled and re-assembled after the initial installation performed by Bizzybee, however in the event that tube fittings do need to be removed, reinstalled or tightened,the appropriate go-no-go gauge shall be used to insure the fittings are sufficiently tightened. A Swagelok MS-IG-468 gauge is used by Bizzybee to correctly tighten the tube fittings during the assembly and installation of the equipment. See below for an example of this gauge and the Swagelok usage instructions. I Position the Swagelok gap inspection gauge next to the gap between the nut and body. i i i i i eta IN c i F.b o' eA4.. i A i ! v it the gauge will not enter the gap,the If the gauge will enter the gap, Z i fitting is sufficiently tightened. additional tightening is required. ai i ® Always depressurize a system before adjusting the OI tightness of a tube fitting connection. vl ¢I -------- FIGURE 9.2 -Tube Fitting Gauge-------- -------- FIGURE 9.3 -Swagelok Gauge Usage Instructions- - z" �I I 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 45 /l 3R ...CERTz - ELECTRICAL COMPONENTS The electrical components/equipment used in this extraction system have been reviewed for compliance with the NFPA 70,Article 500.7 Protection Techniques for a Class 1, Division 1 location, as listed below. Each electrical component or piece of equipment has been categorized as either meeting the requirements of a hazardous environment, or as not being authorized to be used within the classified zone around the extraction equipment. See the FACILITY/INSTALLATION REQUIREMENTS section of this report for the extents of the classified zone. Manufacturer specification sheets for each component are provided in Appendix B. --------------------------------- ------ ---------------... ----------------____----------__ ---_ Acceptable NFPA 70, Article 500.7 Protection Techniques for Class 1, Div 1 & 2 locations: Explosionproof Equipment -able to withstand any explosion originating within its housing and prevent ignition of ors. (Class 1, Division 1 ot-2) outside vapors. =Purged and Pressurized -filled with a protective gas and pressurized to prevent entrance of a flammable gas 4(Class 1, Division 1 or 2) or vapor. 'Intrinsically Safe -UL Listed as Instrinsically Safe-contains circuits in which any spark or thermal 1(Class 1, Division 1 oi-2) effects are incapable of igniting a flammable gas or vapor. INonineendive Equipment -contains electronic circuitry that is incapable, under normal operating conditions, of (Class 1, Division 2 Only) causing ignition of specified gas or vapor due to arcing or thermal means. ;Hermetically Sealed -sealed against entrance of external atmosphere where seal is made by fusion,such 1(Class 1, Division 2 Only) as solder, brazing, or welding. �.------------------------ -------------- ----------- i 1-------------- -------------------------------- *See NFPA 70,Article 500.7(A)- (J)for complete list of acceptable protection techniques. 1 The following electrical components used in this extraction system have been found to meet the requirements of NPFA 70, Article 500.7 for operation in a hazardous environment: CATEGORY PRODUCT INFO-ELECTRICAL RATINGS-TEMPERATURE REQUIREMENTS ; ceaonty vital Pressure Gauge Ambient Temperature Ranee Manufacturer: CeComp -40` to 150" F 1 v ' Model#: DPG2006 1 cu Electrical Requirements Approvals/Certifications ; ro Voltage: 3 V Explosion-proof for use in Class I, °p Batteries: 2 AAA o Division 1 or 2 Locations. FM Approved. ; 1.5V Each Quick Disconnect Thermocouples Notes Manufacturer: Omega 304 SS Sheath a Model: KMQSS-12SU-X Simple Contact-Intrinsically Safe _ E Electrical Requirements Temperature Specs Z� *Requires Temp: 425 ° F ; Requires displays that are C1D1 0� or C1D2 rated Length: 6" and 12" ; vi *The above ditigal pressure gauge is an optional component approved for use in this system, but may not be included wp with the extraction unit. W` 3PC#: ECR-190089-RO PROPRIETARY CONTENT , Release Date: 9/13/2019 www.3pcertz.com Page 46 i 3R� EUz The following electrical components used in this extraction system have NOT been found to meet the requirements of NPFA 70, Article 500.7(A)- (J)for operation in a hazardous environment and therefore shall not be operated within the classified zone around the extraction equipment. I I I CATEGORY PRODUCT INFO-ELECTRICAL RATINGS-TEMPERATURE REQUIREMENTS Recirculating Heater Operating Temperature Range - Manufacturer: AEC 32' F to 250° F v Model#: TC130 no i Electrical Requirements Specs Voltage: 208-575 Max Pump Pres.: 55 psig j Hz: 50/60 Flow Rate: 120 gal/min I Pump Rating: 10 hp { i Thermocouple Datalogger KTemperature Range Manufacturer: AZ-Instruments -328' F to 2498'F 1 ' 1296 Model#:88598 Q Electrical Requirements Notes Voltage: 9 V Should be located at EBatteries: 4x AA least 5 ft away from Extraction Unit. I ~ ' i { I I All electrical equipment, plugs, and outlets not rated for a Class 1, Division 1 environment must be located I outside of the classified zone. See NFPA 70,Article 500 for a full review of the electrical equipment and facility requirements for a hazardous environment. An approved Gas Detection system meeting the requirements of NFPA 70, Article 500.7(K) and IFC 2018, 3905.1 must be installed in the extraction control area. I I I I I The type of detection equipment, its listing, installation location(s), alarm and shutdown criteria, and calibration (frequency shall be documented when combustible gas detectors are used as a protection technique." _ 2017 NFPA 70,Article 500.7(K) I w S 0 f�l �I �I WI 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 47 I .l c 6ERTz- _ STAND/MOUNT ANALYSIS The stand for this extraction system has been analyzed for structural rigidity as well as stability under horizontally applied seismic loads. See the following calculations pertaining to the analyses performed. 1 APPLIED LOADING- LARGE LIVE HEXAPOD RACK ; 1 1 0 ;ITEM WEIGHT IQTY TOTAL WEIGHT; — I 1 jSolvent Vessel 92 Ibs 2 184 Ibs Molecular Sieve 33 Ibs 1 33 Ibs I I I 1 ;Collection Vessel 177 Ibs 1 177 Ibs Material Vessel 96 Ibs 2 192 Ibs I 1 1 Frame 70 Ibs 1 70 Ibs 1 1 TOTAL DRY WEIGHT: 656 Ibs � 1 Solvent(LP-gas) 19 Ibs 2 38 Ibs 1 ;Solvent(LP-gas) 46 Ibs 1 46 Ibs j Material (Trim) 10 Ibs 2 20 Ibs I � I ----TOTAL LOADED WEIGHT: 760 Ibs - '....._.._._.__-..._._-------- - --"-------------------------- ! 1 ---------- TABLE 11.1 -Applied Loading Table---------- CG LOCATION- LARGE LIVE HEXAPOD RACK - 1 i 1 I 1 1 _ 1 1 t •l 1 t , 1 1 I I y A , I , t I — 1 L 1 f 1 1 t 1 1706261n � �1= A0A)S)in 1AO1901n St1An ®,_.i n:liln �1 N1IS)n � �1 �1 ¢1 �1 --------- FIGURE 11.2 -Approximate CG Location ---------- 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 48 i l� ./ ��r.LJOiI �/����I!JJOiI (I llllL/z1fJ1��IL_r—, i G o i HEX RACK The maximum load case scenarios for this extraction system have been analyzed for structural rigidity. ;y TUBE FRAME EXTRUDED 316SS, 2.0"x 2.0"PROFILE y , V1 rF FRAME BOLTS McMASTER CARR: f 9219BA370 rF I CASTER WHEELS I CASTER SOLUTIONS.- 31 TP40J+##17YY I ---------- FIGURE 11.7 -Hex Rack, Front ISO---------- This frame has been analyzed with equally distributed loads on each side. The following calculations show the frame will maintain a Factor of Safety of 3.0 under a max load of 3,450 lbs. of sl o. z �I 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 49 i 3�f .CERTZ CASE A - HEX RACK, MAX LOAD, STRESS ANALYSIS I For a Factor of Safety of 3.0,the maximum distributed load is 3,450 Ibs. / 1 1 I I 1 von Mi—(PA) ; - 1 CONCERN A-1 9,285,7 PIN SHEARING -- 8,571.5 ; 7,057.2 1 1 1 7,142.9 6,428.7 i I 5,714.4 1 , 5,000.2 1 1 4,205.9 � i 3,571.E I i 2,857.4 , 1 2,143.1 1 I 1,420.8 I 714.E I I 0.3 1 1 --+VieId strength:29,994.8 1 , I I 1 ! 1 I I 1 1 I 1 1 1 1 I 1 1 1 CONCERN A-2 I j ----------FIGURE 11.8 Stress Simulation, Full Load, Front ISO ---------- ; BEAM BENDING I _ _ 1 - 1 1 . 1_ 1 I 1 I 1 1 - - I - 1 1_ I 1 1 1 , , 1 Value:9,151.0 psi � 1 , 1 1 1 1 1 1 1 1 1 1 1 1 ----------FIGURE 11.9 -Stress Simulation, Full Load, Lower Detail ---------- "; z� Q; The frame has been analyzed for the worst-case load scenario. At a distributed load of 3,450 Ibs,the highest stress found in the frame is about 9,999 psi, and the highest shear stress found in the bolts is about 10,802 ; of psi. q; 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 50 i i �� .3R; ERTz CASE A - HEX RACK, MAX LOAD, CALCULATION S CONCERN A-1 ! MATERIAL: 18-8 STAINLESS STEEL BOLT ' MATERIAL YIELD STRENGTH,S v = 65,000 psi 7r(0.404)2 Z f BOLT CROSS-SECTION,A= 4 = 0.128 in f MAX SHEAR LOAD ON BOLT,V= 1,037 Ibs 4V _ 4(1037) _ MAX SHEAR STRESS,r= 3A 3(0.128) — 10,802 psi S 1 ; S FACTOR OF SAFETY, FS = S y = 65,000 r 10,802 S 1 1 1 1 1 CONCERN A-2 i 1 MATERIAL: 316 STAINLESS STEEL TUBE,2.0"x 2.0" MATERIAL YIELD STRENGTH,S y = 29,995 psi S 1 ; MAX APPLIED STRESS, CIA = 9,999 psi ; 1 FACTOR OF SAFETY, FS = S y = 29,995 ; v A 9,999 1 1 1 1 1 1 1 1 1 1 1 J' Q' �1 QI �1 1 j! O' Z! ; 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 51 (jKERTz CASE B - HEX RACK, MAX BENDING MOMENT, STRESS ANALYSIS I For a Factor of Safety of 3.0,the maximum bending moment is 9,000 in-Ibs. CONCERN B-1 !I PIN SHEARING von Mises(psi) ' I 10,000.0 f I 9,285.7 , s 8,571"4 , _ 7,ss7"2 / 7,142"9 6,428.6 tS 5,714.3 { 5,000"0 4,285"7 , 3,571.5 i 2,857.2 i 2,142.9 i 1,428.6 i 714"3 ' 0"0 -J>Yield strength:29,994.8 CONCERN B-2 F EAM BENDING ----------FIGURE 11.10 -Stress Simulation, Max Bending, Front ISO ---------- The frame has been analyzed for the worst-case bending moment scenario. Under an asymmetric load of 1,125 Ibs,the highest stress found in the frame is about 9,695 psi, and the highest shear stress found in the bolts is about 6,688 psi. o z� QI 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 52 i 3g ��.6ERTz CASE B - HEX, MAX BENDING MOMENT, CALCULATION i 1 i I i CONCERN B-1 i MATERIAL: 18-8 STAINLESS STEEL BOLT i MATERIAL YIELD STRENGTH,S y = MIN. 20,000 psi(TYP. 65,000 psi) i 3OLT CROSS-SECTIONAL AREA, A= 7i(0.404)Z ' 4 = 0.128 inz MAX SHEAR LOAD ON BOLT, V= 642 Ibs i MAX SHEAR STRESS,t= 3A 3(06128) — 6,688 psi 's 1 S y 20,000 FACTOR OF SAFETY, FS = — _ r 6,688 s� 0 CONCERN B-2 1 1 1 i S MATERIAL: 316 STAINLESS STEEL TUBE, 2.0"x 2.0" S_ i MATERIAL YIELD STRENGTH,S y = 29,995 psi MAX APPLIED STRESS, QA = 9,695 psi i 1 1 i S y 29,995 FACTOR OF SAFETY, FS = — _ _ CA 9,695 ; 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 >1 1 �1 �1 til �1 QI 1 �1 Q� 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 53 :fCERTz ri STABILITY ANALYSIS- LARGE LIVE HEXAPOD RACK , In order for tipping to begin, it is assumed that Fcs = W. The following calculations are used to determine the side load (V) required to begin the tip, and the minimum design spectral response acceleration parameter(S DS) for the system. This calculation neglects the reaction forces of the anchor bolts. For install locations where the anchor bolts are required, the anchor reaction forces will be calculated based on the maximum SIDS value for that location. Max Weight, W = 760 Ibs Frame Length, L = 40.0 in Q Frame Depth, D = 36.0 in CGL Reference, L cc = 17.1 in � 1 CGD Reference, D ce = 12.1 in _ CGH Reference, H cG = 48.9 in IMo =0 ; D x FC1 =(D-DCG)W+HCG x V Assume Fcl = W I, I Force Req.to Begin Tip, V = 188.2 Ibs t\ V V= CS W (ASCE/SEI 7-10, EQ. 12.8-1) I 1 1 CS - SOS (ASCE/SEI 7 10, EQ. 11.8 2) ) (R/1 e) W Response Modification Factor, R = 1 ' (Assumes no strength reduction necessai v for this frame) 4' Importance Factor, 1e = 1.00 1 I (Risk Category II from ASCE/SEI 7-10,Table 1 5-2) 17A6261n I ; 48.8753in i Design Spectral Response, S DS = (D cG x !e) = 0.248 ' (H Ce x R) 53,1646in !!i 12.1054in The design spectral response acceleration parameter(SDS) is � relatively low for this support system. Additional mounting requirements may be necessary depending on the install t F� location. Any additional mounting requirements will be specified on the Certificate of Conformance for individual ; units, once the install location has been identified. h� ---------- FIGURE 11.7 -Tipping Diagram---------- 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 54 i 3R�-'" 7ERTz GENERAL MAINTENANCE As with any mechanical equipment,this extraction system requires thorough and consistent maintenance in order to ensure the continued safety and integrity of the equipment during operation. In addition to any specific maintenance schedules and items provided by manufacturers of products used in this system,the I following general maintenance tasks should be performed at least once every 6 months. 1) INSPECT PRESSURE VESSELS Visually inspect pressure vessel welds for any signs of cracking or failure. Open vessels and inspect the inside to ensure no warping or _ I permanent deformation has occurred. 2) INSPECT PRESSURE RELIEF VALVES I It is not necessary to perform a blow off test on each pressure relief ! E valve used on the system to ensure proper function. If the PRV ever fails to blow off at the labeled set pressure during an abnormal event, it should be replaced.The CO2 PRVs should be replaced similarly.Sometimes the PRVs,especially when using COD can freeze open. In such an event,stop the introduction of CO2 into the system. I 3) INSPECT/REPLACE TRI-CLAMPS Tri-clamps are prone to failure over time with repeated use. It is extremely important that the nuts and bolts are not over torqued 4 (see maximum torque values and recommended torque tool in the GENERAL COMPONENTS section of this report)and that the bolt and nut threads are frequently inspected for signs of wear or stripping. ; Tri-clamp nuts and bolts should be replaced at least every 6 months regardless of visible condition to ensure the continued integrity of t— the clamp. 4) INSPECT TRI-CLAMP GASKETS Inspect all tri-clamp gaskets and replace if there are any signs of cracking,tearing,splitting,or permanent deformation anywhere on the gasket. Gaskets must be able to maintain a tight seal to avoid i leaking under pressure. i 5) INSPECT HOSES AND FITTINGS it { Inspect all hoses and fittings and replace any that have cracks, w� abrasions,or any other indications of excessive wear. Ensure all hose ends and fittings are properly tightened and are in good ~ � condition. Z 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 55 (J�' ERTz- LEGAL DISCLAIMER ; 1 ; This engineering report certifies the Bizzybee, LLC Large Live Hexapod extraction system on a design basis only. Manufacturing quality and enforcement of correct user operation are not covered by this certification. It is the responsibility of the component, equipment, and vessel manufacturers to implement and maintain their own manufacturing quality control procedures. Customers who purchase this equipment for use shall ensure they receive the proper operational training from Bizzybee, LLC and it is the product owner's responsibility to train and educate any persons involved in the operation of the equipment. Only the components and equipment listed within this report have been approved for use with this system. Any component or equipment changed or replaced with that of a different product number or from another product manufacturer, without the approval of 3P Certz,will nullify this certification. For inclusion of additional or alternate components or equipment,the new product specifications must be submitted to 3P Certz for review. If approved, 3P Certz will revise this certification report to include the new component or equipment and release a new report with an updated revision number. See the GENERAL COMPONENTS and ELECTRICAL COMPONENTS sections of this report for a complete list of the components and equipment currently approved for use with this extraction system. 3P Certz will not be held liable for equipment failures or incidents that occur as a result of components or equipment that have not been approved within this report and/or operator error or negligence resulting from failure to adhere to the operational and safety guidelines provided in this report. Product and equipment manufacturers will be held liable for failures or incidents resulting from manufacturer defects or due to errant product specifications provided by the manufacturer for components which have been approved in this report.This extraction equipment shall only be installed and operated in a properly designed control area that has been approved by the Authority Having Jurisdiction (AHJ). See the FACILITY/INSTALLATION REQUIREMENTS section of this report for an overview of the minimum control area and facility requirements. This certification report is only applicable to manufactured units that have been issued a 3P Certz serial ; number, which has been logged and recorded by 3P Certz. Serial numbers are specific to product owners and the sale or transfer of extraction units requires a new 3P Certz serial number be issued to the new product owner. 3P Certz does not take any responsibility for manufactured units without a valid 3P Certz serial number physically attached,which corresponds to a 3P Certz certificate of conformance document. Additionally, certificates of conformance are state specific. Manufactured units that have been issued a certificate of conformance and a serial number shall not be sold or transfered to any other state besides the one for which it has been PE stamped and approved. ; 1 ; ; ; 1 W� ; H� 1 VI �1 1 41; VI 1 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 56 N--, ERTz REFERENCES NATIONAL CODES ------------- - - - - - ------------ ___---------------- ------� `\ International Code Council. 2018 International Fire Code. Ma International Code Council. 2018 International Building Code. I INTERNATIONAL CODE COUNCIL`- International Code Council.2018 International Mechanical Code. 1 t'--------------------------------------------------------------------_-._.- ------------------------------ 1 i National Fire Protection Association. NFPA 55 Compressed Gases and Cryogenic Fluids Code, 2016 Edition. i 1 t National Fire Protection Association. NFPA 58, Liquefied Petroleum Gas Code, t 2017 Edition. ' 1 National Fire Protection Association. NFPA 70, Electrical Code, 2017 Edition. ' National Fire Protection Association. NFPA 77, Recommended Practice on Static f NFPA = Electricity, 2019 Edition. _ { ' S National Fire Protection Association.NFPA 497, Recommended Practice for the = S Classification of Flammable Liquids, Gases, or Vapors and of Hazardous I (Classified)Locations for Electrical Installations in Chemical Process Areas, t 2017 Edition. p_-_-..«-------------------------------------.._...._.___ 1 i .-_-_-_---------«_-__-..__--------««__-_..___-------......--_......_-....---...---._-_....---------------....___.- _--«---«----__-__.._- t ' i American Society of Mechanical Engineers. 2027ASME Boiler and Pressure Vessel Code, E T r- r Section Vlll, Division 1. E 1 American Society of Mechanical Engineers.2015 ASME Boiler and Pressure Vessel Code, 4 t Section 11, Materials-Part D. ? I t --------------------------------------------------------------------------------------------------------------- t t t t -----------------____«---------------- --------------------------------.... ------------------------------------------ /��� American Society of Civil Engineers.ASCE/SEI 7-10, Minimum Design Loads for Buildings ..., and Other Structures, Third Printing.----------------------- ; t ------------- GENERAL REFERENCE 1 FISHER' Fisher Controls. 2001, LP-Gas Serviceman's Handbook, LP-10. -----------•----------'------------------------------- ----------------------------------------------------------------------------i { WEBSITES I ----- ----- _.._.......... ... --------------------_----------------------------------_��_��----------------«- -- ; cl Cole-Parmer• "Chemical Compatibility Database." Cole-Parmer, 2018, t www.coleparmer.com/chemical-resistance. a� , It ! ....