HomeMy WebLinkAbout18810 59TH DR NE_BLD20120255_2026 � rl
BUILDING INSPECTION REPORT
4134Permit No.
Address:
Contractor: X�,�
9�
Owner:
Date: - n1l
Jr
APPROVAL Ep PARTIAL APPROVAL
® VIOLATION ® CORRECTION REQUEST
Corrections listed below MUST BE MADE before work can be approved
Please contact inspector
Was not able to perform inspection
Call 360-435-0674 FOR RE-INSPECTION by 5:00 pm the day before
Xs-/ A?e'2tr g<<,�d 1we
Inspector: OGC Date: Z115 Z
® Under-floor ® Framing ® Gas Piping
® Footing ® Drywall, nailing ® Consultation
® Foundation ®Shear Nailing ® Groundwork
® Mechanical ® Grid KStruct. Slab
® Wood Stove ® Rough-in ® Final
® Masonry ® Drainage ® Insulation
® Other:
_ . •ram-.. . ... �. •• �. .:.t.—
Christopher Young
From: Tom Cooper
Sent: Wednesday, May 15, 2013 1:44 PM
To: Christopher Young
Cc: Bruce Stedman
Subject: Arlington Flight Services Fueling
Chris,
I completed my final for Arlington Flight Services today; there were a couple minor issues that are easily
fixed. He did get my approval. Does that make it a closed project for Kevin?
Tom Cooper
Deputy Chief
Arlington Fire Department
360-403-3607
tcooper@ar.ii.n.gtonwa.gov
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- C . TY OF ARLI C -AGTON
�\ 238 N. OLYMPIC AVE - ARLINGTON, WA. 98223
-_ PHONE; (360) 403-3551
BUILDING PERMIT
Address: 18810 59'I'H DR NE Permit#: 14107
Parcel#:31051500401200 Valuation:0
OWNER APPLICANT CONTRACTOR
Name:City of Arlington Municipal Airport Name:KEVIN DUNCAN Name:Kevin Duncan
Address: 18204 59th Drive NE Address: 18810 59TH DR NE Address: 18810 59th Dr
City,State Zip:Arlington,WA 98223 City,State Zip: [City,State,Zip] City,State Zip:Arlington,WA 98223
Phone:360-403-3470 Phone:(425)344-2544 EXT: Phone:425-344-2544
LIC#: EXP:
PWMBING CONTRACTOR MFGHANICAL CONTRACTOR
Name: Name:
Address: Address:
City,State,Zip:, City,State,Zip:
Phone: Phone:
LIC#: EXP: LIC#: EXP:
JOB DESCRIPTION
PERMIT TYPE: BLD CODE YEAR:
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. IBC110/IRC110.
SALES TAX NOTICE:Sales tax relating to construction and construction materials in the City of I- ton must be reported on your sales tax return orm
at d coded City,oLArli gton#3101. - Z/
Signature Print Name Date eleased Date
CONDITIONS
THIS PERMIT AUTHORIZS 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
2/27/2013 AST-Tank Storage/Piping $100.00
2/27/2013 AST-Tank Storage/Piping $100.00
2/27/2013 Mechanical Permit Base Fee $25.00
Total Due: $225.00
Total Payment: $0.00
Balance Due: $225.00
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
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BLD20120255 (PT-LIVE) -PennitTrax by Bitco Software Page 1 of 1
BUILDING PERMh PERMIT#: BLD20120255
OWNER: CITY OF ARLINGTON AIRPORT STATUS:APPLIED
A- N, ADDRESS: 18810 59TH DR NE,ARLINGTON BALANCE: $0.00
ISSUED: CREATED: 10/16/2012
SCREENS: Select Screen... FUNCTIONS: Select Permit Function... -J
MECHANICAL/SOLAR
REVIEWS PRINT ADD NEW SUMMARY
REVIE.. DESCRIPTION ASSIGNE.. DUE DATE LAST (#) REQ? DO.. ASSIGN REMOVE
2000 C-Building I CYOUNG 10/23/2012 0 Y N Assign Remove
2008 C-Community Development I ARUSKO 10/23/2012 0 Y N Assign Remove
Aff 0714,kk S GCSE
https:He oapermits.arlington.lo cal/PennitTrax/Module_Permits/Permits_Permit/Permit_Reviews.... 10/16/2012
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COMMERCIAl.., MECHANICAL
i'k
SUBMITTAL REQWREMENTS
Department of Community Development
City of Arlington • 238 N Olympic Ave. • Arlington, WA 98223 • Phone (360) 403 3551 • FAX (360)403 3418
THIS APPLICATION MUST BE ACCOMPANIED BY TWO(2) SETS OF CONSTRUCTION DRAWINGS, AND ONE(1)
SET OF WASHINGTON STATE ENERGY CODE APPLICATIONS.