----------_-« «-« -----««-_«_ ----------- �! I 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 57 I 53R ERTZ __---- ! STATE CERTIFICATIONS WASHINGTON The extraction system described within this report has been reviewed by a Washington Licensed Professional Engineer and found to meet all applicable requirements set forth by the state of Washington. This report certifies the design only. Each manufactured unit shall be assigned a serial number and j certificate of conformance verifying full compliance with this report. The following codes and standards t have been reviewed as a basis for certification of this equipment: ; - WAC 314-55-104 -2018 International Fire Code -NFPA 55-2016, Compressed Gases and Cryogenic Fluids Code "S'T� -NFPA 58-2017, Liquefied Petroleum Gas Code -NFPA 70-2017, Electrical Code Licensed Engineer: Brian A. Kester License Number: 53341 �-A ,�53341® 99'T�BSF�"' ssJONALE�G = t i t t I I { t t h; 3PC#: ECR-190089-RO PROPRIETARY CONTENT Release Date: 9/13/2019 www.3pcertz.com Page 58 I I I II MANUFACTURER j .a APPENDIX A SPEC SHEETS: ECR-190089 AL 3�R L�,,,OERTz i i I CRYOGENIC RELIEF VALVE (STAINLESS) 1/4" and 1/2" NPT Valves & B FittingsIk -4 and -8 Metal To Metal Face Seal 1/4" and 1/2" Bi-Lok Dual Ferrule Tube 10 - 750 Psig (0.69 - 51.7 Bar) Description The Generant Series Stainless Steel CRV, Cryogenic Relief Valve is a spring reference over pressure protection device. The Stainless CRV is supplied cleaned and packaged for oxygen service making it an ideal choice for most cryogenic relief valve applications. The valve can be ordered with set pressures ranging from 10 to 750 Psig (0.69 to 51.7 Bar)and come factory preset and permanently locked. Relief pressure can not be altered or adjusted in the field. Seat and poppet geometry combined with optimized spring ranges provide high flow rates with minimum pressure accumulation. Compact design and availability of a variety of inlet and outlet configurations reduces size and piping requirements. Relief pressure can be discharged to atmosphere or to a downstream connection. The CRV can be specified with PCTFE (set pressures above 50 Psig (3.54 Bar)),Vitono,and Fluorsilicone seals. Features • Available in NPT,Metal to Metal Face Seal and Bi-Lok Dual Ferrule Tube Connections • High Flow Capacity and Excellent Reseal Performance • Discharge to Atmosphere or a Wide Varity of Inline Piping Configurations • Supplied Factory Preset Set and Permanently Locked for Tamper Proof Service • 100%Factory Tested for Leakage,Crack and Reseal Performance • Optional Deflector Cap available for diverting exhausted gas LU • Cleaned and Packaged for Oxygen Service J Technical Data Nominal Set Pressure Range: 10—750 Psig(0.69 to 51.7 Bar) Z Factory Set Tolerance: +l-5%of Specified Pressure Zero Leakage to 95%of Set Pressure Full Rated Flow @ 110%of Set Pressure — Reseal: 90%(80%for PCTFE seals set below 100 Psig(6.9 Bar)) Unaffected by up to 10%Back Pressure Temperature Rating: -3200 to 3920 F(A 960 C to 2000 C) based on seal material(see How To Order) Lubricant: Krytoe Materials of n Co struction Component Material Body,Poppet,Seat Screw, Spring Retainer, 316 Stainless Steel In-Line Adapter', Nuts (ASTM A479)2 and Ferrules Ui Spring 302 or 17-7 PH Stainless Steel (ASTM A313) Seals PCTFE(ASTM D1®30), Viton or Teflon 'Inline Adapters utilize Viton o-ring seals. Metal to Metal Face Seal Inline Adapters are Electro Polished to 10 Ra Max. z Valves supplied with Metal to Metal Face Seal connections have Electro Polished Inlet,Poppet and Seat Screw to 10 Ra Max. 00 SA.SL.SSC RV001.B.1779 CRYOGENIC RELIEF VALVE (STA1NLESs) - A - C B FLOW DIRECTION D ORIFICE t� HEX/ROUND ' II BODY HEX TUBE NUT HEX Configuration Shown CRV4T-4V Dimensional Data Inlet Size Designation Orifice A B Body Hex Tube Nut Hex 1/4"NPT 4 .312 7.93 2.65(65.02) 0.59(14.99) 1/2"NPT 8 .400(1016) N/A -4 Face Seal 4V .180 4.57 2.66 68.07 0.62 15.75 7/8" 1/4"Eli-Lok 4T .180 4.57 3.35 85.09 0.70(17.78 9/16" 1/2"Bi-Lok 8T .400 10.16 3.51 89.15 0.86 21.84 7/W -8 Face Seal 8V .400 10.16 2.82 71.63 0.75 19.05 1" N/A configuration Outlet C D I Hex/Round Tube Nut Hex CRV Vent to Atmosphere N/A CRVD Deflector Cap 0.75 19.05 7/8"Hex CRV4 1/4"FNPT 0.37 9.40 CRV6 3/8"FNPT 0.67 17.02 N/A 1"Rd NIA CRV8 1/2"FNPT 0.74 18.80 CRV4V -4 Face Seal 0.80 20.32 0.62 15.75 CRV4T 1/4"Bi-Lot 0.89 0.7017.78 o 7/8"Hex CRV8T 1/2"Si- 9/16" 1.05 26.67 0.86 21.84 7/8" CRV8V -8 Face Seal 0,94 23.88 0.75 19.05 1"Hex N/A Note: Dimensions shown with Bi-Lok nuts finger-tight Dimemions are to Inches(millimeters),for reference only and subject to change. NPT Threads per ASME B1.20.1 Flow Data How To Order CRV6T-6T-T - 100 Set Pressure Range Discharge Coefficient, Kd CRV6T-6T-T - 150 PSI Configuration .180 .312 .400 CRV Vent to Atmosphere From To Orifice Orifice Orifice CRVD Deflector Cap CRV4 1/4"FNPT Inline Adapter 4.57mm 7.92mm 10.16mm CRV6 3/8"FNPT Inline Adapter 8 19 0.05 0.44 0.25 CRV8 1/2"FNPT Inline Adapter CRV4V -4 Face Seal Inline Adapter 20 28 0.30 0.57 0.30 CRV4T 1/4" Bi-Lok Inline Adapter CRV8T 1/2" Bi-Lok Inline Adapter 29 45 0.30 0.57 0.34 CRV8V -8 Face Seal Inline Adapter 46 62 0.34 0.57 0.34 Inlet Size Designation 63 89 0.60 0.57 0.34 4 1/4"NPT Male Inlet 8 1/2"NPT Male Inlet 90 130 0.60 0.57 0,34 4V -4 Metal to Metal Face Seal 4T 1/4"Bi-Lok Dual Ferrule Tube 131 180 0.60 0.55 0.28 8T 1/2"Bi-Lok Dual Ferrule Tube 181 275 0.57 0.55 0.28 8V -8 Metal to Metal Face Seal 275 400 0.37 0.43 0.28 seals K-PCTFE above 50 Psig(-320°to 165°F(-196°[0 74°C)) 401 615 0.37 0.28 0.25 V-Vitono(-20"to 375°F(-29°to 190°C)) FS-Fluorsilicone (-85°to 392°F(-65°to 200°C)) 616 750 0.37 0.17 0.12 Specify Set Pressure Viton and Krytox are registered trademarks of DuPont. 10-750 Psig PROPER COMPONENT SELECTION-When specifying a component,the total system design must be considered to ensure safe and trouble-free performance. Intended componentfunction, materials compatibility,pressure ratings,installation,environment and maintenance are the responsibility of the system designer. www.generant.com 1865 Route 23 South PO Box 768 Butler, New Jersey 07405 973.838.6500 Fax 973.838.4888 SA.SL.SSCRV001.B.1779 I I I I I` i 42 0 i g _r_Irk � a� IN _ � f+ •S.r� � yda�do� y y! re r re "1 ui w�W IL w o OC Ccz 14FFF g~ Im zz i 16 Borosilicate Glass Properties Metric u5 Coeff dent of mean linear thermal 3.3 • 106 K' 3.3• 10.6 K-' expansion a acc.to DIN ISO 7991 (20°C; 300'Q (68 OF;572 OF) Transformation temperature TO 525"C 977,F Density p at 25°C 2.23 g•cml 139.2 lb•ft-3 Modulus of elasticity E(Young's modulus) 63• 103 N•mm-2 91 • 10'lb•in-2(psi) Poisson's ratio 0.20 0.20 Thermal conductivity k at 90°C 1.2 W•m' •K•1 0.69 Btu-hr•' •ft-'•°F-' Refractive index(X-587.6 nm)n, 1.473 1.473 Stress-optical coefficient(DIN 52 314)K 4.0• 10.6 mm2. N-' 4.0• 10.6 mm2• W Chemical Composition Cberril al Resistance 5102 B203 NaZO+ Al K2O Hydrolytic Class(DIN ISO 719) HGB 1 81 13 4 2 Acid Class(DIN 12116) Class S 1 main components in approx.weight% Alkali Class(DIN ISO 695) Class A 2 17 Transmission inn —_ — — Note E When the glass tube is filled with E water,the transmission increases from 80 i 6 about 92%to 95.6%due to reduced Ereflection losses at the inner glass/water interface. 60 -- 1.2 40 0.8 20 - -- - - - 04 L9 DURAN° 0 Q Solar Irradiation 200 400 600 800 1,000 1,200 Wavelength[nm] Transmission of DURAN'glass(d=2.2mm)in configuration air/glass/air. Pressure Resistance of Tubing made of Borosilicate Glass The following formulas apply to stress free,pristine tubing and cylindrical hollow bodies with a circular profile,uniform wall thickness with open ends,free from ther- mal load,under internal positive pressure. Estimation of the maximum pressure resistance(p) OD - Outside Diameter In[mm] WT• 140 bar WT = Wall Thickness in imm] P= MAX PRESSURE 61N: 150 PSI p - Pressure Resistance in[bar] OD—WT Other points to be considered: Estimation of the minimum wall thickness(WT) •AD 2000-leaflet N 4,edition 2000-10: Pressure vessels made of glass,with encl,1, OD-p edition 2000-10:Evaluation of faults In walls of WT— glass pressure containers 140 bar+p •AD 2000-leaflet B 1,edition 2000-10: Cylindrical and spherical shells under internal pressure overload According to DIN EN 1595"Pressure Equipment K permissible load referring to standard DIN EN 1595: made from Borosilicate class 3.3-General Rules — =70 bar Pressure Equipment made from Borosilicate Glass 3.3 for Design,Manufacture and Testing",DURANO S is an approved material and may be used for the General Rules for Design,Manufacture and Testing construction of pressure equipment. i i METAGLAS The Only Safe View METAGLAS® — Threaded Sightglass — NPT-Thread Type 61.NPT Dale:April 2016 dl / 4* d2 � Metaglas Threaded Sightglass with hexagonal head For: Technical data: • Female connection with NPT or NPTF thread Manufactured and tested to: • Directive for pressure equipment 97/23/EG 02/98, Module H Advantages: (DIN/EN/ISO 9001) • Very compact AD 2000 Standards WO/TRD 100 • High pressure resistance Sight glass fused to metal conforming to DIN 7079 • Simple assembly Materials to VdTOV specifications and the DIN/EN • Long working life designated standards Operating conditions: Materials: • Pressure: 100 bar a Ring material: Carbon Steel (1.0570), Stainless Steel (1.4462) Hastelloy Material certificates 0 Glass: Borosilicate to DIN 7080 Certificate of Conformity to EN 10204-3.1 B Ring materials Operating temperature Carbon steel 1.0570 -10"C to+3000C 1 5/8" NPT Duplex stainless steel 1.4462 -300C to+280"C _INTERPOLATE DATA Hastelloy C22(2.4602) -60"C to+3000C d2 SW d1 d4 1 11 Thread 1/"NPT 21 9 9 17 11 'la NPT 24 10 12 20 13 Y2"NPT 27 14 16 25 15 %"NPT 36 18 20 26 16 1"NPT 41 21 23 34 19 1 %'NPT 50 25 30 30 20 1,%" 4PT $5- 36 36 24. 2"NPT 70 35 44 40 25 3"NPT 100 50 60 55 30 Pressure Gauges Industrial and Process r� do Ci \ mi 6v .0 LO ��c" i � � II• ll 1�0 p 1i f60 lbw a � PGI Series ■ 40, 50, 63, 100, 115, and 160 mm (1 1/2, 2, 2 1/2, 4, 4 1/2 and 6 in.) dial sizes ■ Accuracy in accordance with ASME, EN, and AS ■ Available with a variety of end connections, including Swagelok@ tube adapters ■ Center-back, lower-back, and lower mount configurations ■ Stainless steel and reinforced thermoplastic construction ■ Available unfilled or liquid filled �woo,�\ok i 6 Measurement Devices C Model: General-Purpose i Stainless Steel Gauge Features S ■ 63 and 100 mm(2 1/2 and 4 in.)dial sizes are available. ii, - _ i -� M Crimped ring provides a permanent seal of gauge case to lens. f 1f E Lens is constructed of clear polycarbonate. ■ Design is liquid fillable. I y 41 - 4 ,r r Technical Data Dial Ranges Configurations Operating Temperature Compound Gauges r.:il 63 mm(2 1/2 in.):center-back and Ambient Ej Vacuum to 0 psi through vacuum to lower mount ■ Unfilled:-40 to 140°F(-40 to 60°C) 200 psi o 100 mm(4 in.): lower-back and lower ■Glycerin-filled:-4 to 140°F(-20 to Cl Vacuum to 0 bar through vacuum to mount 60°C) 9 bar End Connections ■ Low-temperature glycerin-filled: l Vacuum to 0 MPa through vacuum to 63 mm (2 1/2 in.) Dial Size -29-to 140°F(-34 to 60°C) 1.5 MPa El 1/4 and 3/8 in.; 6 and 10 mm ■Silicone-filled:-40 to 140°F(-40 to Positive-Pressure Gauges Swagelok tube adapter 60°C) ■ 0 to 15 psi through 0 to 15 000 psi _, 1/4 in. male NPT Media ■ 0 to 1 bar through 0 to 1000 bar 212°F(100°C)maximum 100 mm (4 in.) Dial Size ■ 0 to 0.1 MPa through 0 to 100 MPa 1/2 in. and 12 mm Swagelok tube Temperature Error Accuracy adapter ±0.4 %for every 18°F(10°C) ID 63 mm(2 1/2 in.): ± 1.5 % of span IA 1/4 and 1/2 in. male NPT temperature change from 68°F(20°C) (ASME 1340.100 Grade B, EN 837-1 Weather Protection Class 1.6,JIS B7505 Class 1.6) 100 mm(4 in.): ± 1.0 % of span 2 Weather-tight(NEMA 4X/IP65) Materials of Construction (ASME 1340.100 Grade 1A, EN 837-1 Class 1.0, JIS B7505 Class 1.0) Component Material End connection 316 SS Bourdon tube Case 304 SS Fill fluid Glycerin,low- (if ordered) temperature glycerin, or silicone Movement Stainless steel Lens Polycarbonate Lens gasket Buna N Dial Pointer Aluminum Wetted components listed in italics. See page 21 for options and accessories for field installation. �WQO�Q�O� i Industrial and Process Pressure Gauges-PGI Series 7 Dimensions Dimensions are for reference only and are subject to change. Lower Mount Center-Back Lower-Back C,I Mount Mount 13 TT � E A A D t- Dial Size End Connection Dimensions,in.(mm) mm(in.) Size Type A B C D E Swagelok tube 2 22(56.3) 2.37(60.3) 1/4 in. adapter 63 Male NPT 2.09(53.0) 2.24(57.0) 1.30 0.39 _ (2 1/2) 3/8 in. 2.28(57.8) 2.43(61.8) (33.0)� (10.0) 6 mm Swagelok tube 2 22(56.3) 2.37(60.3) adapter 10 mm 2.28(57.8) 2.43(61.8) 1/4 in. Male NPT 3.15(80.0) 3.27(83.0) Swagelok tube 3.64(92.4) 3.48(88.4) 100 1/2 in. adapter 1.97 0.63 1.18 (4) Male NPT 3.43(87.0) 3.27(83.0) (50.0) (16.0) (30.0) 12 mm Swagelok tube 3.64(92.4) 3.48(88.4) adapter OO 1.10(28.0)for center-back mount. Ordering Information Build a C model gauge ordering number by combining the designators as shown below.List option designators alphabetically. PGI - 63C - NC200 - LBGX - 9276 PGI - 63C - PG100 - L AQ X - ABH Product Function and Type Tptions(seepage 21) Pressure gauge, industrial A=ASME B40.100 level IV cleaning° B=Certificate of calibration Dial Size and Model E=Material certification 63C=63 mm(2 1/2 in.)dial F=Panel-mount clamp° 100C= 100 mm(4 in.)dial G=Front flanged H=Rear flange Dial Range I=Maximum indicating pointer° 9 N =Orifice(0.023 in. [0.58 mm]) See page 18 and 19. 9320=White 9321 =Orange Process Connection Location 9322=Green L=Lower mount(all dial sizes) 9323=Glow C=Center-back mount(63 mm [2 1/2 in.] i0 Available for unfilled gauges only. dial size only) OO Not available in lower mount gauge configuration. B= Lower-back mount 100 mm 4 In. (I Not available with dial range maximums lower ( [ ] than 54 psi(3.7 bar,0.37 MPa). dial size only) Liquid Fill Fluid(see page 21) Fitting Size and Type X=Unfilled 63 mm(2 112 in.)Dial Size 100 mm(4 in.)Dial Size 1 =Glycerin AQ=1/4 in.Swagelok tube adapter AR= 1/2 in.Swagelok tube adapter 2= Low-temperature glycerin BG=3/8 in.Swagelok tube adapter AT= 12 mm Swagelok tube adapter 3=Silicone AS=6 mm Swagelok tube adapter AO= 1/4 in. male NPT BH= 10 mm Swagelok tube adapter AP= 1/2 in. male NPT AO= 1/4 in. male NPT e UWQO�Q�O� i i One - Piece Instrumentation Ball Valves S ems'® ` M 'till 1�'M r '� Vs- 40G Series and 40 Series ■ On-off, switching, and crossover flow paths ■ Working pressures up to 3000 psig (206 bar) ■ Temperatures from—65 to 300°F (-53 to 148°C) ■ Environmental and heated-process applications ■ 1/16 to 3/4 in. and 3 to 12 mm end connections �wooe\ok One-Piece Instrumentation Ball Valves-40G Series and 40 Series 5 Materials of Construction 40T and 40E Series for Valve Body Materials Low-Temperature Service Stainless Steel Brass Alloy 400 Iu I 1 Component Material Grade/ASTM Specification 1 Handle Nylon with brass insert ® 2 2 Set screw S17400 SS/A564 Powdered metal 3 3 3 Packing bolt 300 series SS or Brass CDA 360/1316 Alloy 400//3164 41, 42, W 43 series 316 SS/A276,A479 44, 45 ® 4 Springs0 Molybdenum disulfide-coated S17700 SS/A693 Series QEEW® 5 Gland Powdered metal 300 series SS ® 4 6 Upper packing 40T PFAID3307,40E.UHMWPE/D4020 ® 7 Ball stem 316 SS/A276 and A479 Alloy 4001E 164 ® 8 Side rings 40T fluorocarbon-coated powdered metal Fluorocarbon-coated 300 series SS/B783; alloy 400 5 9 Side discs 40E 300 series powdered metal SS/B783 powdered metal 6 10 Lower packing 40T PFA/D3307;40E UHMWPEID4020 7 11 Panel nut Powdered metal 300 Brass CDA 360/B16 Powdered metal 300 series SS/B783 series SS/B783 9 12 Bodylb 316 SS/A276,A479 Brass CDA 360/B16 Alloy 400IB164 ® Wetted lubricant 40T hydrocarbon-and silicone-basede; 8 ® 10 ® 8 40E.�hydrocarbon-based 9 Non wetted ted Molybdenum disulfide with hydrocarbon binder coating ® 11 Wetted components listed in italics. 12 i0 41 and 42 series-8 springs;43 series-6 springs;44 and 45 series-4 springs. OO 40T body with VCO fittings has fluorocarbon FKM 0-rings;40E body with VCO fittings has ethylene Smoya\ok propylene 0-rings. OO 44T and 45T—hydrocarbon-based and silicone-and fluorinated-based. Pressure-Temperature Ratings The 40G series valve is designed for thermal cycling in both environmental and heated-process applications. Ratings shown below apply to on-off(2-way)and switching(3-way)valves. Ratings for switching(5-way and 7-way)and crossover(4-way and 6-way)valves are shown on pages 10 and 11, respectively. Temperature ratings are limited to 150°F(65°C) max with UHMWPE packing. Valve Series 40G 40 40T and 40E Modified PTFE Live-Loaded PFA(40T Series) Packing Material UHMWPE PTFE Live-Loaded UHMWPE(40E Series) 41,42 41,42 (Straight, (Straight, 41 G,42G Angle,3-Way); Angle,3-Way); (Straight, 43(Angle, 43(Angle, Angle,3-Way); 3-Way); 3-Way); Valve Size 43G(Angle, 43G 44,45 43 44,45 44,45 43 44,45 (Configuration) 3-Way) (Straight) (Straight) (Straight) (Angle,3-Way)I (Straight) (Straight) (Angle,3-Way) Temperature°F(°C) Working Pressure,psig(bar) -65(-53)to 50 (10) 2500(172) 3000(206) — — — 2500(172) 3000(206) 1500(103) 50(10)to 150 (65) 2500(172) 3000(206) 2500(172) 3000(206) 1500(103) 2500(172) 3000(206) 1500(103) 200 (93) 2500(172) 2800(193) — — — — — — 250 (121) 2500(172) 2650(182) — — — — — — 300 (148) 2500(172) 2500(172) — — — — — — Pressure ratings for valves with Swagelok tube fitting ends may be lower due to the tubing pressure rating.Refer to Tubing Data catalog,MS-01-107,for additional information. OO Temperature ratings are limited to 150°F(65°C)max with UHMWPE packing. �wooc\ok i x. i 1-Piece Instrumentation, 40G and 40 Series Part No. SS-43GXS6 ` Part Description Stainless Steel 1-Piece 40G Series 3-Way Ball Valve, 0.9 Cv, 3/8 in. Swagelok Tube Fitting Specifications Body Material 316 Stainless Steel Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 3/8 in. Connection 1 Type Swagelok®Tube Fitting Connection 2 Size 3/8 in. Connection 2 Type Swagelok®Tube Fitting eClass (4.1) 37010401 eClass (5.1.4) 37010401 eClass(6.0) 37010401 eClass (6.1) 37010401 Flow Pattern 3-Way, Switching UNSPSC (10.0) 40141607 UNSPSC(11.0501) 40141607 UNSPSC(13.0601) 40141607 UNSPSC(15.1) 40141607 UNSPSC (4.03) 40141607 UNSPSC(PGE) 401416AL UNSPSC(SEQIRUS) M4170 UNSPSC (SWG01) 40141607 The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance. Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. Caution:Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial design standards)with those of other manufacturers. 2019 Copyright Swagelok Company i 9/9/2019 1:09:26 PM www.swagelok.com 1 -Piece Instrumentation, 40G and 40 Series 7 Part No. SS-45XS8 Part Description 11s, Stainless Steel 1-Piece 40 Series 3-Way Ball Valve, 4.6 Cv, 1/2 in. Swagelok Tube Fitting Specifications Actuator Type Manual Ball/Stem Material Stainless Steel Body Material 316 Stainless Steel Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 1/2 in. Connection 1 Type Swagelok®Tube Fitting Connection 2 Size 1/2 in. Connection 2 Type Swagelok®Tube Fitting Connection 3 Size 1/2 in. Connection 3 Type Swagelok®Tube Fitting eClass(4.1) 37010401 eClass (5.1.4) 37010401 eClass(6.0) 37010401 eClass(6.1) 37010401 Flow Pattern 3-Way, Switching Handle Color Black Handle Style Lever Lubricant DOW 111 and WL8 Mix Max Temperature with Pressure Rating 150 F 1500 PSIG/65 C 103 BAR Orifice 0.406 in/10.3 mm O-Ring PTFE Ring/Disc Material PTFE-Coated Stainless Steel Room Temperature Pressure Rating 1500 PSIG @ 100°F/103 BAR @ 37°C Service Class General Testing Testing according to WS-22 UNSPSC(10.0) 40141607 UNSPSC (11.0501) 40141607 UNSPSC (13.0601) 40141607 UNSPSC(15.1) 40141607 www.swagelok.com 1 -Piece Instrumentation, 40G and 40 Series Part No. SS-43GS6 s Part Description ._ f Stainless Steel 1-Piece 40G Series Ball Valve, 1.5 Cv, 3/8 in. Swagelok Tube Fitting . - Specifications Actuator Type Manual Ball/Stem Material Stainless Steel Body Material 316 Stainless Steel Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 3/8 in. Connection 1 Type Swagelok@ Tube Fitting Connection 2 Size 3/8 in. Connection 2 Type Swagelok@ Tube Fitting eClass (4.1) 37010401 eClass (5.1.4) 37010401 eClass (6.0) 37010401 eClass (6.1) 37010401 Flow Pattern 2-Way, Shutoff, Straight Handle Color Black Handle Style Lever Lubricant Dow M111 Max Temperature Pressure Rating 300°F @ 2500 PSIG/148°C @ 172 BAR Orifice 0.187 in/4.7 mm Packing Modified PTFE Ring/Disc Material Stainless Steel Room Temperature Pressure Rating 3000 PSIG @ 100°F/206 BAR @ 37°C Testing Testing according to WS-22 UNSPSC (10.0) 40141607 UNSPSC (11.0501) 40141607 UNSPSC(13.0601) 40141607 UNSPSC (15.1) 40141607 UNSPSC (4.03) 40141607 UNSPSC (PGE) 401416AL UNSPSC (SEQIRUS) M4170 UNSPSC (SWG01) 40141607 ti I i 1 -Piece Instrumentation, 40G and 40 Series Part No. SS-45S8 { Part Description Stainless Steel 1-Piece 40 Series Ball Valve, 12 Cv, 1/2 in. Swagelok Tube Fitting Specifications Actuator Type Manual Ball/Stem Material Stainless Steel Body Material 316 Stainless Steel Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 1/2 in. Connection 1 Type Swagelok®Tube Fitting Connection 2 Size 1/2 in. Connection 2 Type Swagelok@ Tube Fitting eClass(4.1) 37010401 eClass (5.1.4) 37010401 eClass(6.0) 37010401 eClass (6.1) 37010401 Flow Pattern 2-Way, Shutoff, Straight Handle Color Black Handle Style Lever Lubricant DOW 111 and WL8 Mix Max Temperature with Pressure Rating 150 F 2500 PSIG/65 C 172 BAR Orifice 0.406 in/10.3 mm O-Ring PTFE Ring/Disc Material PTFE-Coated Stainless Steel Room Temperature Pressure Rating 2500 PSIG @ 100°F /172 BAR @ 37°C Service Class General Testing Testing according to WS-22 UNSPSC(10.0) 40141607 UNSPSC(11.0501) 40141607 UNSPSC(13.0601) 40141607 UNSPSC(15.1) 40141607 UNSPSC(17.1001) 40141600 UNSPSC(4.03) 40141607 UNSPSC (PGE) 401416AL www.swagelok.com Plug Valves l I ,P v `A� P4T and P6T Series ■ Working pressures up to 3000 psig (206 bar) ■ Swagelok®tube fitting and NPT and ISO tapered pipe end connections ■ 1/8 through 1/2 in. and 6 through 12 mm sizes ■ Brass and 316 stainless steel materials t7W0,0�Q�O� I 2 Ball Valves and Quarter-Turn Plug Valves Contents Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Cleaning and Packaging . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Pressure-Temperature Ratings . . . . . . . . . . . . . . . . . . . . . 2 Ordering Information and Dimensions . . . . . . . . . . . . . . . 4 Materials of Construction . . . . . . . . . . . . . . . . . . . . . . . 2 Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Locking Handles . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Flow Data at 70°F 20°C . . . . . . . . . . . . . I . . . . . . . . . . . 3 Panel Mounting . . . . . . . . . . . . . . . . 7 Testing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Features Pressure Temperature Ratings Swagelok plug valves Based on PTFE-coated fluorocarbon FKM O-rings. offer low-torque, quarter- turn operation in a simple, Series P4T,P6T P4T P6T compact design that provides Material 316 33 Brass positive shutoff of forward T Temperature,°F(°C) Working Pressure,psig(bar) flow with up to 3000 psig ///� -10(-23)to 100(37) 3000 (206) 3000 (206) 2000 (137) (206 bar)pressure. 150(65) 3000 (206) 2500 (172) 2000 (137) ■ Straight-through flow path 200(93) 3000 (206) 2000 (137) 2000 (137) 250(121) 2000 (137) 1500 (103) 1500 (103) ■ Forward-flow throttling 300(148) 1000 (68.9) 1000 (68.9) 1000 (68.9) ■ Simple design, easy to clean and maintain 350(176) 1000 (66.9) 1000 (68.9) 1000 (68.9) One-piece body 400(204) 1000 (66.9) 400 (27.5) 400 (27.5) T Differential pressure is limited to 150 psig(10.3 bar)maximum if reverse flow Replaceable plug assembly occurs.Reverse-flow throttling may damage 0-ring. O-ring seal to atmosphere. Materials of Construction Valve Body Materials 316 SS I Brass Component Material Grade/ASTM Specification 1 Handle Polyetherimide 2 2 Pin 316 SS 3 Plug PTFE-coated PTFE-coated 316 SS/A479 I brass/B453 3 4 0-rings PTFE-coated fluorocarbon FKM O 5 Pin 316 SS 6 Body 316 SS/A479 I Brass/B453 O 4 7 Snap ring PH 15-7 Mo@ SS O Lubricant Silicone-based Wetted components listed in italics. 5 s - Swoae\off_ to I' 7 �woo�e\ok I tt • i www.swagelok.col Instrument Plug Valves Part No. SS-6P6T Part Description Stainless Steel Quarter Turn Instrument Plug Valve, 3/8 in. Swagelok Tube Fitting, 6.4 Cv Specifications Body Material 316 Stainless Steel Connection 1 Size 3/8 in. Connection 1 Type Swagelok®Tube Fitting Connection 2 Size 3/8 in. Connection 2 Type Swagelok®Tube Fitting eClass (4.1) 37010416 eClass (5.1.4) 37010416 eClass (6.0) 37010416 eClass (6.1) 37010416 UNSPSC (10.0) 40141626 UNSPSC(11.0501) 40141626 UNSPSC(13.0601) 40141626 UNSPSC(15.1) 40141626 UNSPSC(17.1001) 40141600 UNSPSC(4.03) 40141600 UNSPSC(PGE) 401416AL UNSPSC (SEQIRUS) M4170 UNSPSC(SWG01) 40141600 The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance.Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. Caution:Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial design standards)with those of other manufacturers. 2019 Copyright Swagelok Company I I www.swagelok.com Integral - Bonnet Needle Valves r r . s ' c t Swage\ok woo- NOW l ', O, 1 , 18, 20, and 26 Series ■ Live-loaded packing system ■ Compact design ■ Working pressures up to 6000 psig (413 bar) ■ Temperatures up to 600OF (315°C) �WQO�Q�O� 2 Needle and Metering Valves Features Stem Designs Live-Loaded Packing System 111 Vee—all series Packing nut - - - - M Soft-seat—all series enables easy ll Regulating—O, 1, and 18 series external 2-piece chevron packing Orifice Sizes adjustments with disc springs roves seal From 0.080 to 0.375 in. I ■improves (2.0 to 9.5 mm) ■reduces friction wear ■compensates for wear Flow Coefficients (C„) Fully supported ■reduces operating F-1 From 0.09 to 1.80 packing torque Flow Patterns reduces need < for adjustment 171 Straight, angle, and cross patterns Panel Mounting ua O, 1, and 18 series O, 1, and 18 Series 20K Series 20V and 26 Series Round handle Knob Bar handle shown; bar handle shown; round handle available handle available Vee stem Vee stem shown; shown; soft- regulating stem andI seat stem soft-seat stem with - with PCTFE PCTFE tip available - tip available Soft-seat stem with `L PCTFE tip - Pressure-Temperature Ratings Ratings are limited to: ■200°F(93°C)max with soft-seat stem with PCTFE stem tip. ■250°F(121°C) max with UHMWPE packing. ■450°F(232°C)max with PFA packing. ■600°F(315°C)max with PEEK packing. To order a valve with soft-seat stem and PCTFE stem tip, see Ordering Information and Dimensions, page 4 and 6. To order a valve with UHMWPE or PEEK packing, see Options and Accessories, page 7. O, 1, and 18 Series 20 and 26 Series ASME Class 2080 N/A 1500 ASME Class 2500 Material Group 2.2 N/A 3.4 Material Group 2.2 Material Name 316 SS Brass I Steel Alloy 400 Material Name 316 SS Temperature,OF(°C) Working Pressure,psig(bar) Temperature Working Pressure -65 (-53)to -20 (-28) 5000(344) 3000 (206) — 3000(206) OF(°C) psig(bar) -20 (-28)to 100 (37) 5000(344) 3000 (206) 3000 (206) 3000(206) -65(-53)to 100 (37) 6000(413) 200 (93) 4295(295) 2350 (161) 2730 (188) 2640(181) 200 (93) 5160(355) 250 (121) 4085(281) 2200 (151) 2695 (185) 2555(176) 250 (121) 4910 (338) 300 (148) 3875(266) 2050 (141) 2660 (183) 2470(170) 300 (148) 4660 (321) 350 (176) 3715(255) 1470 (101) 2615 (180) 2430(167) 350 (176) 4470 (307) 400 (204) 3560(245) 390 (26) — 2390(164) 400 (204) 4280 (294) 450 (232) 3435(236) — — 2380(163) 450 (232) 4130 (284) 500 (260) 3310(228) — — 2375(163) 500 (260) 3980 (274) 600 (315) 3130(215) 1 — 600 (315) 3760 (259) For more information about pressure ratings of valves with tube fitting end connections,refer to Tubing Data catalog,MS-01-107. sw k%Q\ok i i Integral Bonnet Needle Valves Part No. SS-1 VS6 Part Description _ Stainless Steel Integral Bonnet Needle Valve, 0.73 Cv, 3/8 in. Swagelok Tube Fitting, Vee Stem Specifications Body Material 316 Stainless Steel Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 3/8 in. Connection 1 Type Swagelok®Tube Fitting Connection 2 Size 3/8 in. Connection 2 Type Swagelok®Tube Fitting eClass (4.1) 37010201 eClass (5.1.4) 37010201 eClass (6.0) 37010203 eClass (6.1) 37010203 Flow Pattern Straight(2-way) Handle Color Black Handle Style Phenolic Knob Lubricant Perf. Polyether/Tung. Disulfide (WI-7) Max Temperature with Pressure Rating 450°F @ 3435 PSIG/232°C @ 236 BAR Orifice 0.250 in Packing PFA Room Temperature Pressure Rating 5000 PSIG @ 100°F/344 BAR @ 37°C Stem Tip Material 316 Stainless Steel Stem Type Vee UNSPSC(10.0) 40141602 UNSPSC(11.0501) 40141602 UNSPSC(13.0601) 40141602 UNSPSC(15.1) 40141602 UNSPSC(17.1001) 40141600 UNSPSC (4.03) 40141602 UNSPSC(PGE) 401416AL UNSPSC(SEQIRUS) M4170 UNSPSC (SWG01) 40141602 I I www.swagelok.com Quick- Connects AOi 4 -4 h QC, QF, QM, and QTM Series ■ No twisting, turning, or wrenching necessary ■ Single-end shutoff, double-end shutoff, and full-flow models �WQO�Q�O� 4 Hose,Quick-Connects,and Sample Cylinders Pressure-Temperature Ratings, QC Series QC4 Series QC6 Series Material 316 SS Brass Material 316 SS Brass Fluoro- Perfluoro- Fluoro- Perfluoro- O-Ring carbon Ethylene carbon O-Ring carbon Ethylene carbon Material FKM propylene FFKM' z Buna N Material FKM propylene FFKMOO Buna N Temperature Pressure Rating Temperature Pressure Rating IF(°C) psig(bar) °F(°C) pSlg(bar) Coupled Coupled -50(-45) - 3000(206) - - -50(-45) - 1500(103) - - 0(-17) - 3000(206) - 2000(137) 0(-17) - 1500(103) - 1000(68.9) 10(-12) 3000(206) 3000(206) - 2000(137) 10(-12) 1500(103) 1500(103) - 1000(68.9) 60(15) 3000(206) 3000(206) 3000(206) 2000(137) 60(15) 1500(103) 1500(103) 1500(103) 1000(68.9) 100(37) 3000(206) 3000(206) 3000(206) 2000(137) 100(37) 1500(103) 1 1500(103) 1500(103) 1000(68.9) 150(65) 2750(189) 2750(189) 2750(189) 1300(69.5) 150(65) 1350(93.0) 1350(93.0) 1350(93.0) 700(48.2) 200(93) 2300(158) 2300(158) 2300(158) 700(48.0) 200(93) 1150(79.2) 1150(79.2) 1150(79.2) 450(31.0) 250(121) 1850(127) 1850(127) 1850(127) 300(20.6) 250(121) 970(66.8) 970(66.8) 970(66.8) 300(20.6) 300(148) 1400(96.4) 1400(96.4) 1400(96.4) - 300(148) 750(51.6) 750(51.6) 750(51.6) - 350(176) 950(65.4) - 950(65.4) - 350(176) 580(39.9) - 580(39.9) - 400(204) 500(34.4) - 500(34.1)(D 1 400(204) 400(27.5) - 400(27.5)(D - 500(260) - - 150(10.3)0 - 500(260) - - 150(10.3)0 Uncoupled . 70(20) 1 250(17.2) 70(20) 1 250(17.2) O With KR designator(silicone-based lubricant). O With KR designator(silicone-based lubricant). 0 With KZ designator(PTFE-based lubricant). 0 With KZ designator(PTFE-based lubricant). QC8 Series Material 316 SS Brass Fluoro- Perfluoro- O-Ring carbon Ethylene carbon Material FKM propylene FFKMOO Buna N Temperature Pressure Rating IF(°C) psig(bar) Coupled -50(-45) - 750(51.6) - - 0(-17) - 750(51.6) - 500(34.4) 10(-12) 750(51.6) 750(51.6) - 500(34.4) 60(15) 750(51.6) 750(51.6) 750(51.6) 500(34.4) 100(37) 750(51.6) 750(51.6) 750(51.6) 500(34.4) 150(65) 680(46.8) 680(46.8) 680(46.8) 400(27.5) 200(93) 600(41.3) 600(41.3) 600(41.3) 350(24.1) 250(121) 520(35.8) 520(35.8) 520(35.8) 300(20.6) 300(148) 440(30.3) 440(30.3) 440(30.3) - 350(176) 360(24.8) - 360(24.8) - 400(204) 300(20.6) - 300(20.6)D - 500(260) - - 150(10.3)0 - Uncoupled and When Coupling and Uncoupling 70(20) 1 250(17.2) i0 With KR designator(silicone-based lubricant). OO With KZ designator(PTFE-based lubricant). �wooe\ok i www.swagelok.com Instrumentation Quick-Connect Bodies Part No. SS-QC6-B-600 Part Description Stainless Steel Instrumentation Quick Connect Body, 0.5 Cv, 3/8 in. Swagelok Tube Fitting Specifications Air Inclusion 1 cm3 Body Material 316 Stainless Steel Body Valve Option Standard Body Valve Bulkhead No Bulkhead Cleaning Process Standard Cleaning and Packaging (SC-10) Configuration Body Connection 1 Size 3/8 in. Connection 1 Type Swagelok@ Tube Fitting eClass(4.1) 37110302 eClass (5.1.4) 37110302 eClass (6.0) 37020500 eClass (6.1) 37020500 Flow Coefficient 0.5-If coupled with a DESO stem, 0.9-If coupled with a SESO stem Lubricant Dow Corning 111 O-Ring Fluorocarbon FKM Paint No Choice For Paint Pressure Rating Coupled at Max Temp 250 PSIG @ 400°F/17.2 BAR @ 204°C Pressure Rating Coupled at Room Temp 1500 PSIG @ 70°F/103 BAR @ 21 °C Pressure Rating UnCoupled at Room Temp 250 PSIG @ 70°F/17.2 BAR @ 21 °C Pressure/Temp_Rating (Coupling and Uncoupling) 250 PSIG @ 70°F/17.2 BAR @ 21 °C Series Instrumentation Quick-Connect Size 3/8 in. Sleeve Standard Sleeve Spillage 1 cm3 Spring Standard Spring Testing 1 cm3 UNSPSC (10.0) 27121701 UNSPSC(11.0501) 27121701 UNSPSC(13.0601) 27121701 i i www.swagelok.com Instrumentation Quick-Connect Bodies Part No. SS-QC8-B-810 Part Description Stainless Steel Instrumentation Quick Connect Body, 1.5 Cv, 1/2 in. Swagelok Tube Fitting Specifications Air Inclusion 3 cm3 Body Material 316 Stainless Steel Body Valve Option Standard Body Valve Bulkhead No Bulkhead Cleaning Process Standard Cleaning and Packaging (SC-10) Configuration Body Connection 1 Size 1/2 in. Connection 1 Type Swagelok@ Tube Fitting eClass(4.1) 37110302 eClass (5.1.4) 37110302 eClass (6.0) 37020500 eClass(6.1) 37020500 Flow Coefficient 1.5-If coupled with a DESO stem, 2.4-If coupled with a SESO stem Lubricant Dow Corning 111 O-Ring Fluorocarbon FKM Paint No Choice For Paint Pressure Rating Coupled at Max Temp 250 PSIG @ 400°F 117.2 BAR @ 204°C Pressure Rating Coupled at Room Temp 750 PSIG @ 70°F/51.6 BAR @ 21 °C Pressure Rating UnCoupled at Room Temp 250 PSIG @ 70°F/17.2 BAR @ 21 °C Pressure/Temp_Rating (Coupling and Uncoupling) 250 PSIG @ 70°F/17.2 BAR @ 21 °C Series Instrumentation Quick-Connect Size 1/2 in. Sleeve Standard Sleeve Spillage 3 cm3 Spring Standard Spring Testing 3 cm3 UNSPSC(10.0) 27121701 UNSPSC (11.0501) 27121701 UNSPSC(13.0601) 27121701 I I Gaugeable Tube Fittings and Adapter Fittings I n, J 'e ■ Available in tube sizes from 1/16 to 2 in. and 2 to 50 mm ■ Consistent gaugeability upon initial installation ■ Easy to disconnect and retighten ■ Wide variety of materials and configurations ■ Demonstrated reliability and performance Ema%q\o' i Tubing Data 5 Suggested Allowable Working Pressure for Stainless Steel Tubing Table 3—Fractional Stainless Steel Seamless Tubing Allowable working pressures are calculated from an S value of 20 000 psi (137.8 MPa)for ASTM A269 tubing at—20 to 100'F (-28 to 37°C), as listed in ASME B31.3, except as noted. For Welded Tubing For welded and drawn tubing, a derating factor must be applied for weld integrity: El for double-welded tubing, multiply working pressure by 0.85 ❑for single-welded tubing, multiply working pressure by 0.80. Tube Wall Thickness, in. 0.010 0.012 0.014 0.016 0.020 1 0.028 0.035 1 0.049 1 0.065 0.083 0.095 0.109 0.120 0.134 0.156 0.188 Tube Working Pressure,psig Swagelok OD Note:For gas service,select a tube wall thickness outside of the shaded area. Fitting in. (See Gas Service,page 2.) Series 1/16 5600 6800 8100 9400 12 000 1 1 100 1/8 8500 10 900 200 3/16 5400 7 000 10 200 300 1/4 4000 5 100 7 500 10 200 ) 400 5/16 4 000 5 800 8 000 500 3/8 3 300 4 800 6 500 7500 0 600 1/2 2 600 3 700 5 100 6700 810 5/8 2 900 4 000 5200 6000 1010 3/4 2 400 3 300 4200 4900 5800 1210 7/8 2000 2 800 3600 4200 4800 1410 1 2 400 3100 3600 4200 4700 1610 1 1/4 2400 2800 3300 3600 4100 4900 2000 1 1/2 2300 2700 3000 3400 4000 1 4900 2400 21 2000 2200 2500 2900 3600 3200 i1) For higher pressures,seethe Swagelok Medium-Pressure Fittings catalog,MS-02-335,or the Swagelok High-Pressure Fittings catalog,MS-01-34. OO Rating based on repeated pressure testing of the Swagelok tube fitting with a 4:1 design factor based upon hydraulic fluid leakage. Suggested Ordering Information High-quality,fully annealed (Type 304,304/304L, 316, 316/316L,317,317/317L, 321,347)(seamless or welded and drawn) stainless steel hydraulic tubing, ASTM A269 and A213, or equivalent. Hardness not to exceed 90 HRB or 200 HV.Tubing to be free of scratches, suitable for bending and flaring. OD tolerances not to exceed t 0.003 in.for 1/16 in.OD tubing. Note:Certain austenitic stainless tubing has an allowable ovality tolerance double the OD tolerance and may not fit into Swagelok precision tube fittings. Dual-certified grades such as 304/304L,316/316L, and 317/317L meet the minimum chemistry and the mechanical properties of both alloy grades. c�W0,0�Q�0� i I i i MI � � • 9/9/2019 0 P Union Crosses Part No. SS-600-4 I;k 4T�' Part Description Stainless Steel Swagelok Tube Fitting, Union Cross, 3/8 in. Tube OD Specifications Body Material 316 Stainless Steel Body Type Cross Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 3/8 in. Connection 1 Type Swagelok®Tube Fitting Connection 2 Size 3/8 in. Connection 2 Type Swagelok®Tube Fitting Connection 3 Size 3/8 in. Connection 3 Type Swagelok®Tube Fitting Connection 4 Size 3/8 in. Connection 4 Type Swagelok®Tube Fitting eClass (4.1) 37020717 eClass (5.1.4) 37020590 eClass (6.0) 37200107 eClass(6.1) 37020590 Series Swagelok Tube and Adapter Fittings UNSPSC(10.0) 40142614 UNSPSC (11.0501) 40142614 UNSPSC(13.0601) 40183111 UNSPSC(15.1) 40183111 UNSPSC(17.1001) 40141700 UNSPSC(4.03) 40141714 UNSPSC(PGE) 401753AN UNSPSC(SEQIRUS) M4170 UNSPSC(SWG01) 40141714 p The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance.Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. Union Crosses Part No. SS-810-4 Part Description ' Stainless Steel Swagelok Tube Fitting, Union Cross, 1/2 in. Tube OD Specifications Body Material 316 Stainless Steel Body Type Cross Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 1/2 in. Connection 1 Type Swagelok®Tube Fitting Connection 2 Size 1/2 in. Connection 2 Type Swagelok®Tube Fitting Connection 3 Size 1/2 in. Connection 3 Type Swagelok®Tube Fitting Connection 4 Size 1/2 in. Connection 4 Type Swagelok®Tube Fitting eClass (4.1) 37020717 eClass (5.1.4) 37020590 eClass(6.0) 37200107 eClass (6.1) 37020590 Series Swagelok Tube and Adapter Fittings UNSPSC(10.0) 40142614 UNSPSC(11.0501) 40142614 UNSPSC(13.0601) 40183111 UNSPSC(15.1) 40183111 UNSPSC(17.1001) 40141700 UNSPSC (4.03) 40141714 UNSPSC(PGE) 401753AN UNSPSC(SEQIRUS) M4170 UNSPSC(SWG01) 40141714 The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance. Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. i www.swagelok.com Tees Part No. SS-600-3 Part Description Stainless Steel Swagelok Tube Fitting, Union Tee, 3/8 in. Tube OD Specifications Body Material 316 Stainless Steel Body Type Tee Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 3/8 in. Connection 1 Type Swagelok0 Tube Fitting Connection 2 Size 3/8 in. Connection 2 Type SwagelokO Tube Fitting Connection 3 Size 3/8 in. Connection 3 Type SwagelokO Tube Fitting eClass (4.1) 37020716 eClass (5.1.4) 37020506 eClass (6.0) 37020506 eClass (6.1) 37020506 Series Swagelok Tube and Adapter Fittings UNSPSC(10.0) 40142605 UNSPSC (11.0501) 40142605 UNSPSC(13.0601) 40183102 UNSPSC(15.1) 40183102 UNSPSC(17.1001) 40141700 UNSPSC(4.03) 40141729 UNSPSC (PGE) 401753AN UNSPSC(SEQIRUS) M4170 UNSPSC(SWG01) 40141729 S The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance.Function,material compatibility, adequate ratings, proper installation,operation,and maintenance are the responsibilities of the system designer and user. Caution:Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial design standards)with those of other manufacturers. 2019 Copyright Swagelok Company www.swagelok.com Tees ,. Part No. SS-810-3 Part Description Stainless Steel Swagelok Tube Fitting, Union Tee, 1/2 in. Tube OD Specifications Body Material 316 Stainless Steel Body Type Tee Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 1/2 in. Connection 1 Type Swagelok®Tube Fitting Connection 2 Size 1/2 in. Connection 2 Type Swagelok®Tube Fitting Connection 3 Size 1/2 in. Connection 3 Type Swagelok®Tube Fitting eClass (4.1) 37020716 eClass (5.1.4) 37020506 eClass (6.0) 37020506 eClass (6.1) 37020506 Series Swagelok Tube and Adapter Fittings UNSPSC (10.0) 40142605 UNSPSC(11.0501) 40142605 UNSPSC(13.0601) 40183102 UNSPSC(15.1) 40183102 UNSPSC(17.1001) 40141700 UNSPSC(4.03) 40141729 UNSPSC(PGE) 401753AN UNSPSC(SEQIRUS) M4170 UNSPSC (SWG01) 40141729 The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance.Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. Caution:Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial design standards)with those of other manufacturers. 2019 Copyright Swagelok Company 9/9/2019 0• PIVI www.swagelok.com 90' Elbows Part No. SS-600-9 Part Description ' Stainless Steel Swagelok Tube Fitting, Union Elbow, 3/8 in. Tube OD Specifications Body Material 316 Stainless Steel Body Type Union Elbow Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 3/8 in. Connection 1 Type Swagelok®Tube Fitting Connection 2 Size 3/8 in. Connection 2 Type Swagelok®Tube Fitting eClass (4.1) 37020715 eClass (5.1.4) 37020501 eClass (6.0) 37020501 eClass(6.1) 37020501 Series Swagelok Tube and Adapter Fittings UNSPSC(10.0) 40142604 UNSPSC (11.0501) 40142604 UNSPSC(13.0601) 40183101 UNSPSC(15.1) 40183101 UNSPSC (17.1001) 40141700 UNSPSC (4.03) 40141718 UNSPSC(PGE) 401753AN UNSPSC (SEQIRUS) M4170 UNSPSC(SWG01) 40141718 The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance.Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. Caution:Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial design standards)with those of other manufacturers. 2019 Copyright Swagelok Company �I I www.swagelok.com 90' Elbows Part No. SS-810-9 Part Description Stainless Steel Swagelok Tube Fitting, Union Elbow, 1/2 in. Tube OD Specifications Body Material 316 Stainless Steel Body Type Union Elbow Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 1/2 in. Connection 1 Type SwagelokO Tube Fitting Connection 2 Size 1/2 in. Connection 2 Type SwagelokO Tube Fitting eClass (4.1) 37020715 eClass(5.1.4) 37020501 eClass(6.0) 37020501 eClass(6.1) 37020501 Series Swagelok Tube and Adapter Fittings UNSPSC (10.0) 40142604 UNSPSC(11.0501) 40142604 UNSPSC (13.0601) 40183101 UNSPSC (15.1) 40183101 UNSPSC(17.1001) 40141700 UNSPSC (4.03) 40141718 UNSPSC(PGE) 401753AN UNSPSC (SEQIRUS) M4170 UNSPSC (SWG01) 40141718 S The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance.Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. IN Caution:Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial design standards)with those of other manufacturers. 2019 Copyright Swagelok Company i 1 1• 1. PIVI 90' Elbows Part No. SS-600-2R-6 j Part Description Stainless Steel Swagelok Tube Fitting, Tube Adapter Elbow, 3/8 in. Tube OD Specifications Body Material 316 Stainless Steel Bulkhead No Bulkhead Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 3/8 in. Connection 1 Type Swagelok®Tube Fitting Connection 2 Size 3/8 in. Connection 2 Type Swagelok®Tube Fitting eClass (4.1) 37030710 eClass (5.1.4) 37020501 eClass (6.0) 37020501 eClass(6.1) 37020501 UNSPSC(10.0) 40142604 UNSPSC(11.0501) 40142604 UNSPSC (13.0601) 40183101 UNSPSC(15.1) 40183101 UNSPSC(4.03) 40141718 UNSPSC (PGE) 401753AN UNSPSC (SEQIRUS) M4170 UNSPSC(SWG01) 40141718 The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance. Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. Caution:Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial design standards)with those of other manufacturers. 2019 Copyright Swagelok Company 90' Elbows Part No. SS-810-2R-8 5 � � '. Part Description Stainless Steel Swagelok Tube Fitting, Tube Adapter Elbow, 1/2 in. Tube OD Specifications Body Material 316 Stainless Steel Bulkhead No Bulkhead Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 1/2 in. Connection 1 Type Swagelok®Tube Fitting Connection 2 Size 1/2 in. Connection 2 Type Swagelok®Tube Fitting eClass (4.1) 37030710 eClass(5.1.4) 37020501 eClass(6.0) 37020501 eClass(6.1) 37020501 UNSPSC(10.0) 40142604 UNSPSC(11.0501) 40142604 UNSPSC(13.0601) 40183101 UNSPSC(15.1) 40183101 UNSPSC(4.03) 40141718 UNSPSC(PGE) 401753AN UNSPSC(SEQIRUS) M4170 UNSPSC(SWG01) 40141718 The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance.Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. IS Caution: Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial design standards)with those of other manufacturers. 2019 Copyright Swagelok Company i 0• PIVI www.swagelok.col Straights Part No. SS-600-1-6WBT / Part Description Stainless Steel Swagelok Tube Fitting, Bored-Through Male Connector, 3/8 in. Tube OD x 3/8 in. Male Pipe Weld Specifications Body Material 316 Stainless Steel Body Type Male Connector Bore Thru Bore thru Bulkhead No Bulkhead Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 3/8 in. Connection 1 Type Swagelok®Tube Fitting Connection 2 Size 3/8 in. Connection 2 Type Male Pipe Weld eClass (4.1) 37070710 eClass(5.1.4) 37020590 eClass (6.0) 37020590 eClass (6.1) 37020590 Series Swagelok Tube and Adapter Fittings UNSPSC(10.0) 40142613 UNSPSC (11.0501) 40142613 UNSPSC(13.0601) 40183110 UNSPSC(15.1) 40183110 UNSPSC (17.1001) 40141700 UNSPSC(4.03) 40141720 UNSPSC(PGE) 401753AN UNSPSC (SEQIRUS) M4170 UNSPSC (SWG01) 40141720 The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance. Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. Caution:Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial design standards)with those of other manufacturers. 2019 Copyright Swagelok Company 1 Straights Part No. SS-810-1-6WBT / Part Description Stainless Steel Swagelok Tube Fitting, Bored-Through Male Connector, 1/2 in. Tube OD x 3/8 in. Male Pipe Weld Specifications Body Material 316 Stainless Steel Bulkhead No Bulkhead Connection 1 Size 1/2 in. Connection 1 Type Swagelok®Tube Fitting eClass (4.1) 37070710 eClass (5.1.4) 37020590 eClass (6.0) 37020590 eClass (6.1) 37020590 UNSPSC(10.0) 40142613 UNSPSC(11.0501) 40142613 UNSPSC (13.0601) 40183110 UNSPSC(15.1) 40183110 UNSPSC (4.03) 40141719 UNSPSC (PGE) 401753AN UNSPSC(SWG01) 40141719 The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance.Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. !' Caution:Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial . design standards)with those of other manufacturers. 2019 Copyright Swagelok Company i www.swagelok.com Straights Part No. SS-6-TA-1-8W Part Description Stainless Steel Swagelok Tube Fitting, Male Tube Adapter, 3/8 in. Swagelok Tube Adapter 1/2 in. Male Pipe Weld Specifications Body Material 316 Stainless Steel Body Type Male Connector Bulkhead No Bulkhead Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 3/8 in. Connection 1 Type Swagelok®Tube Adapter Connection 2 Size 1/2 in. Connection 2 Type Male Pipe Weld eClass (4.1) 37020701 eClass (5.1.4) 37020590 eClass (6.0) 37020590 eClass (6.1) 37020590 Series Swagelok Tube and Adapter Fittings UNSPSC(10.0) 40142612 UNSPSC(11.0501) 40142612 UNSPSC(13.0601) 40183109 UNSPSC(15.1) 40183109 UNSPSC(17.1001) 40141700 UNSPSC(4.03) 40141719 UNSPSC(PGE) 401753AN UNSPSC(SEQIRUS) M4170 UNSPSC(SWG01) 40141719 The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance.Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. Caution:Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial design standards)with those of other manufacturers. 2019 Copyright Swagelok Company i i www.swagelok.com Straights Part No. SS-601-PC Part Description Stainless Steel Swagelok Tube Fitting, Port Connector, 3/8 in. Tube OD Specifications Body Material 316 Stainless Steel Body Type Port Connector Bulkhead No Bulkhead Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 3/8 in. Connection 1 Type Swagelok®Tube Adapter Connection 2 Size 3/8 in. Connection 2 Type Port Connector eClass (4.1) 37020711 eClass (5.1.4) 37020590 eClass (6.0) 37020590 eClass (6.1) 37020590 Series Swagelok Tube and Adapter Fittings UNSPSC(10.0) 40142613 UNSPSC(11.0501) 40142613 UNSPSC (13.0601) 40183110 UNSPSC(15.1) 40183110 UNSPSC(17.1001) 40141700 UNSPSC(4.03) 40141720 UNSPSC(PGE) 401753AN UNSPSC(SEQIRUS) M4170 UNSPSC(SWG01) 40141720 ! The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance.Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. JfS Caution: Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial design standards)with those of other manufacturers. 2019 Copyright Swagelok Company i www.swagelok.com Straights Part No. SS-811-PC , Part Description Stainless Steel Swagelok Tube Fitting, Port Connector, 1/2 in. Tube OD Specifications Body Material 316 Stainless Steel Bulkhead No Bulkhead Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 1/2 in. Connection 1 Type Swagelok®Tube Adapter Connection 2 Size 1/2 in. Connection 2 Type Port Connector eClass (4.1) 37020711 eClass (5.1.4) 37020590 eClass (6.0) 37020590 eClass (6.1) 37020590 UNSPSC(10.0) 40142613 UNSPSC(11.0501) 40142613 UNSPSC(13.0601) 40183110 UNSPSC(15.1) 40183110 UNSPSC(17.1001) 40141700 UNSPSC(4.03) 40141720 UNSPSC(PGE) 401753AN UNSPSC (SEQIRUS) M4170 UNSPSC(SWG01) 40141720 1 The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance.Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. lf� Caution: Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial design standards)with those of other manufacturers. 2019 Copyright Swagelok Company i www.swagelok.com Straights Part No. SS-600-6 ` Part Description I Stainless Steel Swagelok Tube Fitting, Union, 3/8 in. Tube OD Specifications Body Material 316 Stainless Steel Body Type Union/Reducing Union Bulkhead No Bulkhead Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 3/8 in. Connection 1 Type Swagelok®Tube Fitting Connection 2 Size 3/8 in. Connection 2 Type Swagelok®Tube Fitting eClass(4.1) 37030701 eClass(5.1.4) 37020590 eClass (6.0) 37020590 eClass (6.1) 37020590 Series Swagelok Tube and Adapter Fittings UNSPSC(10.0) 40142600 UNSPSC(11.0501) 40142600 UNSPSC(13.0601) 40183100 UNSPSC(15.1) 40183100 UNSPSC (17.1001) 40141700 UNSPSC(4.03) 40141713 UNSPSC(PGE) 401753AN UNSPSC(SEQIRUS) M4170 UNSPSC (SWG01) 40141713 ! The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance.Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. Caution:Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial design standards)with those of other manufacturers. 2019 Copyright Swagelok Company t www.swagelok.com Straights Part No. SS-810-6 Part Description Stainless Steel Swagelok Tube Fitting, Union, 1/2 in. Tube OD Specifications Body Material 316 Stainless Steel Body Type Union/Reducing Union Bulkhead No Bulkhead Cleaning Process Standard Cleaning and Packaging (SC-10) Connection 1 Size 1/2 in. Connection 1 Type Swagelok®Tube Fitting Connection 2 Size 112 in. Connection 2 Type Swagelok®Tube Fitting eClass(4.1) 37030701 eClass (5.1.4) 37020590 eClass (6.0) 37020590 eClass(6.1) 37020590 Series Swagelok Tube and Adapter Fittings UNSPSC (10.0) 40142600 UNSPSC(11.0501) 40142600 UNSPSC (13.0601) 40183100 UNSPSC(15.1) 40183100 UNSPSC(17.1001) 40141700 UNSPSC (4.03) 40141713 UNSPSC (PGE) 401753AN UNSPSC(SEQIRUS) M4170 UNSPSC (SWG01) 40141713 The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance.Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. Caution: Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial design standards)with those of other manufacturers. 2019 Copyright Swagelok Company i i 43:28 AM vmw.swagelok.com Caps and Plugs Part No. SS-60000-P a / Part Description 316 Stainless Steel Plug for 3/8 in. Swagelok Tube Fitting Specifications Body Material 316 Stainless Steel Cleaning Process Standard Cleaning and Packaging (SC-10) Configuration Plug Connection 1 Size 3/8 in. Connection 1 Type Swagelok®Tube Fitting eClass (4.1) 37020713 eClass (5.1.4) 37020517 eClass (6.0) 22560208 eClass(6.1) 37020517 UNSPSC (10.0) 40142609 UNSPSC (11.0501) 40142609 UNSPSC(13.0601) 40183106 UNSPSC (15.1) 40183106 UNSPSC (17.1001) 40141700 UNSPSC(4.03) 40141706 UNSPSC (PGE) 401753AN UNSPSC(SEQIRUS) M4170 UNSPSC (SWG01) 40141706 The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance.Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. 4T Caution:Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial design standards)with those of other manufacturers. 2019 Copyright Swagelok Company I I 9/10/2019 10:46:46 AM www.swagelok.com Caps and Plugs Part No. SS-810-P Part Description 316 Stainless Steel Plug for 1/2 in. Swagelok Tube Fitting Specifications Body Material 316 Stainless Steel Cleaning Process Standard Cleaning and Packaging (SC-10) Configuration Plug Connection 1 Size 1/2 in. Connection 1 Type SwagelokO Tube Fitting eClass (4.1) 37020718 eClass(5.1.4) 37020517 eClass(6.0) 22560208 eClass (6.1) 37020517 UNSPSC(10.0) 40142609 UNSPSC (11.0501) 40142609 UNSPSC(13.0601) 40183106 UNSPSC(15.1) 40183106 UNSPSC (17.1001) 40141700 UNSPSC(4.03) 40141706 UNSPSC (PGE) 401753AN UNSPSC(SEQIRUS) M4170 UNSPSC (SWG01) 40141706 The complete catalog contents must be reviewed to ensure that the system designer and user make a safe product selection.When selecting products,the total system design must be considered to ensure safe,trouble-free performance. Function,material compatibility, adequate ratings,proper installation,operation,and maintenance are the responsibilities of the system designer and user. Caution:Do not mix/interchange Swagelok two ferrule tube fitting end connection components(or other products not governed by industrial design standards)with those of other manufacturers. 2019 Copyright Swagelok Company Hose and Flexible Tubing 7 .�3 r / Hose Assemblies, Bulk Hose, Flexible Tubing, and End Connections ■ Core materials include metal, PTFE, PFA, vinyl, nylon, polyethylene, and rubber ■ Nominal hose sizes 1/8 to 2 in. ■ Wide range of fractional and metric end connections ■ Custom lengths available ® Optional covers, tagging, and testing ca14*0� - - - - - i Hose and Flexible Tubing 55 W Series PTFE Hose Features w Silicone covered PTFE hose. temperature extremes;cover is available in black,blue,red, ■ Smooth-bore,carbon black-filled PTFE core for applications and white. that require static dissipation. 1a PTFE material complies with FDA regulation 21CFR Part 13 3/8, 1/2,and 3/4 in.sizes and working pressures up to 177.1550 and USP<88>Class VI. 750 psig(51.6 bar). ID) Commonly used where flexibility, chemical compatibility, e Fiber braid bonded to the core with a patent-pending and exterior insulating(hot/cold)cover are desired. process supports core to reduce kinking. a Custom hose lengths and end connections available. ■304 stainless steel braid ensures hose pressure G➢1 Options include hose covers and hose tags.See page 94 containment and protects the core from abrasion. for details. Silicone cover provides smooth,noncontaminating,easy- w For electrical properties,see page 5 for details. to-clean surface and insulation from internal system fluid Silicone,,, Ceramic wrap % Carbon black-filled PTFE core 316 SS cover end connections 304 SS braid ' Fiber braid 300 series SS collar Technical Data Minimum inside Vacuum Minimum NomiTInside outside Bend Radius (28.5 in.H9 Working Buret Bulk Hose Siameter Diameter in.(cm) Temperature P6•5 kPan Pressure at Pressure at Hose Range Rated to... 70°F(2vC) 70°F(21m) Weight In.(mn.(mm) In.(mm) Static Dynamic OF rc) OF rQ psig(bar) psig(bar) Ib/ft(kg/m) 3/8(935(8.9) 0.75(19.o) 2.75(6.98) 4.40(11.2) 400(204) 750(51.6) 3000(206) 0.29(o.43) 1/2(12.7) 0.50(12.7) 0.92(23.4) 4.25(10.8) 6.38(16.2) -65 to 400 200(93) 750(51.6) 3000(2o6) 0.35(o.52) 3/4(1t;.o) 0.75(19.o) 1.19(30.2) 6.75(17.1) 6.00(20.3) (-53 to 204) 500(34.4) 2000(137) 0.50(0,74) Pressure-temperature ratings may be limlted by the end connections. Pressure-Temperature Ratings Nominal Hose Size,in. 3/8,1/2 3/4 Temperature, OF rc) Working Pressure,psig(bar) -65(-53)to 400(204) 750(51.6) 500(3a.a) SwQ*d1k - - - - - i 56 Hose,Quick-Connects,and Sample Cylinders W Series PTFE Hose Testing Cleaning and Packaging Every Swagelok W series hose Testing is performed at 500 psig Every Swagelok W series hose assembly is pressure tested with water (34.4 bar), or 225 psig(15.5 bar) if an component is cleaned in accordance at room temperature for 30 seconds to end connection is rated below 500 psig with Swagelok Standard Cleaning and a requirement of no detectable leakage. (34.4 bar). Packaging(SC-10)catalog, MS-06-62. Ordering Information Custom Hose Assemblies Build a hose assembly ordering number by combining the designators in the sequence shown below. Typical Ordering Number o © Bo o BBo Bonn SS - WC 8 TA8 KC16 - 28 - BL - PG or 71CM - BL PG I In. I cm I LU Material 0 Options 13 Two Elbow Orientation End Connections For multiple options,add designators Only include a value in the assembly SS=316 stainless steel with a dash between each designator number when both end connections are HC=Alloy C-276 A=Armor guard elbows. See page 64 for values and 0 Hose F=Fire jacket further information. WC=W series carbon black-filled G6=Spiral guard, black PTFE hose with silicone-cover 07=Spiral guard, blue and ceramic wrap G8=Spiral guard,yellow Splices Nominal Hose Size,in. SP1 =1 splice 6-3/8 SP2=2 splices 8=1/2 Mat Tags 12=3/4 MA=Gray MO=Orange MS=Blue MP=Purple RE End Connections MC=Brown MR=Red See End Connection Designator MG=Green MW=White column in tables on pages 61 to 70, MK=Black MY=Yellow �)l Overall Length MN=Pink Parma Tags Inches or centimeters,in whole PA=Gray PO=Orange numbers.Include CM as shown for PB=Blue PP=Purple centimeter lengths. PC=Brown PR=Red Typical maximum one-piece hose length PG=Green PW=White is 300 in.or 762 cm.Longer assemblies PK=Black PY=Yellow may be spliced;specify splices under PN=Pink Options.See page 4 for more Other Tags information about splices. T=Lanyard tag T2=Two lanyard tags Silicone Cover Color Specify text for tags. see Hose Tag BK=Black Text table,page 95. BL=Blue RD=Red See page 94 for detailed descriptions WH=White of options. 3 y. s/4 in.available with blue and red only. C7W010 & i CR' ILMMO ZHEJIANG KINGSTONE FLUID EQUIPMENT KINGSTONE COJTD Product name : Stainless steel high pressure clamps Material : A276-304 proper temperature : -18°C-200°C Specification Checklist Specifications 1.5" 2" 2.5" 3" 4" 6" Model Part KSTHPLS KSTHP2 KSTHP2.5 KSTHP3 KSTHP4 KSTHP6 Number: Apply pressure 85 70 55 45 34 20 ( PN) 5 Remarks: 1 : Size tolerance : OK. 2 : Surface quality : OK. 3 : The material listed above has been tested and complies with the terms of the contract & the standard . 4 : If any quality query, please clarify via phone call or fax to explain the situation. 5 : Tel : 0577-86997808 ��NGSTONF�, IN Goa Zhejiang Kingstone g41. .. � D. all Quality ins epartment Date: Nov 21",2018 I I 11/16/2018 Tri Clamp Type I I Standard Sanitary Gaskets I Rubber Fab Rubber Fab Search... a(Garlock Hygienic Technologies company Call Us: 866-442-2959 PRODUCTS i i-R':jIC I R I _1f:Cf ,PA = h:;j',11 ;g'ili, i 1i3i;_i iA, ;C I Sanitary Gaskets Home/Products/ a i ry as s/Standard Gaskets/Tri-Clamp@ Type I Ask a Question • Standard Gaskets Tri-Clamp® Type T ® Request a Quote ri-Clamp@ Mini Tri-Clamp®Type I Sanitary Gaskets are used widely in the Food, Dairy, Schedule V Beverage, Biotech, Pharmaceutical, and all other 0 Subscribe to our Newsletter Tri-Clamp@ Type Sanitary Process industries to seal clamp connections II Flanged in sanitary pipe lines. Envelope ResUll!i:�,a'. Rubber Fab sanitary Tri-Clamp@ gaskets are ADI Tri-Clamp@ Free(Animal Derived Ingredient Free)*Buna N is not DIN/ISO USP Class VI or ADI Free Standard Tri-Clarn p@L Part#s Ansi Flange Full Tri-Clam Detectomer Part#s Face Ring 1S0#300# Tri-Clamp Gasket Dimensional Chart APC DetectomerA Brochure Bevel Seat Gasket Validation Brochure Camlock Sanitary Fittings I-Line Tri-Clamp@ Mini John Perry Tuf-Steel@ Q-Line Tuf-Flex@ Manway Gaskets Detectamers!�Z • Specialty Gaskets Material Guidelines • Perforated Plates r— • Orifice Plate Gaskets I • Screen Gaskets O-Rings Detectomer@ Metal Detectable/X-ray Inspectable Gasket O.D. Bead Center— 0 75 Brewery Gaskets& OUTSIDE Hoses Gasket I.D. BEAD Sanitary Hose&Hose Assemblies Tubing .085 Sight Gauges INSIDE Hose Fittings& BEAD Adapters Sanitary Clamps Size Part# Gasket I.D. Gasket O.D. Bead Center Torque-Rite@&Smart V, 40MP -100 .900 1.984 1.718 Clamp"^ 1-1/2" 40MP -150 1.400 1.984 1.718 Validation Products 2" 40MP -200 1.900 2.515 2.218 Pump Replacement Parts 2-1/2" 40MP=250 2.400 3.050 2.781 https://www.rubberfab.com/products/sanitary-gaskets/standard-gaskets/tri-clamp-type-i 1/2 I 11/16/2018 Tri Clamp Type I I Standard Sanitary Gaskets I Rubber Fab Carton Filler 3" 40MP_-300 2.900 3.579 3.281 Replacement Parts 4" 40MP_-400 3.869 4.682 4.344 Sanitary Tube Supports 6" 40M0_-600 5.817 6.507 6.156 Available Materials Platerial Certifications • Buna N(40MP_U-XXX) • EPDM (40MPF-XXX) • FKM Fluoroelastomer(40MPI -XXX) • Platinum Silicone(40RXPX-XXX) • PTFE(40MP_G-XXX) • Tuf-Steel@(40MPG-TS-XXX) • Tuf-Flex@(A40MPGR-TF-XXX) • Metal Detectable/XRay Inspectable *XXX=Size Designation Please refer to the Part Numbering links on this page for complete part numbering details Nerve Products S2rv. Hesc ! S S ::rce^ ��r.c Shct•�^ /About kub:,.er��b Cortar,t �s Frvac} .statement ,tamai. %6�inokGeld Dave5p,vi,;Ni 07F71 Si[e[ri SVGA F-,6,,,;I.:gin, „„ur.- https://www.rubberfab.com/products/sanitary-gaskets/standard-gaskets/tri-clamp-type-i 2/2 2/8/2019 Envelope Type III Seal I PTFE Sanitary Gaskets I Rubber Fab Rubber Fab Search... a Garlock Hygienic Technologies company Call Us: 866-442-2959 PRODUCTS FI Y10E;i tit i:,I I_ 1,L Sanitary Gaskets Home/Products/5aDitaly Gaskets/Standard Gaskets/ Envelope Type III Ask a Question • Standard Gaskets Envelope Type III ® Request Product Information Tri-Clamp@ Mini Tri-Clamp@ Type I Schedule V A PTFE envelope gasket has the chemical resistance Tri-Clamp@ Type of PTFE and the elastomeric characteristics of EPDM Subscribe to our Newsletter II Flanged or FKM Fluoroelastomer.The PTFE envelope gasket Envelope meets FDA and USP Class VI standards. Tri-Clamp@ ' R;' L'UICtiS' DIN/ISO Ansi Flange Full Envelone Gasket Part#s Face Gasket Validation Brochure Ring 150#300# i ry Fittings APC Tuf-Flex@ Bevel Seat Camlock Petectomersf•J I-Line Tri-Clamp@ Mini John Perry Tri-Clamp@ Type I Q-Line Tri-Clamp@ Type II Manway Gaskets Material Guidelines • Specialty Gaskets • Perforated Plates • Orifice Plate Gaskets • Screen Gaskets O-Rings Detectomer® Metal Detectable/X-ray Inspectable Brewery Gaskets& Hoses Gasket O.D. Sanitary Hose&Hose Assemblies �Bead Center -{ Tubing I Viton, EPDM Sight Gauges PTFE Gasket I.D. —� Hose Fittings& Adapters Sanitary Clamps Size Part# Gasket I.D. Gasket Bead O.D. Center Torque-Rite@&Smart Clamp"' 1" A40MPGP-100-X 0.900 1.985 1.718 Validation Products 1-1/2" A40MPGR-150-X 1.400 1.985 1.718 Pump Replacement 2" A40MPGR-200-X 1.900 2.500 2.218 Parts Carton Filler 2-1/2" A40MPGR-250-X 2.400 3.025 2.781 Replacement Parts https://www.rubberfab.com/products/sanitary-gaskets/standard-gaskets/envelope-type-iii 1/2 i i 2/8/2019 Envelope Type III Seal I PTFE Sanitary Gaskets I Rubber Fab 3" A40MPGR-300-X 2.900 3.550 3.281 Sanitary Tube Supports 4- A40MPGR400-X 3.869 4.675 4.344 6" A40MPGR-600 X 5.817 6.668 6.156 8" A40MPGR-800-X 7.775 8.669 8.160 10" A40MPGR-1000-X 9.771 10.664 10.140 12" A40MPGR-1200-X 11.725 12.659 12.145 *X=Insert Material E= EPDM V= FKM FLUOROELASTOMER Available Sizes Standard Available Sizes in Flanged Also Available Non Flanged V-12" Please refer to the Part Numbering links on this page for complete part numbering details Home Products Scr:;ces Rescurces are shov.`s AbocL RL:UbCY,,ab L'an:acL Us Privacy SLaLcinerit �iL^aiap 7(,131ool,ileld Dibae Spinal,N 1 0787 -.NI Fe. .973-579-,275 site.I)4�>:i`;1 I-is":3'kE'.