Type of Permit: 43 Residential Apartment Commercial Valuation: —
Project Address: CIO Smlr0 ZiLWE OL Parcel ID#: —
Lot#: k 3 Subdivision: N/A
Project Description: R y I(+16 N Fll F- �—
Owner: ►���—\ t tr\ �t \ItC 3 9 y
Phone Number:
Ig�l� saTh D� Nam. s42�r/J�7y� W(+ -1 g zZ 3
Address: _ � City: State: Zip Code:
Contact Person: 11 V1 rJ T V y IJ e n`J -Phone Number: �Z 3 yQ 2JI "qe
Cell Phone: On .5' 4 Fax: ]�to U 4S 4300 E-mail:
U �
Address: l�� I D C'el Th /7 /J E. City:A&ll"�11�X"'11 State: W Q Zip Code:_ 16 Z 3-2 117
Please List(quantity of Fixtures Below:
FURNACE UP TO 100K BTU CLOTHES DRYER GAS OUTLETS
FURNACE OVER 100K FLR FURN INSTALLIRELOCATE SUSPENDED HTR/UNiT HTR\
BOILER UP TO 3 HP APPLIANCE REPAIR APPLIANCE VENT/OTHER
BOILER UP TO 4-15 HP _ TYPE I OR II HOOD VENTILATION EQUIPMENT
BOLIER UP TO 16-30 HP AIR AHNDLING UP TO 1 OK CFM VENTILATION FANS
BOILER UP TO 31-50 HP AIRHANDLING OVER 1 OK CFM OTHER VENTILATION SYSTEM
BOLIER UP TO 51 HP AND UP INCINERATOR lye _ (AS-1)TANK STORAGE/PIPING
ALL OTHER UNITS HEAT PUMP (UST)TANK STORAGEIPIPING
Contractor: s t- r Phone Number: lwZ 5 3 y 4 2-S4 c(
Address: I gTIC) 5q NE_ City: lniG_biJ State: WA Zip Code: qkz 2- 3
Contractor's License Number: NIA Expiration: N'
• Provide applicable WSEC Worksheet(s)and appliance cut shect(s) along with application
• Provide applicable NFPA or other Reference Standard Material along with application
I hereby certify that the above information is correct and that the construction on, and the occupancy and the use of the above-
described properiLy will be in accordance with the laws, rules and regulation of the State of Washington.
Applicants Signature Date
VEV11\J T UNGArJ
Print Applicants Name
FOR STAFF USE ONLY
��'DI�-0(\S5 _ �� �� OCT 16'2012
Permit# Accepted By Amount Received - =:�Receipt# CO �MTE R
2 ��'
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Steel Aboveground Tanks for Flammable and
Combustible Liquids
U L 142
1 Scope
1.1 These requirements cover steel primary, secondary and diked type atmospheric
storage tanks intended for noncorrosive, stable flammable and combustible liquids that
have a specific gravity not exceeding 1.0 in aboveground applications.
1.1 revised December 15, 2007
1.1.1 Each tank type may be fabricated in a combination of various shapes (cylindrical,
rectangular or obround) and orientations (horizontal, vertical) with or without multiple
compartments, as covered in this Standard.
1.1.1 added December 15, 2007
1.2 These tanks are intended for installation and use in accordance with the Flammable
and Combustible Liquids Code, NFPA 30; the Standard for Installation of Oil-Burning
Equipment, NFPA 31; the Motor Fuel Dispensing Facilities and Repair Garages, NFPA
30A; the Standard for the Installation and Use of Stationary Combustion Engines and
Gas Turbines, NFPA 37; the Uniform Fire Code, NFPA 1; and the International Fire
Code published by the International Code Council.
1.2 revised December 15, 2007
1.3 The tanks covered by these requirements are fabricated, inspected and tested for
leakage before shipment from the factory as completely assembled vessels.
1.3 revised December 15, 2007
1.4 These requirements do not apply to tanks covered by the Specification for Field-
Welded Tanks for Storage of Production Liquids, API 12D; and the Specification for
Shop-Welded Tanks for Storage of Production Liquids, API 12F.
1.4 revised December 15, 2007
1.5 Deleted December 15, 2007
1.6 These requirements do not cover special evaluations for resistance to hurricanes,
tornadoes, earthquakes, floods, or other natural disasters; or resistance to vehicle
impact.
1.6 revised December 15, 2007
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1.7 These requirements do not cover portable tanks intended for transporting flammable
or combustible liquids (such as shipping containers), or mobile use applications (such
as mounted on a trailer). These types of products are covered by separate UN, DOT, or
equipment product standards.
Protected Aboveground Tanks for Flammable and
Combustible Liquids
U L 2085
1 Scope
1.1 These requirements cover shop fabricated, aboveground atmospheric Protected
Tanks intended for storage of stable flammable, or combustible liquids that have a
specific gravity not greater than 1.0 and that are compatible with the material and
construction of the tank.
1.1 revised effective December 30, 1998
1.2 These requirements do not cover Fire Resistant Tanks which are intended for
installation and use in accordance with the Automotive and Marine Service Station
Code, NFPA 30A. These tanks are covered in UL's Outline of Investigation for Fire
Resistant Tanks for Flammable and Combustible Liquids, Subject 2080.
1.2 revised effective December 30, 1998
1.3 These tank constructions are intended to limit the heat transferred to the primary
tank when the construction is exposed to a 2-hour hydrocarbon pool fire and are
provided with protection from physical damage. Tanks appropriately identified by
product markings provide additional protection for the primary tank against projectile
impact and vehicle impact.
1.4 These tanks shall be provided with integral secondary containment intended to
prevent any leakage from the primary tank from entering the environment.