- i ii i'.;7`iS https://www.rubberfab.com/products/sanitary-gaskets/standard-gaskets/envelope-type-iii 2/2 Vacuum pumps/generators Medium piab CLASSIC Xi40-3 Patented COAX®technology inside-the most energy efficient ejector technology. _ The Xi cartridge offers high flow at deep vacuum levels to 95 -kPa. 41 Suitable for non-porous applications when deep vacuum level is needed. Large capacity range, available with 1 to 6 COAX®Xi40 three-stage cartridges. A smaller piCLASSIC can easily be upgraded with more capacity if needed. Low-weight, configurable and modular design. Easy disassembly for maintenance. Technical data Description Unit Value Feed pressure,optimum MPa , 0.46 Feed pressure,max. MPa 0.7 Max.vacuum -kPa 98 Internal volume,vacuum chamber, 1-2 cartridges cm3 140 Internal volume,vacuum chamber,3-4 cartridges cm3 246 Internal volume,vacuum chamber,5-6 cartridges cm, 353 Noise level at 40-kPa&optimal feed pressure dBA 64-69 Temperature range °C -10-80 Materials i PA,Al,SS,NBR(FKM),CuZn Technical data, specific Weight Value(g) 1-2 cartridges 500-550 3-4 cartridges 720-790 5-6 cartridges 795-875 Silencer 120 Vacuum gauge 50 Vacuum flow at recommended feed pressure (0.45 MPa) COAX®cartridge Air Vacuum flow(NI/s)at different vacuum levels(-kPa) consumption NI/s 0 1 10 1 20 1 30 40 1 50 1 60 70 80 1 90 Xi40-3 x1 1.83 5.9 3.0 2.0 1.3 0.73 0.58 0.43 332 0.18 0.03 Xi40-3 x2 3.66 11.8 6.0 4.0 2.6 1.46 1.16 0.86 0.64 0.36 0.06 Xi40-3 x3 5.49 17.7 9.0 6.0 3.9 2.19 1.74 1.29 0.96 0.54 0.09 Xi40-3 x4 7.32 23.6 1 12.0 1 8.0 5.2 2.92 2.32 1.72 1.28 0.72 0.12 Xi40-3 x5 9.15 25.1 1 13.5 9.5 6.5 3.65 2.90 2.15 1.60 0.90 0.15 Xi40-3 x6 11.0 28.3 1 15.3 11.4 7.8 4.38 3.44 2.58 1.92 1.08 0.18 Evacuation time at recommended feed pressure (0.45 MPa) COAX®cartridge Air Evacuation time(s/1)to reach different vacuum levels(-kPa) consumption NI/s 10 1 20 30 40 50 1 60 1 70 80 90 Xi40-3 x1 1.83 0.022 0.062 0.12 0.22 * 0.37 0.57 0.84 1.2 2.2 Xi40-3 x2 3.66 0.011 0.031 0.06 0.11 0.19 0.29 0.42 0.6 1.1 Xi40-3 x3 5.49 1 0.007 0.021 0.04 0.07 0.12 0.19 0.28 0.4 0.73 Xi40-3 x4 7.32 0.006 0.016 0.03 0.055 0.09 0.14 0.21 0.3 0.55 Xi40-3 x5 9.15 0.0044 0.012 0.024 0.044 0.07 0.11 0.17 0.24 0.44 Xi40-3 x6 11.0 0.004 0.010 0.020 1 0.040 0.06 0.10 0.14 0.20 0.37 J MANUFACTURER APPENDIX B SPEC SHEETS ECR-190089 M�a C ■ Advanced t M5 Controller AEC maximum)t,_ 3.5" HMI color s These advanced features as Ada 1 mil i i 111 Eli 1111 Fp., ppppw C4, ERTz " f ■ E I Quick Link:cecomp.com/is ; Agency Approval Controls • f0.25%Test Gauge Accuracy Factory Mutual Approved Intrinsically Safe for Hazardous Front button turns gauge on and starts auto shutoff timer Locations USA&Canada BL models:Front button turns gauge on and starts auto shut- • 316L Stainless Steel Sensor T30 Ta=-40*C to 82°C;T4 Ta=-40"C to 66-C off timer.liold front button to operate backlight. 0 All Metal Housing CL I Zone 0 AExft fa IIC Calibration T3 Ta=-40°C to 82°C;T4 Ta=-40"C to 66°C Non-interactive zero and span pots,±10%of range Ranges and Resolution Top-mounted potentiometers covered with reusable label 1M I1S See table below.Engineering units are iectory set. Weight Resolution is fixed and limited to available display digits APPROVED MAo 20,200,or 2000 range codes display 19.99,199.9,or 1999 9 Dunces(approx.),shipping wL 1 pound(approx.) See DPG2000B D4 series for models with increased resolution Housing Materials and Circuit Board Protection Accuracy Epoxy powder coated aluminum case,rear cover,and bezel Accuracy Includes linearity,hysteresis,repeatability Front and rear rubber gaskets,polycarbonate label CPCQ Mp. Sid.accuracy;-�0.25%of full scale_1 least significant digit Stainless steel stiffener plate to reinforce sensor area Conformal coating on circuit boards for moisture resistance HA accuracy option: ±0.19'o FS:0 LSD,see range table for availability Connection and Sensor Material Sensor hysteresis: s0.015%FS,included in accuracy 1l4"NPT male fitting Sensor repeatability: ±0.01%FS,included In accuracy Sensor and all wafted parts are 316L stainless steel Display Overpressure,Burst,Vacuum Service �� s 3 readings per second nominal display update rate 3000 ps€g sensor: 5000 psig overpressure 3.5 digit(1999)LCD,0.5"H digits 5000 pslg sensor: 7500 prig overpressure BL models:Red LED display backlight All others: 2 K pressure range overpressure Batteries Burst pressure; 4 x sensor pressure rating,or 10,000 psi, Two 1.5 V AAA(Panasonic LR03)agcaline cells whichever is less -_ B: Approx,1000 hours Vacuum service: 15 psig,±15 pslg,100 psig,200 pslg, BL: Approx.150-1000 hours depending on backlight usage 15 psia,30 psia,100 lists Low battery indication:"LOBAT"on display Temperature Ranges Auto Shutoff Comperualed: 32 to 1587(0 to 70*C) Factory set for 5,10,or 30 minutes Storage: -40 to 203-F(-40 to 95-C) Operating: -40 to 180OF(-40 to 82°C) on How to Specify Type Of vacuum Res az/ln°vacuum Res Torc absolute Ines bar vacuum Res kPa vacuum Res "cm"vacuum Res 0PG20008 terrge-5 opA" 5 minuts shutoff 15PSIVAC* 0.oi 240ZIWAC" 1 760TORRA 1 1BARVAC• .001 looliAVAC* 0.1 1000GCMVAC* 1 0PG200o6 range-tit apvolm 10 minute shutoff pslabeolute Res orAr>zabsolute Res 16ODMRRA 1 bar absolute Res kPeabsolute Res g/cm,absolute Res OPG20008ranpa�Opprfaru 30 minute shutoff 15PSiA Of 240ZINA 1 mmHg vacuum Rn 16ARA 0.001 100KPAA 0.1 1000GCMA• 1 0PG2000BBL range-B goh'ons 5 minute shutatf,back it display 30PSIA 0.1 480ZINA 7 7fi0MMHGVAC" 1 2BARA 3.0p1 20OKPAA 0.1 2000GCMA" 1 DPG20000BL range-10 opyorrs 10 minute shutatt,backlit display 100PSIA 0,1 160OZINA 1 mmHg absolute Res 7BABA D.OI 70CKPAA 1 glem'pressure Res OPG200088L range--tit oprlcne 30 minute shutoff,backlit display IX pen-leiRes a*'premirs Res 760MMHGA 1 bar pressure Ras kPa preesure Role 200GCMGI 0.1 3PSIG• '01 50ZING- 0.1 1600MMHGA 1 1 BARG 000i 20KPAG* 0.01 350GCMG* 1 Range ea table at left 5PSIG* J.01 807ING* MI mmHg preMura I Has 211ARG All 35KPAG* O.i 1000GCMG 1 G=gauge reference pressure 15PSIG 01 24011NG• 1 150MMHGG, 0.1 40ARG 0.01 100KPAG 0.1 2000GCMG 1 VAC=gauge reference vacuum A=absolute reference 30PSIG 0.1 4BDZING 1 260MMHGG" 1 76Ai1G D.01 2001�AG 0.1 kglernt vacuum Res Range codas listed as 2,20,200,or 2000 display 1.999,19.99, 60PSIG 0.1 950ZING 7 760MMHGG 1 146ARG OAi 400KPgG 1 iKGCMVAC* O OOt 199.9,or 1999 respectively. 100PSIG 0.1 1800ZING 1 1800MMHGG 1 20BARG 0.01 7001SPAG 1 kp/cm absolute For ranges requiring 4 digits including 3000 and 5000 psi,see = OPG?.0008 O4 series, 2WPSIG 0.1 InH2O vacuum Res mmH 0 pressure ltos 35DARG* 0.1 140OKPAG 1 1KGCMA 0,001 If vacuum gauge requires a minus sign,please specify. 300PSIG` 1 4001NH2OvAC- 1 2gWMMH2OG" 1 70BARG 0.1 2000KPAG 1 2KGCMA 000t 500PSIG 1 InH2O absolute fps cmH 0 vacuum Ras 140BARG 0.1 MPa pressure Res 7KGCMA g,01 Example:OP02A006BL30OPSIti-6 1000PSIG 1 400INH2OA 1 laooemH2OVAC" 1 200MG 0.1 0.7MPAG O.ODI Battery powered,backlit display,0-300 prig,5 minute auW shutoff, 1VCm=pressure flee Note:Model number on gauge may vary from part number ordered. 2000PSIG 1 85CINH2OA 1 cmH2O absolute Res 350RMG" 1 1.4MPAG 0.001 iKGCMG 0.001 inHg vacuum Re>s inH 0 pressure Rea 1000CMH2OA 1 atm vaclwm lies 2MPAG 0001 2NGCMG 0.001 Option s-add to end of model number.Sea rice list for details. 301NHGVAC* 0.1 85INN20G* 0.1 2000CMH2OA 1 1ATMVAC 10.00i 3.5MPAG 0.01 4KGCMG 0.01 HA Hi accuracy,s0.1%FS s1 LSO.See range table. inHg absolute floe 1401NH2Of 0.1 cmH pressure lies atm absolute Rae 7MPAG 0.01 7KGCMG 061 PM Penal mount,4.1"x 4.1" 301NHGA- 0.1 4001NH2OG 1 2Dor MH2OG* 0.1 1ATMA 0.001 14MFAG 0.01 14KGCMG 0.01 TP TO931198 Part ion date;5 t oi or case te 601NHGA i01 850INH2OG 1 350CMH2OG* 1 2ATMA i3.OD1 20MPAG 0.01 20KGCMG 0.01 NC NlSrta traceability documentation 5 points and a paints and date 2001NHGA 0.1 ftH2O pressure Rea 1000CMH2OG 1 7ATMA 0.01 35MPW 01 35KGCMG• 0.1 TIP inHg prossure Res 7FTH2OG* 0.01 2aeoCMH2O0 1 aim pressure Bee 70KWMG 0.1 Top gauge port Primadly used with fire pressure BINHGG* .tit 12F rmw 001 mbar vacuum Res 1ATMG ).001 applleations,Not available with NEMA 4X models. c� 140KGCMA 0.1 101NHGG* 0D1 38FiH2DG* 0.1 1000MBARVAC" 1 2ATMG 0,061 260KGCMG 0.1 Acoessorie"rder separately 301NHG6• 0.1 70FTH2OG 0.1 mbarebsolute Rea 4ATMG Ojai. 350KGCMG* 1 RB 601NHGG 9LI 140FTH2OG 0.1 1600MBARA 1 7ATMG 0.01 Hlgh visibility crangs rubber boot protects gauge 120INHOG 0.1 230FTH2OG• 1 2000MBARA 1 14ATMG 0,01 for portable applicallons.Not available with NEMA 4X models. 200INHGG 10.1 480FT112O131 1 mbar pressure Res 20ATMG 0A1 SCR1455 400INHGG I 1 7ooFTH2OG 1 200MBARG* 0.1 34ATMG* 01 Filter screen fitting keeps debris out of gauge sensor.For food vacuum packaging applications. 6001NHGG 1 1150FfH2OG 1 350MBARG- 1 70ATMGA0. 303SS body,100 micron 304SS screen. 10001NHGG 1 1000MBARG 1 14UATMG CONI48S 2000MBARG 1 100ATMG Quick connector to install or remove gauge with- Out tools.304 stainless steel,urethane seal. C �+®e ■ r Div.of fyar 1220 American Way Libertyville,IL 60048 SOLUTE PROCESS INSTRUMENTS 8QD-842-0315 Cecomp.Com 008-18 Instructions DPG2000B Series Approved Locations Operation A low battery indication(either LOBAT or a®symbol depend- The OPG2000B series is approved for use in the following ✓Use within the pressure range indicated on gauge label. ing on the model)will be shown in the upper left-hand comer Hazardous Locations. ✓Avoid permanent sensor damage[Do not apply vacuum to of the display when the battery voltage falls sufficiently.The IS Class I Div t Gp ABCD gauges not designated for vacuum operation. batteries should be replaced when the indicator comes on or T3C Ta=40eC to 82°C; T4 Ta=—40"O to 66°C. ✓Use only with media compatible with 316L stainless steel. unreliable readings may result. CL I Zone 0 AEx/Ex Is IIC ®Gauges are not for oxygen service.Accidental rupture of WARNING: Replace batteries with approved type in non- T3 Ta-—4OeC to 82°C; T4 To=—WC to 661C sensor di hazardous locations only.Replace Instagadon diaphragm may cause silicone oil Inside sensor 10 y P ace batteries with two Panasonic react with oxygen. LR031-5 V AAA alkaline cells. ✓Read these instructions before installing the gauge- ✓The DPG2000B series gauges must only be operated In Replace both batteries with new ones at the some time.00 Configuration may be easier before the gauge is installed. specified ambient temperature ranges, not mix different types of batteries.Substitution of components Contact the factory for assistance. Maintenance may Impair intrinsic safety, ✓Installation instructions must be strictly followed In compii- ✓The non-metallic cover of the pressure gauge is considered 1. Remove the 6 Ph[Illoncepa ANSI witSA Intrinsic a Safety National Standard NEC 504 ur to constitute an electrostatic discharge hazard.Clean only screws on the back of ANSIASA RP 126 and the National Electrical Code. with a damp cloth the unit ✓Outdoor or wash down applications require a NEMA 0 ✓Batteries must be replaced when the low battery indication 2. Remove batteries by lift- gauge or Installation In a NEMA 4X housing. comes on to prevent unreliable readings. Ing up the positive and of ✓Use}ittktgs appropriate for the pressure range of the gauge. ✓WARNING: Replace batteries with approved type In non- the battery(opposite the ✓Due to the hardness of stainless steel,it is recommended hazardous locations only, bend t taking care not to r that a thread sealant be used to ensure leak-free operation. bend the spring. ✓For contamInatied media use an ✓Approved batteries are two Panasonic a so a time, V AAA 3. Distend old batteries - - appropriate screen a fitter alkaline cells.Replace both batteries at the same time, properly, do not discard to keep debris out of gauge port. ©WARNING: Substitution of batteries may Impair intrinsic Into fire, sources of ✓Avoid permanent sensor damage!NEVER Insert objects Into safety.Improper voltages will damage the gauge. t' gauge port or Wow out with compressed ay. g � g extreme heat, or in any ✓WARNING:Substitution of components may Impair Intrinsic hazardous manner. ✓Remove system pressures before removing or Installing safety.Do riot modify the gauge. gauge. 4. Install batteries with correct orientation.The negative(flat) ✓These products do not contain user-serviceable parts end of each battery should be inserted first facing the bat- ✓Install or remove gauge using a wrench on the hex fitting except for batteries.Contact factory for repairs,service,or tery holder spring. only.Do not attempt to turn by forcing the housing. refurbishment. 5. Replace the back cover,including the rubber gasket. DS-DPG2000B rev.12-12 s - Press the button on the front of the gauge to activate the See calibration prepara- display.The pressure readings are than displayed and updated tlon section. See rear label II�� Jtle approximately 3 times per second. of gauge for potentiometer The gauge will stay on for a period of time determined by the Identification model i lent fu- auto shutoff time.After this time the gauge will automatically cation and pressure range. shut off to conserve battery life. Remove calibration label to qqqw Display Backlighting(BL models only) expose opening with call- Display backlighting can be turned on by press(ng and hold- bration potentiometers. This :. ing the front button.When the button is released the display label may be reused marry o.Te I backllghbrig turns off. Frequent use of the display backlight times if kept clean. w NVT_ shortens battery life. Zero calibration should be done before span calibration, Zero for gauge reference ranges . With the pressure port open to the ambient,adjust the Zero Calibration must only be done In a ton-hazardous area.See control until the gauge reads zero,with the"—"sign occasion- Gauge reference reads zero with the gauge port open. Installation and Precautions above, ally flashing. Bipolar ratifies read positive pressure and vacuum ht the same Gauges are calibrated at the factory using equipment traceable Zero for absolute reference gauges units,and zero with the gauge port open. to NIST.There Is n0 need to calibrate the gauge prior to use. Apply full vacuum to the gauge.Adjust the Zero potentiometer Sealed reference reads zero with the gauge part open and Is Calibration should only be performed by qualified individuals for a display indication of zero. referenced ref re 14,7 psi.Used for h the psi and up. using appropriate calibration standards and procedures Span for gauge reference pressure gauges and absolute a Contact factory tt assistance is required. Gauges can be reference gauges Absolute reference reads atmospheric pressure with gas g returned to factory for certified calibration and repairs.NISi Apply full-scale pressure and adjust the Span potentiometer port open and zero at full vacuum.With the gauge pat open fraceabilry is available. for a display indication equal to full-scale pressure Indication to atmosphere, it is normal for readings to fluctuate due to of the calibrator.continuously changing barometric pressure. Calibration intervals depend on your quality control program requirements.Many customers Ise an annual calibration cycle. Span for gauge reference vacuum gauges oeeardr The calibration equipment should be at least four times more Apply full vacuum to the gauge.Adjust the span potentiometer accurate than the gauge being calibrated. to match the gauge display to the vacuum Indication of the The calibration system must be able to generate and measure calibrator. •� pressure and/or vacuum over the full range of the gauge. Verify pressure indications at 0%,25%,50%,75%,end 100% \ A vacuum pump able to produce a vacuum of 100 microns of full scale and repeat calibration as needed to achieve best (0.1 torr or 100 0 mlllltorr)or lower is required for vacuum and accuracy over desired operating range. absolute gauges. Replace the calibration label. Warning: Never apply vacuum to gauge not designated for vacuum service.Permanent sensor damage may result. Cecomp maintains a constant effort to upgrade and Improve its products- It Is good practice to Install fresh batteries before calibration. Specdicalxxts are subject to ehanpe without notice.See cecomp.com for latest product Information.Consurt factory for your specific mquimments. Allow the gauge to equalize to normal room temperature(about WARNING:This product can CAM you to chemicals Imfudinp 20 minutes minimum)before calibration. lead,nickel and Chromium,which are known to the Siete of lAlftenlla to cause Cancer or birth defects or other reproductive harm.For more information go to www.P6nVamingsca gov �A 9i C E C 0 S V S P Div,of A nmkrm F%0cE9s hV&� 122O American Way Libertyville,IL 00048 CeCOM COM ON-042-0315 p' - - - - � i Quick Disconnect Thermocouples - with Miniature Connectors p `--�' Standard and Metric Dimensions ✓Glass Filled Nylon Connector Body Rated to 220°C (425°F) ✓304, 310, 316, 321 SS, Inconel, i 11Pfli :1 or Super OMEGACLAD°XL Sheath oo Standard 6 and 12" Lengths Available? �- ✓Sheath Diameters from 0.010 to 0.125" I g. ✓Grounded, Ungrounded, or Exposed Junction - - ✓ Mating Connector, Cable Clamp, and Locking Clip Included FREEI ✓Color-Coded SMP Miniature Connector Termination — ✓Custom Lengths Available _ 41 W Note:Probes with 0,032'diameterand larpersupplied with miniature connector mottled to probe.Smaller sized probes supplied with removable Shown smaller connector All Type-IV probes supplied with removable connector, than actual size. Matingg Connector with Cable Clamp lticiuded and PCLM Cable Clamp - Standard Dimensions-Mini Quick Disconnect Probes o Ordor Allo /ANSI Color Code Sheath Di..Inches Model No.6"Length Model No.12"Length Iron-Constantan 0.01 SICSS-010" 6 SICSS-010• -12 304 SS Sheath 0.02 SICSS-020 ' 6 SICSS-020" -12 0.032 SICSS-032 •6 SICSS-032 '-12 J 0.04 JMQSS-040 JMQSS-040 .12 0.062 JMQSS-062• 6 JMQSS-062' 12 0.125 JMQSS-125' 6 JMQSS-125'-12 CHROMEGA ALOMEGA• 0.01 SCASS 010' 8 SCASS 01 •-12 304 SS Sheath 0.02 SCASS-020' 6 SCASS-012 ' -12 p 0.032 SCASS-032'-6 SCASS-032•-12 I^` 0.04 KMQSS-040'-6 KMQSS-040 '-12 u v 0.062 KMQSS-062' 6 KMQSS-062 '-12 0.125 KMQSS-125'-6 KMQSS-125'-12 CHROMEGA•-ALOMEGA" 0.01 SCAXL-01 8 SCAXL-010('-12 Super OMEGACLAD•XL 0.02 SCAXL-020f• •6 SCAXL-020(•-12 Sheath 0.032 SCAXL-032 `-B SCAXL-032' 12 0.04 KMQXL-040'-6 KMQXL-040• 12 0•062 KMQXL-062"-6 KMQXL•062' 12 0.125 KMQXL-125'-6 KMQXL-125•-12 OMEGA-PO-OMEGA-N• 0.02 SNNXL-020' 6 SNNXL-020' 12 super OMEGACLAD•XL 0.032 SNNXL-032(';-6 SNNXL-032 •;-12 Sheath r� n 0.04 NMQXL-040�:,)-6 NMQXL-040' 12 �ppn\���JJI 0.062 NMQXL-062 6 NMQXL-062' 12 0.125 NMQXL 125'-6 NMQXL-125'-12 CHROMEGA•-Constantin 0.01 SCXSS-010'-6 SCXSS-010'-12 304 SS Sheath 0.02 SCXSS-020 -6 SCXSS-020' 12 0,032 SCXSS-032 "-6 SCXSS-032'-12 0•04 EMQSS-04 6 EMQSS-040'-12 0.062 EMOSS-062' EMQSS-062•-12 0.125 EMQSS-126• EMQSS-125•-12 Copper-Constantin 0.02 SCPSS-02 '-6 SCPSS 020'-12 304 SS Sheath 0.032 SCPSS-032'-6 SCPSS-032•;-12 0.04 TMQSS-040•-6 TMQSS-040•-12 0.062 TMQSS-062 '-0 TMQSS-062'-12 0.125 TMQSS-125 ' 8 TMQSS-12 •-12 OMEGALLOY- 0.01 SNNIN•010000(((()))6 SNNIN-010((')) 12 Inconel 600 Sheath 0.02 SNNIN 020(•-B SNNIN-020(')12 T tg 0.032 SNNIN-032'-6 SNNIN-0_322*-12 0.04 0 25 NMQIN-125•)-6 NMQIN 25' 12 0.062 NMQIN-062• NMQIN-062' 12 •Specifyl/'unetion typo:E(exposed),G(grounded),or U/ungrounded).tOther lengths available,consult Sales Department. To order with-Inconel Sheath, Change"SS"in model no.to"1N'No additional al, type J is not available in Inconel 0,010 diameter.Example:KMOIN-125G-6. For motric probe configgurations with glass fillet!nylon connector body view online and remove the"H"from the model number. To Order with 310,31W or 321 SS Sheath,change SS'in model no.to 31t1SS",'316SS or 321SS',respectively.No add?charge.Example:TMO321SS-125G-6. Ordering Example:KMOSS-125G-6,subminiature quick-disconnect probe, Type K,0.125.OD stainless steel sheath,6"length,grounded junction. KMQSS-M30OU--300,subminiature quick-disconnect probe, Type K,stainless steel sheath,3 mm OD,300 mm length,ungrounded junction. A-53 Intrinsic Safety Circuit g Des n Making instruments 3.12 of the ANSI/ISA-RP 12.6-1987 intrinsically safe need not Intrinsically Safe Intrinsically Safe as any device which will neither Apparatus Applications(%) generate nor store more than 1.2 seem like a nightmare. Here, volts, 0.1 amps, 25 mW or 20 NJ. the basics of intrinsic safety Switching 32.0% Examples are simple contacts, circuit design are discussed. mechanical Switches 85.0% thermocouples, RTDs, LEDs, proximity switches 15.0% noninductive potentiometers, and resistors.These simple devices do 2-wire transmitters 22.0% not need to be approved as Paul S.Babiarz Thermocouples&RTDs 13.0% intrinsically safe. If they are Load cells 8.5% connected to an approved Solenoid valves 4.5% intrinsically safe associated Potentiometers 2.5% apparatus (barrier),the circuit is LEDs 2.0% considered intrinsically safe. I/P transducers 2.0% A nonsimple device can create or Other devices 13.5% store levels of energy that exceed Total field devices 100.0% those listed above.Typical examples are transmitters, transducers, Intrinsic safety prevents instruments solenoid valves, and relays.When and other low-voltage circuits in Figure 1.Current use of intrinsically safe these devices are approved as hazardous areas from releasing apparatus in hazardous areas. Intrinsically Safe, under the entity sufficient energy to ignite volatile device, also known as a barrier or concept, they have the following gases.Although it is used widely in intrinsically safe associated entity parameters:Vmax(maximum Europe to safely install and operate apparatus;and the field wiring. voltage allowed); Imax(maximum instrumentation circuits in When designing an intrinsically safe current allowed);Ci (internal hazardous areas, it has caused circuit, begin the analysis with the capacitance);and Li (internal much confusion in North American field device.This will determine the inductance). markets.Many users have heard of type of barrier that can be used so The Vmax and Imax values are it and want to know more; however, that the circuit functions properly straightforward. Under a fault most feel uncomfortable applying under normal operating conditions condition, excess voltage or current intrinsically safe products.One but still is safe under fault conditions. reason is that intrinsic safety has could be transferred to the been a part of Section 504 of the More than 85%of all intrinsically intrinsically safe apparatus(field National Electric Code only since safe circuits involve commonly device).If the voltage or current 1990. In addition, the number of known instruments. Figure 1 shows exceeds the apparatus'Vmax or different products on the market and the approximate use of intrinsically Imax, the device can heat up or seemingly endless calculations safe apparatus in hazardous areas. spark and ignite the gases in the make applying intrinsic safety seem hazardous area.The Ci and Li like an engineer's nightmare. An intrinsically safe apparatus (field values describe the device's ability device) is classified either as a to store energy in the form of This is the first of a series of short simple or nonsimple device.Simple internal capacitance and internal articles that explain how to make apparatus is defined in paragraph inductance. the most common field devices safe Area Intrinsically Safe Barrier Hazardous Area (thermocouples, RTDs, contacts, solenoid valves, transmitters, and displays)intrinsical) safe.We will CurrentResistor Y Fuse Resistor begin with an introduction to the practical side of intrinsic safety circuit design. Input TD ner Field Voltage dr,y Device Start With The Field Device All intrinsically safe circuits have three components: the field device, _ Instrinsically Safe referred to as the intrinsically safe - Ground apparatus;the energy-limiting Figure2.Barrier circuit Z-131 i ■� C -C Material Handling Process Cooling I Temperature Control I Size Reduction a A Water Temperature Control Unit Technical Specifications Advanced MS Controller The TrueTemp®TC130 Series is the most advanced TCU from AEC. This latest innovation features increased options for y 00 maximum flexibility, along with state-of-the-art controls and a 3.5" HMI color screen. These advanced controls provide predictive maintenance features as well as intelligent capabilities like Pressure Adaptive Technology utilizing digital pressure transducers. `, Troubleshooting is made easy via USB data logging and remote monitoring. All of this comes with the longevity and reliability you've come to expect from AEC TCUs. INTELLIGENT DESIGN PREDICTIVE RELIABLE - Pressure adaptive technology - Contactor cycle life indicator . Better controls . State-of-the-art M5 controller . USB data logging for improved . Predictive maintenance Digital pressure transducers analysis &troubleshooting - Automatically cycles between half& full heat Features Standard Features • Operator friendly PID temperature Optional Features • easy-access Compact design with access side controller with Process and Setpoint p g y readouts and straightforward unit Remote monitoring panels for rapid maintenance performance data • 12 kW,18 kW,or 24 kW heater options, • Programmable auto vent sequence to 36 kW&48 kW for upright units automatically vent air from the system 150 psig (10.3 bars) pressure relief valve • Maintained START/STOP switch at start-up • SICB/carbon pump seal to maximize pump life • Closed loop heat exchanger,model • Independent high temperature safety varies with unit sizes thermostat to protect from heater • 0.75"water supply connection, 1.5" overload process connections;valve size matches • General fault audio/visual alarm to alert • Motor branch circuit overcurrent/ drain size operators of unit issues overlead protection • USB data logging • Pressure regulator/relief valve for water • Integrated cooling solenoid valves for • Pressure adaptive technology supply efficient unit cooling • Contactor cycle life monitoring • Auto system water purge • Pressure transducers with digital readout • Quick cool for rapid unit cooling • Y-strainer to protect unit from high • 9kW dual circuit immersion heater with particulate fluid IEC contactors • Non-fused lockable rotary through door • 3007(149'C)operations, includes disconnect silicon carbide/silicon carbide seal • Operating temperature up to 250° F(121°C) . 1 year warranty on parts and labor at • New M5 controller with 3.5"color the factory screen HMI • 3 year warranty on controller /=■ EXEC OTC13u Series Product Diagrams TC130 Compact TC131 Upright Depth Width Width 28"(71.1(m) 14"(35.6 cm) Depth 14"(35.6 cm) 28"(71.1 cm) ii ., 000 aa�+ Height 28.8"(73 cm) Height 51"(129.5 cm) 0- 0l i i A f,0; Pump Curves Charts show flows and pressures that are I Pump HP available for the standard pump options. Custom pumps available upon request. 0.75(.56) 30(114) 25(1.72) 1.0(0.75) 35(133) 30(2.07) 2.0(1.5) 50(189) 30(2.07) 3.0(2.24) 60(227) 40(2.76) 5.0 (3.76) 75(284) 54(3.72) 7.5(5.6) 90(341) 63(4.34) 10(7.5) 120(454) 55(3.79) TOTAL HEAD PERFORMANCE CURVE 3500 RPM 1.0 S.C. TOTAL HEAD PERFORMANCE CURVE 2900 RPM 1.0 S.G. 4TR3 PSI r. NUMBER 40.000,675 707 P51 FECT NUMBER 40.000.676 70'F 61 87.200-- 60 Hz 61 87 '100 50 Hz IOHP 55 78 I80 7.5HP 55 78 180 49 69 160 SHP 49 69 160 43 61 140 2HP 43 61 140 -7.5HP SHP 37 52 120 37 52 120 3HP 30 43 00 )HP 30 43 100 2HP 24 35 80 3 4H 24 35 80 IHP - 18- 26 60 18 26 60 12 17 40 12 17 40 6- 9 20 6 91 20 U.S. GALLONS 0 15 30 45 60 75 90 105 120 U.S. GALLONS 0 15 30 45 60 75 90 105 PER MINUTE PER MINUTE ,LITERS PER MINUTE 0 57 114 171 228 285 342 399 LITERS 0 57 114 171 228 285 342 399 PER MINUTE •1-Ith 1601"Street,New Bertin,WI 53151 1 P 1.262.641.8600 1 info(dacscorporate,com • SD CARD DATALOGGE92 4Channel K Thermocouple SD Card Logger88598 1 -- = ISSS ■ Super big LCD portable/wall mount SD card logger tl ■ Measure and Log 4 temperature at once by using quick 5 {� response thermocouple probes ■ Programmable independent high/low alarm of each channel ■ One button press operation to display T1-T2 0� ■ Display temperature change from baseline ■ Temperature offset function for adjustment purpose i L■O _5.Japan& Taiwan Patented 88598 J do ® ® a Metric/ Aulo Time Stamp Low HOLD MA)MAIN Manual Auto TXT Imperial Power Off Battery Loggmg Logging r`21 Backlight DCjack SD card LEDAIarm Buzzer TrlpodHolo Alarm SD card slot K temp.range -200-1370°C,-328-2498°F Ktemp. resolution OAT,OAT K temp.accuracy + 0.3%rd +1 CQ (under 18-28GC ambient temp.) —( 9 ) Sampling rate Programmable from 1 second up 4 channel K probe miniature socket LCD size(mm,HxW) 47x104 Operating temp. 0-501c Operating RH% Humidity<80% Wallmount with big Storage temp. -20-50°C display!! Storage RH% Humidity<90% Dimension(mm,LxWxT) 152x100x39 No bothering computer Weight —300g setting!! Battery 4pcs AA alkaline batteries or 9V adaptor Standard Package Meter,2pcs bead type K thermocouple,battery,manual. Log anytime anywhere!! SD card,plain box Optional Accessory K type,thermocouple(custom made thermocouple is Leave your PC at home !! available upon request) Ordering Cout K BEAD0A000 TYPE THERMQCQV� r --j9V UNIVERSAL ADAPTOR :VE6 VZ86598AZ,88598 logger P/N � �( � PIN:V61099Ex Temp.Range:-50-2000c Input:100-240 VDC VB1099EX,9V universal adaptor Length:1M long Oulput:9VDC,0.9A VE60A000,1 M long K bead cable P/N:VE60AOYK 3 plugs included:US/UK/EU VE60AOYK,4M long K bead cable Temp Range:-50-200°c Lenoth:4M Iona �<M& I i OPERATING APPENDIX C MANUAL ' ECR-190089 GA 1 GA-2 V-2 TV-7 -301400 V-1 V-6 PRV-1 PRV-2 SEE NOTE 3 1501250 PS IG V-3 V-8 , P fi . z 106 0.PSISIG PRVQ W lOC".SG W W J J J Ls I Q Q Q � � • i + � V-5 V-4 V•Y (36W ' 'CERTz ,: 4 OPERATING AND SAFETY MANUAL bizzybee, metaBEEST s stem : v Quadrapod Hexapod OCTOBER 31, 2017 REV-1: BIZZYBEE LLC 206.960.1665 orders@bizzybeest.com General Safety Statements IMPORTANT: Please read,follow and understand the contents of this entire manual,with special attention given to Danger,Warning and Caution statements. DANGER This equipment contains Liquefied Petroleum Gases(LPG). Overfilling tanks or vessels may cause a violent rupture resulting in severe injury or even death.As a minimum, use a scale to continuously monitor recovery tank weight. While the system is protected with pressure relief valves, care should be taken to ensure overfilling does not occur. DANGER Flammable gas under pressure—leaking LPG can cause a fire or explosion if ignited. WARNING All hoses may contain liquid LPG under pressure. Contact with LPG may cause frostbite or other related injuries.Wear proper personal protective equipment such as safety goggles and gloves.When disconnecting any hose, please use extreme caution. WARNING Avoid breathing LPG vapors. Breathing high concentration levels may cause heart arrhythmia, loss of consciousness,or even cause suffocation. Exposure may irritate eyes, nose,throat and skin. Please read manufacturer's Material Safety Data Sheet for further safety information on LPG. WARNING Make certain all safety devices are functioning properly before operating equipment. WARNING Improper use/assembly or modifications to the unit may result in serious injury or death. WARNING Non-odorized LPG does not have a scent,therefore an alarming hydrocarbon detector must be used at all times. WARNING The Vacuum pump is only to be used to evacuate the system of AIR and is never intended to be used with LPG. It is important to evacuate the system of oxygen prior to the introduction of LPG. WARNING The facility must provide adequate ventilation/exhaust as determined by the Engineer of Record in order to maintain the local atmosphere below 25%of the Lower Flammability Limit(LFL). WARNING LPG is heavier than air and can settle in low places. WARNING DO NOT allow children to tamper or play with the equipment. WARNING DO NOT use or store equipment or containers where they could be exposed to high temperatures. Relief valves can open allowing a large amount of flammable gas to escape. DO NOT artificially heat equipment or containers above 1257. WARNING This equipment is NOT equipped with an overfill prevention device. WARNING DO NOT tamper with or remove the pressure regulator. Tampering with or removing the pressure regulator could lead to over pressurization of the equipment resulting in the release of highly flammable gas. WARNING All system containers must be depressurized prior to opening. BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 1 of 17 I Qv Table of Contents i Startup Checklist 2 ii Terms of Use 3 1. Initiation of the Operator Manual 5 2. Safety 5 2.1 BUTANE SAFETY 5 2.2 EMERGENCY PROCEDURES 8 3. Terminology 8 4. System Operation 9 4.1 Position and Layout 9 4.2 Preparing System for First Use 9 4.3 Loading the Material Columns 10 4.4 Loading the Solvent Columns 10 4.5 Running the Solvent 12 4.6 Running the Dewax Column (Optional) 13 4.7 Putting the Solvent Column into Recovery Mode 14 4.8 Passive Recovery 15 5. Maintenance 16 BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 2 of 17 i. STARTUP CHECKLIST We have provided you with almost everything you need to run this system. You will still need to provide a few of the following things: • Liquid CO2 in refrigerated dewars, 350 psi vent, 200L or 180L. Get a minimum of two at a time, so when you run out during a run you can switch without quitting. You will go through about one dewar per 8 hour ship, about 4-6 runs per dewar, about $25 per run. • N2 cylinder or LN2 dewar with 350 psi vent. This is for pushing liquid. • Vacuum pump for pulling atmosphere out of systems. I recommend a Yellow Jacket 6 CFM for$450 on Amazon. • Refrigerant scale: REFCO or Field Piece. Wireless is cool but the batteries die. You need this to measure mixes and to trans-fill and top off the system. • Dry ice is handy to have around, especially if you are doing fresh frozen material for pre- freeze. If you have a non-jacketed tank rather than solvent columns, dry ice is your modus operandi for recovery and chilling. • Depending on the techniques you are doing, you make want: o vacuum ovens for shatter o Teflon sheets for ovens (available from us cut to all common oven sizes) o Pyrex for whipping wax o Mason jars for curing sauce o Rotary evaporators for recovery ethanol o Freezers for winterizing crude oil o Short path heads for distillation o Ad infinitum... • Solvent of your choice, of the highest quality, preferable instrument grade: o N-butane 99.5% or better o Isobutene 99.5% of better o Propane 99.5% or better o Ethanol 190-200 proof(95-100%) BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 3 of 17 ii. TERMS OF USE The metaBEEST system manual is meant to inform staff, current and potential service contractors, as well as facility occupants and users as to the basis for operating and maintaining a bizzybee system. It is intended to be useful in the day-to-day operations of a facility. It also forms the basis of transferring important "intellectual property" information from BZB to the receiving party. This does not count as your business' SOPs. Those are something that you must develop for yourself, given your own unique tools and techniques. It is however intended to serve as the basis for your SOPs and company training. You agree to obtain any and all permits and licenses required by local, state and/or federal agencies prior to operation of extractors and ancillary equipment. You also understand and agree to comply with OSHA Safety Guidelines when handling, storing, and using Hydrocarbon gases. It is imperative that you conduct your extractions in a safe manner, using the guidelines and recommendations in the manual, notwithstanding you assume any all responsibility, liability, and consequences for you and your operators' actions. BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 4 of 17 i VV 1. Initiation of the Operator Manual The manager of the system is obliged to produce operating instructions for the operating personnel, to protect their health or other safety technical danger. The manager is obliged to instruct the operating personnel about the safe and orderly operating, up keeping, maintenance, and operating the system relevant. This operator's manual can be used as reference material for developing your own Standard Operating Procedures, however it cannot in itself be used as your SOP. Before commissioning a new system, the manager shall conduct a trial run checking all safety devices on the machine to be certain the system is safe to operate and that all personnel operating the system are trained, capable, and competent to operate it safely. 2. Safety 2.1 Butane Safety This guideline summarizes pertinent information about butane for managers and operators as well as for physicians, industrial hygienists, and other occupational safety and health programs. Recommendations may be superseded by new developments; readers are therefore advised to regard these recommendations as general guidelines and to determine periodically whether new information is available. 2.1.1 Substance Identification Butane, butyl hydride, diethyl, liquefied petroleum gas, methylethylmethane IDENTIFIERS: APPEARANCE AND ODOR: N-butane is a colorless gas with no odor, although an odorant is sometimes added to the gas to provide warning of its presence. This gas is commercially available in several grades of purity and in various mixtures (with the isobutene isomer, propane, and or pentane). N-butane is usually shipped under pressure as a liquefied gas and is one of the major ingredients in bottled gas. BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 5 of 17 0 WARNING NEVER FILL ANY TANK 100% FULL. ALWAYS LEAVE 20% VAPOR SPACE TO ACCOMMODATE THERMAL EXPANSION OF LIQUID SOLVENT. THIS APPLIES TO CONCENTRATOR, RECOVERY TANK, TRANSFER POTS, OR ANY OTHER CLOSED VESSEL. LIQUID SOLVENTS CAN EXPAND RESULTING IN EXPLOSION. CHEMICAL AND PHYSICAL PROPERTIES: a. Physical Data: Molecular Weight—58.1, Boiling Point (760 mm Hg) -0.50 C (31). b. Specific Gravity (water—1): 0.5788 at 200C—Vapor Density(air-1 at boiling point of N- butane): 207. c. Melting Point: -138.4°C (217). d. Vapor Pressure at 20OC: 1,557 mm Hg—Soluble in water—very soluble in alcohol, ether, and chloroform. 2.1.2 Reactivity a. Conditions contributing to instability: Heat, sparks, and open flame 2. Incompatibilities: Fire and explosion may result from contact of N-butane with oxidizers. A mixture of N-butane and oxygen will explode on contact with nickel carbonyl in the 200 to 400 C (680 to 1041 F) temperature range. b. Hazardous decomposition products: Acrid smoke and fumes may be released when N- butane undergoes thermal oxidative decomposition. c. Special precautions: DO NOT use N-butane around sparking motors or other non- explosion proof equipment. Ground all lines and equipment used with N-butane. 2.1.3 Flammability The National Fire Protection Association has assigned a flammability rating of 4 (extreme fire hazard) to N-butane. a. Flash Point: -600C () (closed cup) (liquefied N-butane). b. Auto-ignition temperature: 4300C (8060F). c. Hazardous decomposition products: Acrid smoke and fumes may be released when N- butane undergoes thermal oxidative decomposition. d. Extinguishing: Stop flow of gas. Use water to keep fire exposed containers cool and to protect persons effecting the shutoff. If a leak or spill has not ignited,water spray may be used to disperse the gas or vapor and to protect persons attempting to stop the leak. BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 6 of 17 _ _ _ _ _ _ _ _ I Fires involving N-butane should be fought upwind and from the maximum distance possible. Isolate the hazard area and deny access to unnecessary personnel. Emergency personnel should stay out of low areas and ventilate closed spaces before entering. Vapor explosion and poison hazards may occur indoors, outdoors, underground, or in sewers. Vapors may travel to a source of ignition and flash back. Containers of N-butane may explode in the heat of the fire and should be moved from the fire area if it is possible to do so safely. If this is not possible, cool containers from the sides with water until well after the fire is out. Stay away from the ends of containers. Personnel should withdraw immediately if they hear a rising sound from a venting safety device or if a container becomes discolored as a result of fire. Dikes should be used to contain the fire control water for later disposal. If a tank, car, or truck is involved in a fire, personnel should isolate an area of one half of one mile in all directions. Firefighters should wear a full set of protective clothing (including a self- contained breathing apparatus) when fighting fires involving N-butane. 2.1.4 Exposure Limits The current Occupational Safety and Health Administration (OSHA) permissible exposure limit (PEL) for N-butane is 800 ppm (1,900 mg/m) as an 8 hr. weighted average (TWA) 29 CFR 1910.1000,Table 1-A. The National Institute for Occupational Safety and Health (NIOSH) has established a recommended exposure limit (REL) for N-butane of 800 ppm (1,900 mg/m) as an 8 hr. time weighted average TWA NIOSH 1992. The American Conference of Governmental Industrial Hygienists (ACGIH) has assigned N-butane a threshold limit value (TLV) of 800 ppm (1,900 mg/m) as a TWA for a normal 8 hr. workday and a 40-hr work week. • Rationale for limits The limits are based on drowsiness and the risk of narcosis associated with exposure to N- butane. Routes of Exposure: Exposure to N-butane can occur through inhalation or eye and skin contact. BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 7 of 17 i 2.2 Emergency Procedures Keep unconscious victims warm and on their sides to avoid choking if vomiting occurs. Initiate the following emergency procedures: a. Eye Exposure: If tissue is frozen, seek medical attention immediately. If tissue is not frozen, immediately and thoroughly flush the eyes with large amounts of water for at least 15 minutes, occasionally lifting the lower and upper eyelids. If irritation, pain, swelling, lacrimation, or photophobia persists, get medical attention as soon as possible. b. Skin Exposure: If frostbite has occurred, seek medical attention immediately. Do not rub the affected areas or flush them with water. If frostbite has not occurred, immediately and thoroughly wash contaminated skin with soap and water. c. Inhalation Exposure: Move the victim to fresh air immediately. If the victim is not breathing, clean any chemical contamination from the victims lips and perform Cardiopulmonary Resuscitation (CPR). If breathing is difficult, give Oxygen. d. Rescue: Remove the incapacitated person from further exposure and implement appropriate emergency procedures (i.e., those listed on the Material Safety Data Sheets (MSDS) required by OSHA's Hazard Communication Standard 29 CFR 1910 1200. All personnel should be familiar with emergency procedures and the location and proper use of emergency equipment. 