1.4 added effective December 30, 1998
1.5 Protected Tanks are intended for stationary installation and use in accordance with
the Uniform Fire Code, published by the International Fire Code Institute; the
Flammable and Combustible Liquids Code, NFPA 30; and the Automotive and Marine
Service Station Code, NFPA 30A.
1.6 Tanks covered by these requirements are fabricated, inspected, and tested for
leakage before shipment from the factory as completely assembled units.
I
1.7 These requirements and tests are not intended to determine a tank's acceptability
for use after fire exposure, vehicle impact, or projectile impact.
1.8 These requirements do not address methods of anchoring which may be required to
prevent uplift from flooding or movement due to wind or seismic forces.
1.9 These requirements do not address either the construction, or attachment means of
ladders, stairs, runways, guardrails, platforms, or equipment supports.
1.10 A product that contains features, characteristics, components, materials, or
systems new or different from those covered by the requirements in this Standard, and
that involves a risk of fire, electric shock, or injury to persons shall be evaluated using
the appropriate additional component and end-product requirements to determine that
the level of safety as originally anticipated by the intent of this Standard is maintained. A
product whose features, characteristics, components, materials, or systems conflict with
specific requirements or provisions of this Standard shall not be judged to comply with
this Standard. Where appropriate, revision of requirements shall be proposed and
adopted in conformance with the methods employed for development, revision, and
implementation of this Standard.
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Page 1 of 14
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7516 NE 153rd Place NE 5�` g
WAS,,,,
Kenmore,WA 98028 �P tiF w,tio
(425)296-2993
ARLINGTON FLIGHT SERVICES z
12,000 GALLON TANK FOUNDATION � �)
STRUCTURAL CALCULATIONS .*�,. 43789
PROJECT NO: 1247 DATE: 10/08/12 NAL ENS
PREPARED BY: BASRI BASRI PE, SE
Dssi n Criteria
International Building Code (IBC) 2009
American Society of Civil Engineers (ASCE)7-2005
Project Description
Design of slab and anchorage for 12,000 gallon water tank.The total weight of the tank is 136,000 lbs.The tank
is supported by 4 saddles (one at each corner).
The seismic load controls over wind load.There is no uplift on the anchors due to tank overturning due to
lateral load.
The slab is design for concentrated load from the tank saddle.
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Seismic Criteria
S., %g 104
Si, %g 38
Site Class D
Importance Factor, 1 1.25
Ductility Factor, R 3
Seismic Performance Category D
Wind Criteria
Wind Speed, mph 85
Wind Speed with Ice, mph N.A. (with N.A. thick ice)
Wind Exposure Category C
Topographic Effect, Kzt 1.0 OFFICE
Importance Factor, Iw 1.0 COPY
Material Information
Concrete Compressive Strength, psi 4000
Rebar Yield Strength, psi 60000 CITY OF A R L I NGTON
BUILDING DEPARTMENT,
APPP�\IED
DATE �g /L BY
No CH NGES AUTHORIZED
UNLESS APPROVED BY THE
BUILDING INSPECTOR
®� Job No: IZ y� Sheet No: Page 2 of 14
www.b2engineers.com Project Name: Sheet Title:
7516 NE 153rd Place NE 1q F—L I N GrTON rtA'4 k Made By: 13Z Revision:
Kenmore,WA 98028
(425)296-2993 Date: 10 O:31
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�Kenmore,WA 98028 NE 153rd Place NE K �41,-L il�Gr"r�l� �'� Made By: Revision:
Ken
(425)296-2993 rovN P A T PON Date: 1 b/ p 12
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www,b2engineers.com ) Project Name: Sheet Title:
7516 NE 153rd Place NE Made B : •6,> Revision:
Kenmore,WA98028 A"ort�� ®1' ViN`— y k<
(425)296-2993 FN N 04`T"0^1 Date:
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WIND ANALYSIS
Page 5 of 14
TANK LATERAL ANALYSIS V4
m 'Job No. Sheet No.
hwx 02 rb cpn Project Narne Sheet Title
ffiterd:' PdeeNE Checked By Beeri Made By Basri
Kemiora.WAs$=
14251 29 629 93 bate Date
NAND LOAD ANALYSIS FOR TANK OR VESSEL PER ASCE 7-05
General input
Basic wind speed,V(mph) 85
Hurricane prone region No
Wad exposure C
Category of use IV
opogi apNc factor,Kzt 1
Structure height(h)(A) B
Structure length or diameter(D),A 33
Shape of structure S.Round rough
Wfnd elevation,:(n) 4
Wnd calculations
g 900
d 9.5
Iw 1.15
Kz 0.64
Kd 0.95
qz(pan 13.0
D-(qz)"0.5 119
hID 0.2
Cf 0.7
G 0.85
K.(80 264.0
F pbs) 2040
Page 1 of 3
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SEISMIC ANALYSIS
Page 6 of 14
TANK LATERAL ANALYSIS V4
mNo, not No.
• bbniim soxa Mo(acl Name t Title
7918NE 10Ld p%WNE acked B7 Beari d I By Saari
Ilersaom witi ln_
(425)29e•2s93 Dale ale
SEISMIC ANALYSIS FOR TANK OR VESSEL PER ASCE 745
Genealinput
(S,(g) %) 104
Sr(g)(%) 36
Site Class D ,
Diameter,K 8
Length or height.K 33 I
Annular plate,Inch 0.26
Annular plate yield strength,psi 36000
SeHweighl,Ibs 36000
Capacity,gallon 12000
Liquid Height,It
Content Water
Seismic Use Group III
'rank or vessel type 5.Ground supported,steel or FRP and mechanically anchored
Tank natural period(Tq,sec 0.5
Selamlc caiculauons
Fa 1.08 — —
Fv 1.42
S. 0.75
Sm 0.36
T. 0.48
28.56
S 0.02
1.50
R 3
. As 100.140
W.,Iba 136.140
►bs 5,399
1N,Ibs 128,845
.,—obs) 46,386
_...Pbs) 110
V.Pbs) 46.496
(it) 4
(K) 3
Factored moment Pbe-8) 139,823
oshing wave height,5(ft) 0.5
336
r 347
Page 2 of 3
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SLAB DESIGN FOR TANK SADDLE LOAD
Page 7 of 14
"GRDSLAB.xis" Program
Version 1.6
CONCRETE SLAB ON GRADE ANALYSIS
For Slab Subjected to Interior Concentrated Post or Wheel Loading
Assuming ACI-360"Type B"Design-Reinforced for Shrinkage and Temperature Only
Job Name: I Sub'ect:
Job Number: Originator: Checker:
Input Data:
Post Wheel
Slab Thickness,t= 13.000 in.
Concrete Strength,f'c= 4000 psi
P P
Conc. Unit Weight,we= 150 pcf Top/Slab
Reinforcing Yield,fy= 60000 psi
Subgrade Modulus, k= 150 pci
Concentrated Load, P= 34000.00 lbs. Contact Area,Ac t
Contact Area,Ac= 350.00 in.A2
Factor of Safety, FS= 2.00 (subgrade)
Dowel Bar Dia., db= 0.750 in. Concrete Slab on Grade
Dowel Bar Spacing, s= 12.000 in. -Direction of pour
Const.Joint Width, Z= 0.2500 in. Lubricate this end Stop slab reinf.(As)at joint Min.of
Joint Spacing, L= 20.000 ft. of all Dowels 1/8"-1/4"x t/4 formed joint V3 or 2"
Temperature Range,AT= 50.00 deg. _ — — _ t/2
Increase for 2nd Wheel, i= 15 % —'— actual)=
actual)=
3/4"0 Plain Dowels @ 12" —
Results: Typical Construction Joint for Load Transfer
Check Slab Flexural Stress: (assuming unreinforced slab with interior load condition) _
Effective Load Radius, a= 10.555 in. a= SQRT(Ac/7c)
Modulus of Elasticity, Ec= 3834254 psi Ec=33*wc^1.5*SQRT(f'c)
Modulus of Rupture, MR= 569.21 psi MR=9*SQRT(f'c) fp(actual)=
Cracking Moment, Mr= 16.03 ft-loft Mr= MR*(12*t"2/6)/12000 (per 1'= 12"width) Fp(allow)=
Poisson's Ratio, µ= 0.15 µ=0.15(assumed for concrete)
Radius of Stiffness, Lr= 46.777 in, Lr=(Ec*t^3/(12*(1-µ^2)*k))^0.25
Equivalent Radius, b= 9.860 in b=SQRT(1.6*aA2+t^2)-0.675*t, for a< 1.724*t bo=
1 Load:fb1(actual)= 240.03 psi fb1(actual)= 3*P*(1+µ)/(2*7[*t"2)*(LN(Lr/b)+0.6159) fvQae"I)=
2 Loads:fb2(actual)= 276.03 psi fb2(actual)= fb1(actual)*(1+i/100) Fv(allow)_
Fb(allow)= 284.60 psi Fb(allow)= MR/FS Fb(allow)>=fb(actual),O.K.
Check Slab Bearing Stress: (assuming working stress) (Ref.4)
fp(actual)= 97.14 psi fp(actual)= P/Ac W=
Fp(allow)= 2390.68 psi Fp(allow)=4.2*MR Fp(allow)>=fp(actual),O.K. fs=
As=
Check Slab Punching Shear Stress: (assuming working stress) (Ref.4)
bo= 74.833 in. bo=4*SQRT(Ac) (assumed shear perimeter)
fv(actual)= 20.62 psi fv(actual)= P/(t*(bo+4*t)) fr=
Fv(allow)= 153.69 psi Fv(allow)=0.27*MR Fv(allow)>=fv(actual),O.K. fs=
a=
Shrinkage and Temperature Reirli (assuming subgrade drag method) (Ref.3)
Friction Factor, F= 1.50 F= 1.5(assumed friction factor between subgrade and slati�s=
Slab Weight, W = 162.50 psf W =we*(t/12)
1 of 3 10/08/2012 16:36:04
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CHECK(3)3/4" HILTI KWIK BOLTS (4 INCH EMBED. MIN) Page 8 of 14
www.hilti.us Profis Anchor 2.3.1
Company: Page: 1
Specifier: Project:
Address: Sub-Project I Pos.No.:
Phone I Fax: I Date: 10/8/2012
E-Mail:
Specifier's comments:
1 Input data
Anchor type and diameter: Kwik Bolt TZ-CS 3/4(3 3/4) WOO
Effective embedment depth: hef=3.750 in.,hncm=4.313 in. r
Material: Carbon Steel
Evaluation Service Report:: ESR 1917
Issued I Valid: 4/1/2012I 5/1/2013
Proof: design method ACI 318/AC193
Stand-off installation: eb=0.000 in.(no stand-off);t=0.500 in.