3. Terminology Definition Explanation Material Column Column for packing with plant matter for extraction. Comes in a variety of sizes: 4", 511, 611 . Solvent Column Column for filling with liquid solvent and pre-cooling before injection. Doubles a condenser for vapor recovery in lieu of a recovery pump. Available in 10L and 20L sizes. Dewax Column Optional: Column for catching the extracted solution and cooling it to achieve a "single-solvent-dewax" (SSDW). Precipitated solution is pushed through a set of filters at the bottom with regulated N2 pressure, like an inverse French Press. Collection Column Column for catching extracted or dewaxed solution and boiling/evaporating it off during recovery. Available with a squirt bowl at bottom, or a jacketed bowl for pulling muffins. Molecular Sieve Optional: Column for holding desiccant (usually a mix of 3a and 4a adsorbents). This filters the H2O molecules from the vapor stream during recovery, placed between the evaporator and the condenser. BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 8 of 17 jvltL Bottom Manifold The manifold connecting the Solvent Columns at the bottom. Top Manifold The manifold connecting the Solvent Columns at the top. Pressure-Assist Manifold The assembly at the top of Solvent Columns, consisting of: a quick-connect for attaching recovery lines or Nitrogen pressure, a plug valve to throttle this vapor, and a 3-way valve for selecting between liquid and vapor on the outlet. CO2 controller The needle valve and PRV assembly that controls the feed rate of liquid CO2 into the column jackets. Fittings Generally refers to Swagelok or triclamp fittings on our systems. HP Clamp High-pressure clamp, double-bolted at each end. Pressure Relief Valve Required on each pressure vessel (ASME 150 or 250 psi), and for thermal expansion on some process piping (non-code, 400 psi). Machine/System An overall configuration of racked vessels and columns, with plumbing to connect them. Nameplate Plate with manufacturer's information for system type, year of construction, and serial number. Operating Area This area comprises any location where the operator stands and walks to carry out his jobs. It comprises walkways, stationary devices at the system, platforms, pedestals, etc. Operator An authorized person who can use the machine and the ancillary equipment. Jangling Can mean many things: sometimes bumblin and fumblin, sometimes simply putting in work. Work work work work... 4. System Operation 4.1 Position and Layout 1. The System Frame is designed to be modular and expandable, and provide compact access and versatility. 2. Instead of placing the frame/rack against a wall, it is designed to be placed in the middle of the room or perpendicular to a wall, so the operators can move around the system and access it from all sides. 3. The frame is on heavy locking castors, and is designed to be rolled around the room. Material Column racks, for instance, can be rolled into and out of the extraction area to be unloaded and loaded in another room. 4. When stationary, the castors' locking breaks should be engaged for safety purposes. 4.2 Preparing System for First Use 1. Inspect all parts and hoses for damage, replace or repair as necessary. 2. Clean the system by doing a dry-run empty while distilling your solvent. 3. Check all connections to ensure they are tight and leak free. The most common source of leaks are loose fittings or clamps. Don't freak out,just put a wrench on them. BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 9 of 17 ■ r� ■ A 0 A � ■ O � � � ■ ■ ■ ■ ■ 4. Pull a vacuum on the entire system and segment each vessel by closing all valves. 5. Check if any vessels lose vacuum and search for leaks accordingly. 6. Pressure test system with regulated N2 vapor for leak detection (do not exceed 150 PSI). Segment the vessels by closing all valves and check if any vessels lose pressure. Listen and/or spray soapy water on fittings as need to identify leaks. Tighten leaking clamps and fittings, or replace damaged gaskets as needed. 7. Test all valves to ensure they are working properly. There are four types of valves on our machines. You should familiarize yourself with their placements and functions prior to operating the system with solvent: a. 2-way ball valves: on/off b. 3-way ball valves: off, pathl, path2 c. 2-way plug valves: throttle-able over 1/4 turn d. Needle valves: throttle-able continuously 4.3 Loading the Material Columns 1. With the system at a 0 PSIG configuration, open the top lid of the Material Column and load with raw material (dry marijuana trim or fresh-frozen buds, etc.) 2. Optional: Place 3-5 unbleached coffee filters at the bottom of the Material Column as a pre-filter to protect the sintered stainless filter.This is optional but acts as a pre-filter to aid with cleaning. 3. The Material Column can accommodate a range of capacities depending on vessel size, material grind, and pack. The sizes are as follows: • Smalll: 4" diameter, 5-7L, 3-6 Ibs material • Medium: 5" diameter, 10-12L, 5-10 Ibs material • Large: 6" diameter, 18-20L, 10-15 Ibs material 4. Grinding material in a Ninja blender will increase capacity (and yield) by approximately 30%, but may make slightly darker colored extracts as a result. Excellent for making crude oil, less excellent for making shatter and sauce. 5. Material should be loaded in 6" increments and packed tightly to establish even back- pressure and consistency. Unused headspace will not affect the extraction. The column can be partially filled as needed. 6. Be sure that each clamp section is clean and free of debris so as to not inhibit assembly of the gasket and lid. (A dry paintbrush works nicely for this.) 7. If there is any debris present, clean with a dry cloth. Ethanol can also be used if any viscous material is present on gasket or beveled surface. 8. Be careful that the gasket, filter and cap are all seated correctly, and that the gasket isn't crimped incorrectly, before tightening the clamp down on it. 9. Assemble the lid section using the correct torque settings and a calibrated torque wrench. Ensure top lids are secure. Be sure to align cap so that the pressure gauge is facing forward. BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 10 of 17 1Q 4.4 Loading the Solvent Columns 1. Visually inspect the Solvent Columns to ensure that they are free of any dirt and debris. 2. Visually inspect pressure gauges to ensure pressure is zero prior to removing any lids or ports. If pressure is present, confirm that all ball valves are closed at pressurized gas supply sections. Recover pressurized gas to bring the pressure to 0 PSIG. 3. Once system is clear and at 0 PSIG, evacuate all remaining vapor out of the system with a vacuum pump attached to the bottom quick connect at each vessel. Bring each vessel to full vacuum of 28 to 29 inHg. 4. Apply warm water (less than 100 degrees Fahrenheit) to the trans-fill tank as necessary to establish a pressure gradient to aid in transfer of liquefied petroleum gas to the system. Ensure you are using a rated solvent storage tank with a dip tube for liquid transfer. 5. Weigh the solvent storage tank before and during the transfer operation to measure the quantity of solvent transferred. The desired ratio to utilize is 3-6 Ibs of solvent per pound of material depending on solvent mix and temperature. 6. Attach the trans-fill tank to the bottom of Solvent Columns and open the values between them. Solvent will flow from areas of high to low pressure. Make sure you are using the dip-tube port on the trans-fill tank in order to transfer liquid. 7. Fill each Colvent Column to a maximum of 80%, leaving a 20% headspace for thermal expansion. Depending on size they will hold: • Small: 5" diameter, 10-12L, 13-15 Ibs N-butane • Medium: 6" diameter, 18-20L, 25-30 Ibs N-butane m Large: 10" diameter, 40-50L, 50-60 Ibs N-butane 8. 70% N-butane to 30% propane is the desired solvent ratio for standard operation. Other mixes will vary the soak times and pressures and temperatures. 100% propane or 100% N-butane or isobutane may also be used, or any combination of them. 9. Solvent may load unevenly but the system provides a means to equalize their levels by doing the following: a. Turn both 3-way valves on the Pressure Assist-Manifold to their Up or Vapor positions. This connects the headspaces of the columns together and equalizes any pressure differences. b. Open both ball valves on the Bottom Manifold to connect their liquid path. c. Gravity will now equalize the the liquid levels between the columns. d. Any temperature or pressure differences between the columns can be used to shift liquid between them, by closing the 3-way valve connecting their headspaces. e. Close the ball valves at bottom once the columns are leveled appropriately. 10. Measure the weight of the solvent tank after moving solvent to verify the amount loaded. BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 11 of 17 I 4.5 Cooling the Solvent 1. Chill the solvent in the columns to the desired temperature before injecting. 2. If using liquid CO2,,a 200 liter refrigerated liquid dewar with a 350 PSI vent is recommended. Always order them in pairs, as you can easily go through one or two per day, and you may need to switch mid-run. A permanently installed microbulk tank is an excellent option for bulk use. 3. j Do not use high pressure steel cylinders as they can be over 750 psi. 4. If the dewar internal pressure is below 200 psi, the liquid CO2 will have trouble flowing. Open the Pressure Builder valve on the top of the CO2 dewar to build head-pressure. Be sure the close this valve when you are finished running, or the dewar will continue to build pressure and vent. 5. Make sure the regulating needle valve on the jacket of the Solvent Column is closed initially. Open the supply valve on the liquid port of the CO2 dewar. Then gradually open the needle valve on the column jacket to control the flow of liquid CO2. 6. Warning—You must ensure that other end of cold jacket is open and venting frequently to a controlled venting location outside the room. This port must not be obstructed or pressures in the jacket could building and damage the system. 7. The columns will vent CO2 vapor from the bottom port of the jacket and this should be removed from your environment with adequate ventilation or plumbed directly outside. 8. Dry ice will form and fill the jackets as they cool, and the entire column will become covered with frost. 9. Eventually the jacket will fill and the CO2 will stop flowing. At this point you must shut if off at the needle valve for that specific jacket. It is best to run no more than one or two columns at a time, to maintain feed pressure from the dewar. 10. Eventually the jacket will fill and the CO2 will stop flowing. At this point you must shut if off at the needle valve for that specific jacket. It is easier to run one or two columns at a time, not more, to maintain feed pressure from the dewar and to pay attention to what is happening. If the 100 psi PRV on the CO2 controller pops, shut it off. If the flow out the exhaust port stops shut it off, regardless of the whether the PRV pops or not. 11. Wait 5-10 minutes after shutting the needle valve. The dry ice will slowly sublime away and vent, allowing you to turn the CO2 back on. It does not take a lot of CO2 to achieve this refrigeration effect. You need only crack the valve and let it hiss lightly. 12. If using a chiller: Turn it on and set it at -40 to -60C and allow the solvent to come to the desired temperature. 4.6 Running the solvent 1. Before running solvent, make sure the entire system is at a reduced pressure of-14 PSIG or 29 in HG to remove any residual atmospheric oxygen. 2. When ready to run solvent, turn the 3-way valve on the Pressure-Assist Manifold at the top of the solvent column to point down in the direction of the dip-tube. (If you have multiple BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 12 of 17 'VV Solvent Columns you should inject them one at a time to restrict back-flowing into each other.) 3. The Top Manifold connects the solvent outlets to the ball valve on top of the Material Column. When you turn this valve, very little solvent will come out if the pressure in the cold Solvent Column is near vacuum. This is usually the case with very cold high butane mixtures, although warmer temps with more propane will have less of this problem. The solution is the Nitrogen pressure-assist method. 4. Nitrogen Pressure-Assist Method: Connect the N2 regulator provided with your system to the vapor port on a 200L, 350 psi LN2 dewar, or on a high-pressure steel cylinder. 5. Dial the pressure regulator all the way closed (counter-clockwise) before connecting it, and then dial it back in slowly to raise the set pressure. 20-25 psi is a good value for pushing the solvent into and through the Material Column. 6. Turn the 3-way valve at the bottom of the Material Column to point toward the next stage (Dewax or Collection Column). When the solvent reaches the bottom of the Material Column it will read an accurate temperature on the thermocouple and flow up the hose to the next stage. 7. Start this operation with the valve open at the top of the next stage (Dewax or Collection Column). Observe the short dip tube in the sight-glass to see when the solvent has reached the bottom of the Material Column and begins flowing over. This indicates the Material Column is saturated. 8. You may want to stall the flow in order to soak the material in solvent. Close and open the ball valve at the top of the Dewax or Collection Column to regulate this flow. 9. Fill the Dewax or Collection Column to the bottom of the sight-glass or below, to ensure there is room for boiling, and that foam does not reach the top ports. 10. The solvent stream will start to sputter as it finishes flowing through the Material Column. Try to shut the valve off as soon as you notice this, to minimize the amount of nitrogen that gets into the next stages of the system. 4.7 Running the Dewax Column (Optional) 1. Not every system is equipped with a Dewaxer. If you have one, it should be connected between the Material and Collection Columns. Run solvent through the Material Column and into the Dewax Column as described above. 2. Cool and put an empty Solvent Column into recovery mode, and connect it to the top of the Dewaxer through the vertical quick connects with hose. This will help you draw the solution from the Material Column into the Dewaxer. 3. Continue to cool and recover the solution from the Dewaxer into a cold Solvent Column in Recovery Mode. This has three side-effects that we will use to our benefit: a. We can condense and reduce the solvent by 20-30%volume, increasing its concentration, which in turn encourages precipitation. b. The evaporative cooling effect alone will cool the column down to -20C quite easily. BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 13 of 17 c. The vigorous boiling tends to mix the column vertically, encouraging convection to homogenize temperature and mixing the precipitating waxes through the 3- dimensional filter media where they can be caught and trapped. 4. Observe the solution through the lower sight window of the Dewaxer. At around -20C the solution will go from clear to cloudy (like unfiltered apple juice). Turn on the CO2 jacket on the Dewaxer to push it down to -40C. You may need to turn the CO2 off a little early at-35C and let it coast down... 5. Between -30 and -40C, the cloudy material will begin to coagulate and clarify. This usually occurs between 15 to 30 minutes into the process. Higher concentrations of propane and isobutane will precipitate earlier at warmer temps. 6. The precipitating waxes will agglomerate and stick together and to the walls and the 3- dimensional filter medium. Once the solution turns clear again the dewaxing process is complete and it is time to drain the Dewax Column. 7. Note: Temperatures below -40C may precipitate cannabinoids and decrease yield in the Dewax Column. Mixes with more then 30% propane or isobutane may may start dropping cannabinoids out of solution at earlier so adjust for warmer dewax temperatures as needed. 8. Draining the Dewaxer is like a reverse French Press: we push the liquid level down and out through the filters at the bottom, again using our friend the Nitrogen Pressure- Assist. 9. Again, connect the N2 line from the regulator to the top of the Dewax Column. Open the valve at the bottom of the Dewaxer to feed the Collection Column. This time, turn the regulator pressure up to roughly 50 psi, or until liquid flow is observed in the Collection sight-glass. 10. If the flow is slow, turn the N2 pressure up in increments of 10 psi at a time. Do not exceed 100 psi, as above that the filters may tend to deform. 11. Filtration and clogging go hand in hand. A Dewaxer can drain in 3 minutes when things go well, but might take 3 hours of more when the filters clog. Each strain and batch you run may have different results and drop different loads of wax from solution. Experiment with different micron ranges of filter stacks. 20/10 micron is standard, try 40/20 if you are experiencing clogging problems, or an Interdimensional Wizard Hat. 12. If you encounter a difficult clog and the drain is only a trickle or drips, configure the Solvent Columns for recovery by filling their jackets with dry ice, connect them to the Collection Column for recovery, and allow them to pull on the Dewax outlet through the Collection. Leave 50-100 psi on the Dewaxer headspace, and go home or take a nap. I have never seen a Dewaxer that was clogged so back it didn't drain itself slowly over many hours, on drip at a time... 4.8 Putting the Solvent Column into Recovery Mode 1. The Solvent Columns are dual purpose: liquid injection and vapor recovery. 2. To switch functions you must first drain or inject all of the solvent to empty the column. 3. Next, you must burp any residual Nitrogen pressure left in the column down to 0 PSIG, or 1 atmosphere. Burping should be done by a safe means, such as attaching a special BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 14 of 17 y hose to the a quick-connect on the top of the vessel, and connecting the other end directly to your ventilation system. 4. Note that the column cannot be burped below 1 atmosphere, for obvious reasons. To get below this pressure we need to attach a vacuum pump such as the Welch 2019B diaphragm pump that we sell. This is dry pump meant for chemical duties like vacuum filtration, and it only pulls to 25 inHg or-12 PSIG. 5. Note that at -60C pure N-butane has a vapor pressure of less than 28 inHg or-14 PSIG. Therefore, when the Solvent Column is cooled to this low temperature, any residual gauge pressure above this no the partial pressure of butane but rather residual N2 vapor in the system. To renew the thermodynamic vacuum and the pressure gradient that makes Passive Recovery so fast, we need to pull all this residual N2 vapor from the system. 6. Connect an approved vacuum pump to the top of the solvent Pressure Assist-Manifold and pull the column down to 25 inHg or until the pressure plateaus and stops falling (absolute pressure level will vary depending on pressure mix and temperature). 7. Once the pressure plateaus, the pump can be turned of and disconnected and the Solvent Column is ready to be used as a recovery condenser. Note that the pressure should stay in the low pressure state so long as the low temperature is maintained and the column is kept closed. 