Anchor plate: Ix x ly x t=48.000 in.x 6.000 in.x 0.500 in.;(Recommended plate thickness:not calculated)
Profile: S shape(AISC);(L x W x T x FT)=3.000 in.x 2.330 in.x 0.170 in.x 0.260 in.
Base material: cracked concrete,4000,fc'=4000 psi;h=420.000 in.
Reinforcement: tension:condition B,shear:condition B;no supplemental splitting reinforcement present
edge reinforcement:none or<No.4 bar
Seismic loads(cat.C,D,E,or F) no
Geometry[in.]&Loading[lb,in.lb]
z
of
'12 I�
9 }
O�f --
re j
r
Q�
Input data and results must be checked for agreement with the existing conditions and for plauslbllityl
PROFIS Anchor(c)2003-2009 Hilli AG,FL-9494 Schaan Hilti is a registered Trademark of Hill!AG,Schaan
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Page 9 of 14
www.hilti.us Profis Anchor 2.3.1
Company: Page: 2
Specifier: Project: y
Address: Sub-Project I Pos.No.:
Phone I Fax: [ Date: 101 12012
E-Mail:
2 Load case/Resulting anchor forces
Load case:Design loads
Anchor reactions[lb]
Tension force:(+Tension,-Compression)
Anchor Tension force Shear force Shear force x Shear force y
1 0 4000 0 -4000
2 0 4000 0 4000 1 -fix 03
3 0 4000 0 -4000
max.concrete compressive strain: -[%o]
max.concrete compressive stress: -[psi]
resulting tension force in(x/y)=(0.000/0.000): 0[lb]
resulting compression force in(x/y)=(0.000/0.000):0[lb]
3 Tension load
Load Nu.[lb) Capacity+Na[lb] Utilization PN=NaJ^ Status
Steel Strength* N/A N/A N/A N/A
Pullout Strength* N/A N/A N/A N/A
Concrete Breakout Strength** N/A N/A N/A N/A
*anchor having the highest loading **anchor group(anchors in tension)
Input data and results must be checked for agreement with the existing conditions and for plausibility!
PROFIS Anchor(c)2003-2009 Hill!AG,FL-9494 Schaan Hilt!is a registered Trademark of HIM AG,Schaan
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Page 10 of 14
www.hilti.us Profis Anchor 2.3.1
Company: Page: 3
Specifier: Project:
Address: Sub-Project I Pos.No.
Phone I Fax: I Date: 10/8/2012
E-Mail:
4 Shear load
Load Vua[lb] Capacity;Va[lb] Utilization Ov=Vua/4Vn Status
Steel Strength` 4000 888E 46 OK
Steel failure(with lever arm)* NIA N/A N/A N/A
Pryout Strength** 12000 32793 37 OK
Concrete edge failure in direction x+** 12000 23089 52 OK
*anchor having the highest loading **anchor group(relevant anchors)
4.1 Steel Strength
Vsa =ESR value refer to ICC-ES ESR 1917
�Vsteel Z Vua ACI 31 B-08 Eq.(D-2)
Variables A
n Ase,v[in?] fut.[psi]
1 0.24 106000
Calculations
Vsa[lb]
13674
Results
Vsa[lb] steel V.[lb] Vua[lb]
13674 0.650 8888 4000
4.2 Pryout Strength
Vcpg =kcp L\ANca)Vec,N Ved,N Wc,N Vcp,N Nb] ACI 318-08 Eq.(D-31)
�Vpg z Vua ACI 318-08 Eq.(D-2)
ANC see ACI 318-08,Part D.5.2.1,Fig.RD.5.2.1(b)
ANC =9 hef ACI 318-08 Eq.(D-6)
1
Vec,N = \1 +2 eN 5 1.0 ACI 318-08 Eq.(D-9)
3 her
liled,N =0.7+0.3(Oa-min)5 1.0 ACI 318-08 Eq.(D-11)
1.5hef
Wca N =MA/ca_min 1.5h 5 1.0 ACI 318-08 Eq.(D-13)
`` cac ' Oac )
Nb =kc haf5 ACI 318-08 Eq.(D-7)
Variables
km her[in.] ect.N[in.] ec2.N[in.] ca.min[in.]
2 3.750 0.000 0.000 12.000
Wc,N cac[in.] kc �. fc[psi]
1.000 8.000 17 4000
Calculations
AN.[In.1 AN.0[in Z] Wecl,N ec2,N Wed,N VcpN No[lb]
379.69 126.56 1.000 1.000 1.000 1.000 7808
Results
V,g[lb] �conaete V,e[lb] Vua[lb]
46846 0.700 32793 12000
Input data and results must be checked for agreement with the existing conditions and for plausibility]
PROMS Anchor(c)2003-2009 Hilti AG,FL-9494 Schaan Hilt!is a registered Trademark of Hilli AG,Schaan
1
1
Page 11 of 14
www.hilti.us Profis Anchor 2.3.1
Company: Page: 4
Specifier: Project:
Address: Sub-Project I Pos.No.:
Phone I Fax: Date: 10/8/2012
E-Mail:
4.3 Concrete edge failure in direction x+
Vcbg _(Avc )wec,V kiled,V wc,V Vh,V 1Vpamllel,V Vb ACI 318-08 Eq.(D-22)
Vcbg z V a ACI 318-08 Eq.(D-2)
Avc see ACI 318-08,Part D.6.2.1,Fig.RD.6.2.1(b)
Av.. =4.5 cal ACI 318-08 Eq.(D-23)
1
yJec,v = \1 + 2e / 51.0 ACI 318-08 Eq.(D-26)
3c,t/
,qw.v -0.7+0.3(1 Scat
h, )51.0 ACI 318-08 Eq.(D-28)
wn,v = 1 5cet>_1.0 ACI 318-08 Eq.(D-29)
1,2
Vb =(7(d� d.
) cep ACI 318-08 Eq.(D-24)
e
Variables
cat[in.] caz[in.] env[in.] WC,v he[in.]
12.000 12.000 0.000 1.000 420.000
le[in.] da[in.] fe[psi] wparaliel,v
3.750 1 0.750 4000 2.000
Calculations
Avc[in.z] Avc,,[in 2] wee V Wed,V wh,v Vb[lb]
540.00 648.00 1.000 0.900 1.000 21990
Results
Voyg[lb] concrete Vcb,[lb] Vea[lb]
32985 0.700 23089 12000
5 Warnings
• To avoid failure of the anchor plate the required thickness can be calculated in PROFIS Anchor.Load re-distributions on the anchors due to
elastic deformations of the anchor plate are not considered.The anchor plate is assumed to be sufficiently stiff,in order not to be deformed when
subjected to the loading!
• Condition A applies when supplementary reinforcement is used.The m factor is increased for non-steel Design Strengths except Pullout Strength
and Pryout strength. Condition B applies when supplementary reinforcement is not used and for Pullout Strength and Pryout Strength.Refer to
ACI 318,Part D.4.4(c).
• Refer to the manufacturer's product literature for cleaning and installation instructions.
• Checking the transfer of loads into the base material and the shear resistance are required in accordance with ACI318 or the relevant standard!
Fastening meets the design criteria!
Input data and results must be checked for agreement with the existing conditions and for plausibilityl
PROFIS Anchor(c)2003-2009 HIM AG,FL-9494 Schaan Hilti is a registered Trademark of Hill!AG,Schaan
I
I
Page 12 of 14
www.hilti.us Profis Anchor 2.3.1
Company: Page: 5
Specifier: Project:
Address: Sub-Project I Pos.No.
Phone I Fax: Date: 10/8/2012
E-Mail: '
6 Installation data
Anchor plate,steel:- Anchor type and diameter:Kwik Bolt TZ-CS,3/4(3 3/4)
Profile:S shape(AISC);3.000 x 2.330 x 0.170 x 0.260 in. Installation torque:1320.002 in.lb
Hole diameter in the fixture:dr=0.813 in. Hole diameter in the base material:0.750 in.
Plate thickness(input):0.500 in. Hole depth in the base material:4.313 in.
Recommended plate thickness:not calculated Minimum thickness of the base material:8.000 in.
Cleaning:Manual cleaning of the drilled hole according to instructions for use is required.
y
24.000 24.000
0 0
0 0
0 0
Cn vi
1
0 0
0 0
0 0
m vi
6.000 18.000 18.000 6.000
Coordinates Anchor in.
Anchor x y c x C+x c- c.l,
1 -18.000 0.000 - 48.000 12.000 -
2 0.000 0.000 - 30.000 12.000 -
3 18.000 0.000 - 12.000 12.000 -
Input data and results must be checked for agreement with the existing conditions and for plausibility!
PROMS Anchor(c)2003-2009 Hilti AG,FL-9494 Schaan Hilt!is a registered Trademark of Hilli AG,Schean
Page 13 of 14
old I
www.hilti.us Profis Anchor 2.3.1
Company: Page: 6
Specifier: Project:
Address: Sub-Project I Pos.No.:
Phone I Fax: Date: 10/6/2012
E-Mail: '
7 Remarks; Your Cooperation Duties
• Any and all information and data contained in the Software concern solely the use of Hilti products and are based on the principles,formulas and
security regulations in accordance with Hilti's technical directions and operating,mounting and assembly instructions,etc.,that must be strictly
complied with by the user. All figures contained therein are average figures,and therefore use-specific tests are to be conducted prior to using
the relevant Hilti product. The results of the calculations carried out by means of the Software are based essentially on the data you put in.
Therefore,you bear the sole responsibility for the absence of errors,the completeness and the relevance of the data to be put in by you.
Moreover,you bear sole responsibility for having the results of the calculation checked and cleared by an expert,particularly with regard to
compliance with applicable norms and permits,prior to using them for your specific facility. The Software serves only as an aid to interpret norms
and permits without any guarantee as to the absence of errors,the correctness and the relevance of the results or suitability for a specific
application.
• You must take all necessary and reasonable steps to prevent or limit damage caused by the Software. In particular,you must arrange for the
regular backup of programs and data and,if applicable,carry out the updates of the Software offered by Hilti on a regular basis.If you do not use
the AutoUpdate function of the Software,you must ensure that you are using the current and thus up-to-date version of the Software in each case
by carrying out manual updates via the Hilt Website. Hilti will not be liable for consequences,such as the recovery of lost or damaged data or
programs,arising from a culpable breach of duty by you.