8. Note that there may be Nitrogen contamination in the Collection or Dewax Column, as well as dissolved in the Solvent itself, and this purging process may need to be repeated until it is all removed. The pressure gradient between the two vessels effectively causes the solvent in solution with the oil to vaporize and leave the solution as vapor. This vapor moves through the vessel from the higher temperature vessel to the lower temperature recovery pod or DOT vessel. As the vapor collects within the recovery pod it condenses and fills the vessel as Liquefied petroleum gas.The pod is weighted during this procedure to ensure a recovery of at least 99%solvent. 4.7 Passive Recovery 1. Once the Solvent Column is in Recovery Mode, connect it to the Collection Column. 2. If you have an optional Molecular Sieve you may connect between these two columns during recovery to filter and residual water from the vapor stream and "dry" the solvent out. 3. Note that the Collection Column is outfitted with two 3/8" quick-connect in parallel, yielding twice the cross-sectional area and vapor throughput if they each connected to a separate Solvent Column or recovery tank, as available. 4. Start the hot water circulating through the jackets of the Collection Column, turning it into a batch evaporator. Set the circulator temperature between 30-50C (90-120F) depending on desired recovery rate and product being produced. 5. Note that terpenes are very volatile and easily lost or damaged due to heat. For high quality extracts like shatter and live-resin operated at the lower end of the temperature BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 15 of 17 i range. For extracts like crude oil which will be winterized, decarboxylated, and distilled later, this doesn't matter, and you can run evaporation hotter to make recovery faster. 6. Once connected, the pressure and thermal gradients between the two vessels causes the solvent in solution with the oil to boil and leave the solution as vapor. This vapor moves through the hoses from the higher temperature evaporator vessel to the lower temperature recovery vessel. As the vapor condensed on the cold walls of the Solvent Column it will sheet down the walls and fill the vessel as Liquefied petroleum gas. 7. Note that as the Solvent Column fills up, the liquid occludes the condensing surface of the walls. For this reason it is good to always start injection with one column full and the other empty, or two of them half full. 8. Another technique is to leave the trans-fill tank hard lined to the Bottom Manifold, and recover with the valves open at the Bottom Manifold so the solvent can drain out of the condensers, keeping their surfaces free. Warning: Never run CO2 unattended. Always run it as lightly as possible. 5. Maintenance Periodic maintenance is essential to the safe operation of your equipment. Contact bizzybee directly for replacement components. Obtaining replacement components from a third party voids your warranty and invalidates the engineering peer review of the equipment. Viton gasket screens, extraction columns, and collection chambers shall be cleaned after every use with an approved disinfectant. A complete system cleaning is recommended annually. Remember that you may be producing a food-based product. Use approved, food-safe cleaners and sanitizers. If the cleaners and/or sanitizers are flammable, ensure cleaning activities are conducted in an area with adequate ventilation or under an explosion-proof fume hood. Always replace worn components immediately. At a minimum, it is recommended that the following components be replaced according to the maintenance schedule below: Component Replacement Frequency Hoses Every 12 months Gaskets After Every loth time re-tightened or at first visible sign of wear Sanitary Clamp Bolts/Nuts Every loth time or at first visible sign of wear Ball Valves Every year Quick Connects Every Year The wear on the individual components of your machine will vary greatly depending on the BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 16 of 17 ti amount of usage in a given time frame. It is EXTREMLY IMPORTANT that all nuts, bolts, and gaskets be inspected before every use of the system. If there is any question as to the integrity of a given component, replace it immediately. BIZZYBEE SYSTEM OPERATIONS&SAFETY MANUAL REV1 Page 17 of 17 I� i ti 1 INSTALLATION ICR- 190089-RO CERTIFICATION REPORT REVISION 0 j- -DF �'b fi 1 • r FCP 0 CITY OF AIMINGTON . BUILDING DEPARTMENT APPROVED DATE O q BY NO CHANGES AUTHORIZED UNLESS APPROVED BY THE BUILDING INSPECTOR 4r\ Received 1 SEP 3 0 2019 3R %HERTZ SIGNATURE IMAGE The Bizzybee extraction unit owned by Mountain Hi, located at the address shown below, has been reviewed by a Washington Licensed Professional Engineer and found to be correctly installed in a suitable environment fnr imp with flammahle gas cnlvontsoluent Tho itpmc rwie::1ed duringb thk ingtallatinn incnartion are described i 11— within this report. _ I , , -__--------- ;License Holder: facility Information: 1 ;Mountain Hi Address: 19417 63rd Ave NE / I l Ben London Arlington,WA 98223 j 119417 63rd Ave NE 1 ! :Arlington,WA 98223 = Extraction Solvents: 100%Butane _ :(773)--- 355-9809 70/30Butane- ---- Propane ----------------------------L------------------------------------L------------------�.--------- ---- _ Signatures: , Engineer of Record: Brian Kester, PE { �� Date: September 26, 2019 = � A. 14 O , Signature: f Email: briar@3pcertz.cam = I Reviewed By: David Olson, PE •�+ $3341 Date: September 26,2019 O�`�, ►' SSfONAL EEO . Signature: Email: david@3pcer1z.com, S Authored By: Tyler Fritsch Date: September 26, 2019 = � D 0 40�w � Signature: Email: tyler@3pcertz.com ; , , , Report Number: ICR-190089-RO O� �IST'E'•R� �� j Inspection Date: 9/2S/2019 �s`sIONALti�G I , , , , , Revision History = RO - 9/26/2019 Initial Release I w� •- __ ...._.._»--__----•.____-------------- ..--------------------------------a 3PC#: ICR-190089-Ro PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 1 "7' ERTZ CONTENTS SIGNATURE PAGE INTRODUCTION 1 PROCESSING EQUIPMENT 2 LEGAL DISCLAIMER 12 , I SUPPORTING DOCUMENTATION APPENDIX A I I I I I t I s s s s i z� 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 11 AERTZ INTRODUCTION This technical report documents the extraction unit installation inspection performed at Mountain Hi in Arlington,Washington on Wednesday,September 25, 2019. The extraction process at this facility utilizes flammable I D-rtoc (100%_ Butane Q 70/20 Rl ifnnn-Prnnnno miv) in n rnntrnllarl anvirnnmant fnllnwinw the = appropriate methods, and using certified extraction equipment. The Bizzybee Large Live Hexapod Rack extraction unit is used inside of a purpose built extraction room in which all electrical components are rated for a Class 1, Division 1 hazardous environment. The extraction room and surrounding environment are being certified by another third party engineering firm,therefore this installation inspection focuses on the Bizzybee extraction unit only. The following hazardous material is used in the inspected extraction system: ------------------------------------------------------------------------ Flommable Gas- 70130 Butane-Propane Mix Maximum Quantity: 40 Ibs I The extraction equipment used inside the extraction room has been reviewed and certified for use in a hazardous environment per the following document: 3P Certz DOC: ECR-190089-RO -Bizzybee Large Live Hexapod Rack ; Correct installation of this equipment has been verified in accordance with any installation requirements/instructions provided in the above documents. Details of the equipment installation verification can be found in the PROCESSING EQUIPMENT section of this report. I 1 I 1 - 1 I 1 I I I r i i i 1 i 1 � 1 1 I _ 1 ,1 _ 1 ,t -1 �I t �1 FIGURE 1.1 InstaI ed Extraction System 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 1 IKERTz PROCESSING EQUIPMENT ; The installation of the Bizzybee Large Live Hexapod extraction unit has been reviewed and verified by 313 Certz during the on-site inspection. The installation has been found to meet the seismic mounting requirements, as well as the hazardous location electrical requirements outlined in NFPA 70 and NFPA 497. Additionally,the proper installation and set pressure of the Pressure Relief Valves on each pressure vessel = has been verified. SEISMIC REQUIREMENTS iMuM Design Maps Summary Report Report Title: Mountain Hi Install Location Wednesday,September 26th,2019 Reference Document: ASCE7-16 Site Coordinates: 48.171°N,-122.207°W Site Soil Classification: Site Class D-"Stiff Soil" Risk Category: 1/II/III 1 1 1 S � 1 I 1 1 fr 1 11' t 1 .r 1 I � � 1 1 I I 1 1 rva i:6;112 t ArlIMN NOnlli�q 1 I �I.i... . 1 1 1 . 1 1 1 1 1 1 I 1 1 I 1 1 I I 1 �1 ZI � wl �i al �i Output: Sos= 0.84 g *Seismic coefficient used to determine horizontal forces. �I1 WI VI a I 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 2 ERTz 1 1 1 r A,grrLIVE NEXAPOO The Bizzybee Large Live Hexapod is composed of two 6-8 solvent vessels,two 6-8 material vessels,one color remediation column, one 4-5 molecular sieve, and one 10-12 collection tank.The 10-12 Collection tank is ASME U-Stamped. 1 1 I 1 1 _ I 1 1 I I 1 1 1 I I w I i 1 1 1 _ ; 1 Y 1 1 I ' � I I 1 1 1 1 } 1 ; 1 1 1 1 1 1 I 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 _ 1 t -- -F/GURE2.1 BIZZYBEE EXTRACTION UNIT OVERVIEW - 1 1 1 I 1 1 1 1 �1 1 U,S a= O w z ui OI sl a, i 313C#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 3 ;3P ; . ANCHOR CALCULATIONS- LARGE LIVE HEXAPOD In order to meet the seismic requirements for this install location,the Large Live Hexapod shall be anchored , to the floor of the extraction area. The following calculation determines the minimum anchor pullout and shear strength. A minimum of four anchors shall be used. Correct anchor installation shall be verified prior to operating the equipment. I Max Weight, W = 767 Ibs Frame Length, L = 40.0 in 1� Frame Depth, D = 36.0 in CGS Reference, L CG = 17.8 in CGp Reference, D CG = 12.2 in I CGH Reference, HCG = 43.3 in Enema"i Response Modification Factor, R = 1 (Assumes no strength reduction necessary for this frame) - 1 Importance Factor, /e = 1.00 — (Risk Categoiy II from ASCl/SEI 7-10,Table 1 5-2) I' I CS = ( /�s J (ASCE/SEI 7-10, EQ. 12.8-2) V/i e i V= CS W (ASCE/SEI 7-10, EQ, 12.8--1) 1 W Design Spectral Response,S OS = 0.840 g Applied Horizontal Seismic Force, VA = S DS W 644 Ibs , 0 1 FM O -0 D x F ANCHOR - CG CG H x V-D x W s — — — i FANCHOR = 517 Ibs a6'3�n a3.33in ' i *If four anchors are used,the minimum anchor pullout strength must be greater than 258 Ibs per 17,Bin t anchor. Anchor shear strength must be greater than W 161 Ibs per anchor. a; j1 FANG.NU Z R v u of ---FIGURE2.2 - Hexapod Tipping--- a= 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 4 3� ERT� SEISMIC RESTRAINING METHOD AND ELECTRICAL GROUNDING The Large Live Hexapod has a high seismic SDS value and is required to be anchored to the floor in order to I prevent the stand from tipping over in the event of an earthquake. The stand is restrained using a chain wrapped around the base of the frame and bolted to the floor on each side of the rack.The chains are I connected to the floor by Quick Links rated for 880 Ibs each. S i i I i I i i I I I 1 i i ---FIGURE2.3 -Seismic Restraining Strap --- CATEGORY PRODUCT INFO-GENERAL SPECIFICATIONS Manufacturer: Red Head Trubolt Wedge Anchor Part#: WS-3822 0 Model: 3/8"x 2-1/4"L Material: Carbon Steel c I Q i Seismic Rated Pullout Strength: 1,620 Ibs 3 Seismic Rated Shear Strength: 2,320 Ibs Manufacturer: Everbilt Quick Link Part#: 42704 c f Model: 1/4" Material: Zinc Plated Steel Y I U i Cf ' Rated Capacity: 880 Ibs I Manufacturer: Everbilt Chain Part#: 806656 i I I S Model: 3/16" Material: Zinc Plated Steel •� I L I U ' Rated Capacity: 750 Ibs Manufacturer: National Hardware Part#: N221-309 o Model: 1/2" Material: Zinc Plated Steel I w Rated Capacity: 300 Ibs Wt Manufacturer: Superstrut Part#: B-1400-HS Depth: 13/16" Material: GoldGalvSteel V) �� Gauge: 14ga � Rated Capacity: 800 Ibs till a' 1 313C#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 5 3P ''CERTz I VAL Il lw.l ; The pressure relief valves on each pressure vessel on the Bizzybee extraction unit were verified for the correct installation and set pressure. The following images of the vessel PRVs were taken at the extraction site. I 1 i 1 ' I I I I I I I I I I I I I I I I I I I I I I I f I I r , I I I I I I I I I --FIGURE 2.4 -`solvent Vessel 41 PRV-Set to 1.50 psi ---- I I I I I 1 I I I I I I I i e I i i I I - I i I I I i a U z w u o� z a --FIGURE 2.5 V,,,,-�,el 'k2 i'f"1t-afat to 1.50 psi— 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 6 �ERTz - i VESSEL PRESSURE RELIEF VALVES CONTINUED... i The pressure relief valves on each pressure vessel on the Bizzybee extraction unit were verified for the correct i installation and set pressure. The following images of the vessel PRVs were taken at the extraction site. _ i t L I :=tax-- i i - i I i 1 i i ---FIGURE2.6 Material Vessel PRV#1-Set to 150 psi--- i i i , i i " I E zl wi i ai �i wi l9i zl w' u' Oi ---FIGURE 2.7 Material Vessel PRV#2-Set to 150 psi --- a 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 7 44ERTz ..-sX ) 1 The pressure relief valves on each pressure vessel on the Bizzybee extraction unit were verified for the correct installation and set pressure. The following images of the vessel PRVs were taken at the extraction site. , 1 , , , , I s �l , , , , , , 1 , , l , , , i I f , , , , , , —FIGURE2.8 �ilc� ._•�.,1<�r w !'i��l S �_ �� s'>(j , , I i _ 1 , s f= 3 , t t , y I i , , , I � , , , 1 �j 4/ �j C� Z� U� O --- FIGURE 2.9 Color Remediation Column PRV.Set to 150 psi 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 8 3 ( ERTz 1 i;r vi Prr;,vilzr nairr b:aLVrS r<lNT11lUff). The pressure relief valves on each pressure vessel on the Bizzybee extraction unit were verified for the correct = installation and set pressure. The following images of the vessel PRVs were taken at the extraction site. i 1 1 1 1 • `IC`-- -� ' j 1 1 1 1 I 1 i 1 1 1 1 1 �J � 1 S 1 1 1 1 I 1 I 1 , ---FIGURE2.1O -Collection Vessel PRV-Set to 150 psi --- _ I i 1 I 1 1_ I 11 1 1 1 1 1 1 i 1 1 1 1 1 1 y 1 1 1 1 1 1 1 1 ZI WI �j a, al wl l7i ZI ---FIGURE2.11 -Material Rack CO2 PRV#1 and#2-Set to 100 psi - a' 313C#:ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 9 3R VESSEL PRESSURE RELIEF VALVES CONTINUED... The pressure relief valves on each pressure vessel on the Bizzybee extraction unit were verified for the correct installation and set pressure. The following images of the vessel PRVs were taken at the extraction site. i I I I " � I I I 9VI R I � T i i i i ---FIGURE2.12 Material Rack CO2 PRV#3 and#4-Set to 100 psi--- I I I I I I a= 3' 51 z= ---FIGURE2.13 -Material Rack CO2 Manifold--- a 3PC#: ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 10 (jKERTz ASME U-STAMP PLACARDS NFPA 58,5.2.11 dictates that LP-Gas containers shall be marked (or stamped)in accordance with the ASME Code,Section VIII,or meet DOT requirements,which applies to all vessels with an inside diameter greater than 6 inches.The collection and solvent vessel in this system have been fabricated and ASME U-Stamped by an ASME certified metal fabricator. r 1 , i i i I i i i i I � i J�1 i i ___FIGURE2.14 -Collection Tank ASME U-Stamp Placard I I w� 4i �1 w �i w' o a; 313C M ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 11 3P �.. .. ;:CERTz LEGAL DISCLAIMER s s This engineering report applies to the Mountain Hi extraction equipment in Arlington,Washington, in the S condition shown and described herein. It is the responsibility of the facility owner to ensure this facility continues to adhere to state and national codes and that the reviewed extraction system remains in the configuration referenced within this report. All processing equipment and safety systems are to be properly maintained,and the gas detection system shall be tested per the manufacturer's preventative maintenance schedule. All employees and equipment operators must be thoroughly trained in the equipment usage and emergency procedures. , l I i I , , S I I I i I I I 1 , I I l , l i i I Wi �i vI i; Jl W� J� i 313C#:ICR-190089-RO PROPRIETARY CONTENT Release Date:9/26/2019 www.3pcertz.com PAGE 12 SUPPORTING APPENDIX A DOCUMENTATION I CR-190089-RO .,`CERTz ' EX-TR.-ICTION ROOM SOE./{]7{ N The gas detection used in the extraction room is Class 1, Division 1hazandous location rated unit, as shown below. EXTRACTION ROOM GAS DETECTION GAS DETECTION MONITOR UP CLOSE C1D1 RATED ELECTRICAL RECEPTACLES AND PNEUMATIC SUPPLY LINES PAGE A-2 EXTRACTION ROOM EXHAUST VENTILATION -4 I 1 I i 1 EXHAUST INLET LOCATED WITHIN 12" FROM THE FLOOR PAGE A-3 ANCILLARY EQUIPMENT The heater below is located outside of the extraction booth and plumbed in through the walls to heat the collection vessel. 4P TRUE TEMP HEATER UNIT ' r HEATER LINES PLUMBED INTO ROOM PAGE A-4 ANCILLARY EQUIPMENT CONTINUF-D 91 .L Q -i N � wrM AIR COMPRESSOR FOR PNEUMATIC TOOLS PAGE A-5 ANCHORING COMPONENTS The Hexapod frame is anchored using the following parts listed below: r _ . CHAIN 436m 1/4in QUICK LINK, .. ` eaoib 399.j O - - Mo CHAIN LINKAGE FOR CHAIN TO EYELET SUPERSTRUT ANCHORING CHANNEL t t t 3/8"x 2-1/4„ a.,"M , CC."Es&M W comollam CONCRETE ANCHORS PAGE A-6 ADDITIONAL PHOTOS O ' r EXTRACTION ROOM ENTRY DOOR PAGE A-7 f op 00* ■ c E RT z i A a A w z W ¢ p x d a, H p W. z O 0 w 0 w z � Z z_ C4 F O F d -- W 0 Z V Q z o 22 H F w ❑ d� O A v❑ � w � c» o Ov 00 'unoIN 01 O. a Zet z g O E- z > a V O zz � � F • Q• � >+ n` C 3Q zxQ Q w wo H `� oa z FF Zaz z 'a Qa U p4 �I a Q H w z pw F W O W F Z a Q N F O i� a .. 2 = HE- p >✓ wo x � Q x co z Q O Q w O F z 04 a O C4 M. 43 O Z e o z •� �, COMMERCIAL MECHANICAL • PERMIT APPLICATION Gl, Department of Community&Economic Development City of Arlington• 18204 59th Ave NE• Arlington,WA 98223« Phone(360) 403-3551 THIS APPLICATION MUST BE ACCOMPANIED BY TWO (2) SETS OF CONSTRUCTION DRAWINGS AND ALL OTHER INFORMATION OUTLINED IN THE MECHANICAL PERMIT SUBMITTAL REQUIREMENTS,IF APPLICABLE. Type of Permit: ❑ New installation Replacement [Alteration Project Addressa 1aN1� b�a� Ave Project Description: CUI.-V I 2x-Ak"c:C+;ate. E y L vke" _ Valuation:Aqg,50(0- oS Owner: 1"\o�\,\a a: , LL C Phone :ZO(n`b Q- 0029 Address:�a b3 Q� Nv, N E Cit KJ-,\AC Dv\ State:\A/A Zip: G$lz3 11 p 0 Q Email Address: CoM c 0\.k �0" r;,�2Cl-\5e CAM G . (-Okl\ Contact Person: &V, Phone #;.Z%- V 4 cj- 002$ Addrass: \ m-4 3 vc I�� City: �'��a;.�- off State: zip: 3--- Email CetK Contractor Nam: Phone#: Contractor Address-, City: - - State: Zip: - Email: _ _ Contact Person: Contractor License Number:_ - _ Expiration:. _-- - — Please Indicate type of number of appliances: FURNACE CONDENSING UNIT GAS PIPING OUTLET 804LER MEAT PUMP(multi-split) UNIT HEATER CHILLER HEAT PUMP(mini-split) PAINT BOOTH COOLER HEAT PUMP(other) TYPE I HOOD AC(air cooled) HEAT REJECTION EQUIP TYPE 11 HOOD AC(water cooled) VENTILATION SYSTEM AST AC(evaporator) PACKAGED UNIT UST AC(VISE) DRYER OTHER I hereby certify that the above information is correct and that the construction on, and the occupancy and the use of the above- described property will be in acc ante with the laws,rules and regulation of the State of Washington. Applicants Signature: pate - 09 10( ZO kol Applicants Printed Name: �'��� `—O`^dog^ Received FOR STAFF USE ONLY S 0 2019 Permit# Accepted By Amount Received Receipt# -- Date Received 6/16LP Page 1 of 1 Permit#: 2822 Permit Date: 09/30/19 Permit Type: COMMERCIAL MECHANICAL Project Name: Mountain Hi, LLC Applicant Name: Mountain Hi, LLC Applicant Address: 19417 63rd Avenue NE Applicant, City, State, Zip: Arlington,WA 98223 Contact: Ben London Phone: 206-679-0028 Email: london@creaseattle.com Scope of Work: Update extraction equipment Valuation: 98506.05 Square Feet: 0 Number of Stories: I Construction Type: Occupancy Group: ID Code: CIC Permit Issued: 10/03/2019 Permit Expires: Form Permit Type: Status: COMPLETE Assigned To: Launa Black Property Parcel# Address Legal Description Owner Name Owner Phone Zoning 31051500401200 19417 63RD AVE NE SAJE Properties LLC Contractors Contractor Primary Contact Phone Address Contractor Type License License Mountain Hi 19417 63rd Avenue OWNER Plan Reviews Date Review Type Description Assigned To Review Status 09/30/2019 COMMERCIAL BUILDING MECHANICAL Fees Fee Description Notes Amount Mechanical Fee(Enter Fixture Fee) $26.00 Mechanical Base Permit Fee $25.00 Mechanical Commercial Plan Review Table 4-1 $650.00 Processing/Technology $25.00 Total $726.00 Attached Letters Date Letter Description 09/30/2019 Building Permit Payments Date Paid By Description Payment Type Accepted By Amount 10/14/2019 Mountain Hi LLC Permit 2822 Check#2222 Raelynn Jones $726.00 Outstanding Balance $0.00 Notes Date Note Created By: 05/07/2020 Job copy never picked up/permit not signed Raelynn Jones Uploaded Files Date File Name O1/06/2020 6056742-2822 9-30-19IC.pdf 09/30/2019 5690120-2822 Application.pdf