Input data and results must be checked for agreement with the existing conditions and for plauslbilityl
PROFIS Anchor(c)2003-2009 Hild AG,FL-9494 Schaan Hilt!is a registered Trademark of HIM AG,Schaan
m _ _ ARLINGTON TANK ISSUE DATE 10-08-12 TANK FOUNDATION SLAB
www.b2engineers.com ISSUED FOR PERMIT
7516 NE 153rd Place
Kenmore,WA 98028 PROJECT NO. 1247
(425)296-2993 18919 59th Drive NE DESIGNER BASRI S KS-1
info@b2engineers.com Arlington,WA 98223
IMPORTANT NOTES:
1.MIN.CONCRETE COMPRESSIVE STRENGTH OF 4000 PSI WITH WATER
CEMENT RATIO NOT TO EXCEED 0.45
2.ALL REINFORCING SHALL BE GRADE 60
3.THE MINIMUM SPLICE LENGTH FOR#5 BAR TO BE 26"
13"THICK SLAB 6"THICK SLAB
REINF.WITH#5 REINF.WITH#5 AT 12" 13"THICK SLAB
6'-0"/ AT 12"E.W. E.W.(MID-DEPTH) 6'-0"
REINF.WITH#5
AT 12"E.W.
2
i
00
34'-0"
C� — TANK SADDLE
FOOTPRINT
TANK
FOOTPRINT
1 12,000 GALLON TANK SLAB -
1/8" = 1'-0"
1 1 @ 40
WA �sQ♦
I .tic o,
SADDLE (3)3/4"HILTI
ANGLE KWIK BOLT i
PLATE
G 43789
in /a-d� NAL
1 c0 w w
LI
/ a
- r
6'-0" CONCRETE
�i SLAB
#5 AT 12"E.W.
6"COMPACTED (MID-DEPTH)
CRUSHED ROCK
SLAB SECTION
2 1/2" = 1'-0"
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MOTOR FUEL-DISPENSING FACILITIES At 'EPAIR GARAGES
drain valve that drains into the primary tank. For tanks liquid on both sides of a breakaway point.Such devices •
with a remote fill connection,a portable spill container is shall be installed and maintained in accordance with the
allowed. manufacturer's instructions.Where hoses are attached to
2206.6.3 Piping,valves,fittings and ancillary equipment hose-retrieving mechanisms,the emergency breakaway
for underground tanks.Piping,valves,fittings and ancil- device shall be located between the hose nozzle and the
lary equipment for underground tanks shall comply with• point of attachment of the hose-retrieval mechanism to
Chapter 34 and NFPA 30A. the hose.
2206.7 Fuel-dispensing systems for flammable or combus- el delivery nozzles.A listed automatic-closing-
tible liquids. The design, fabrication and installation of type hose nozzle valve with or without a latch-open device
fuel-dispensing systems for flammable or combustible liquid shall be provided on island-type dispensers used for dis-
fuels shall be in accordance with Sections 2206.7.1 through pensing Class I,II or IIIA liquids.
2206.7.9.2.4. Alcohol blended fuel-dispensing systems shall Overhead-type dispensing units shall be provided with a
also comply with Section 2206.8. listed automatic-closing-type hose nozzle valve without a
2206.7.1 Listed equipment.Electrical equipment,dispens- latch-open device.
ers, hose, nozzles and submersible or subsurface pumps
used in fuel-dispensing systems shall be listed. Exception:A listed automatic-closing-type hose nozzle
valve with latch-open device is allowed to be used on
2206.7.2 Fixed pumps required.Class I and II liquids shall overhead-type dispensing units where the design of the
be transferred from tanks by means of fixed pumps designed system is such that the hose nozzle valve will close auto-
and equipped to allow control of the flow and prevent leak- matically in the event the valve is released from a fill
a e or accidental discharge. opening or upon impact with a driveway.
2206.7 ounting of dispensers. Dispensing devices, (12_0�6. pecial requirements for nozzles. Where
except those installed on top of a protected above-ground dispensing of Class 1,II or IIIA liquids is performed, a
tank that qualifies as vehicle-impact resistant,shall be pro- listed automatic-closing-type hose nozzle valve shall be
tected against physical damage by mounting on a concrete used incorporating all of the following features:
island 6 inches(152 mm)or more in height,or shall be pro-
tected in accordance with Section 312.Dispensing devices 1. The hose nozzle valve shall be equipped with an
shall be installed and securely fastened to their mounting integral latch-open device.
surface in accordance with the dispenser manufacturer's 2. When the flow of product is normally controlled
instructions. Dispensing devices installed indoors shall be by devices or equipment other than the hose nozzle
located in an approved position where they cannot be struck valve,the hose nozzle valve shall not be capable of
by an out-of-control vehicle descending a ramp or other being opened unless the delivery hose is pressur-
ized.If pressure to the hose is lost,the nozzle shall
2206.7.4 Dispenser emergency shutoff valve. An close automatically.
approved automatic emergency shutoff valve designed to Exception:Vapor recovery nozzles incorporat-
close in the event of a fire or impact shall be properly installed ing insertion interlock devices designed to
in the liquid supply line at the base of each dispenser supplied achieve shutoff disconnect from the vehicle
by a remote pump. The valve shall be installed so that the
shear groove is flush with or within'/Z inch(12.7 mm)of the fill pipe.
top of the concrete dispenser island and there is clearance 3. The hose nozzle shall be designed such that the
provided for maintenance purposes around the valve body nozzle is retained in the fill pipe during the filling
and operating parts.The valve shall be installed at the liquid operation.
supply line inlet of each overhead-type dispenser. Where
installed, a vapor return line located inside the dispenser 4. The system shall include listed equipment with a
housing shall have a shear section or approved flexible con- feature that causes or requires the closing of the
nector for the liquid supply line emergency shutoff valve to hose nozzle valve before the product flow can be
function. Emergency shutoff valves shall be installed and resumed or before the hose nozzle valve can be
maintained in accordance with the manufacturer's instruc- replaced in its normal position in the dispenser.
tions, tested at the time of initial installation and at least 2206.7.7 Remote pumping systems.Remote pumping sys-
yearly thereafter in accordance with Section 2205.2.4. tems for liquid fuels shall comply with Sections 2206.7.7.1
206.ft penser hose.Dispenser hoses shall be a maxi- and 2206.7.7.2.
mu feet (5486 mm) in length unless otherwise 2206.7.7.1 Leak detection. Where remote pumps are
approved. Dispenser hoses shall be listed and approved. used to supply fuel dispensers, each pump shall have
When not in use,hoses shall be reeled,racked or otherwise installed on the discharge side a listed leak detection
protected from damage. device that will detect a leak in the piping and dispensers •
2206.7.5_ mergeney breakaway devices.Dispenser and provide an indication.A leak detection device is not
Hoses for Class I and II liquids shall be equipped with a required if the piping from the pump discharge to under
listed emergency breakaway device designed to retain the dispenser is above ground and visible.
214 2009 INTERNATIONAL FIRE CODE®
I '
I
r•
MOTOR FUEL-DISPENSING FACILITIES AND REPAIR GARAGES
tation, debris and other material that is not necessary to the rate pumps or dispensers for a product,the reconciliation
proper operation of the tank and piping system. shall be ascertained separately for each tank system. A
Weeds, grass,brush,trash and other combustible materials consistent or accidental loss of product shall be immedi-
shall be kept not less than 10 feet(3048 mm) from fuel-han- ately reported to the fire code official.
dling equipment. 2206.2.2 Above-ground tanks located inside buildings.
Above-ground tanks for the storage of Class I,II and IIIA
liquid fuels are allowed to be located in buildings. Such
SECTION 2206 tanks shall be located in special enclosures complying with
FLAMMABLE AND COMBUSTIBLE LIQUID Section 2206.2.6,in a liquid storage room or a liquid storage
MOTOR FUEL-DISPENSING FACILITIES warehouse complying with Chapter 34, or shall be listed
2206.1 General. Storage of flammable and combustible liq- and labeled as protected above-ground tanks.
uids shall be in accordance with Chapter 34 and Sections 2206.2.3 Above-ground tanks located outside, above
2206.2 through 2206.6.3. grade.Above-ground tanks shall not be used for the storage
2206.2 Method of storage.Approved methods of storage for of Class I,II or IIIA liquid motor fuels except as provided by
Class I,II and IIIA liquid fuels at motor fuel-dispensing facili- this section.
ties shall be in accordance with Sections 2206.2.1 through 1. Above-ground tanks used for outside, above-grade
2206.2.5. storage of Class I liquids shall be listed and labeled as
2206.2.1 Underground tanks.Underground tanks for the protected above-ground tanks and be in accordance
storage of Class I,II and IIIA liquid fuels shall comply with with Chapter 34.Such tanks shall be located in accor-
Chapter 34. dance with Table 2206.2.3.
2206.2.1.1 Inventory control for underground tanks. 2. Above-ground tanks used for above-grade storage of
Accurate daily inventory records shall be maintained and Class II or IIIA liquids are allowed to be protected
reconciled on underground fuel storage tanks for indica- above-ground tanks or, when approved by the fire
tion of possible leakage from tanks and piping. The code official, other above-ground tanks that comply
records shall be kept at the premises or made available with Chapter 34. Tank locations shall be in accor-
for inspection by the fire code official within 24 hours of dance with Table 2206.2.3.
a written or verbal request and shall include records for 3. Tanks containing fuels shall not exceed 12,000 gal-
each product showing daily reconciliation between Ions(45 420 L)in individual capacity or 48,000 gal-
sales,use,receipts and inventory on hand.Where there is lons(181 680 L)in aggregate capacity.Installations
more than one system consisting of tanks serving sepa- with the maximum allowable aggregate capacity shall
TABLE 2206.2.3
MINIMUM SEPARATION REQUIREMENTS FOR ABOVE-GROUND TANKS
MINIMUM DISTANCE
FROM LOT LINE
MINIMUM DISTANCE THAT IS OR CAN BE
FROM NEAREST BUILT UPON, MINIMUM DISTANCE
IMPORTANT MINIMUM DISTANCE INCLUDING THE FROM NEAREST
INDIVIDUAL TANK BUILDING ON SAME FROM NEAREST OPPOSITE SIDE OF SIDE OF ANY MINIMUM DISTANCE
CLASS OF LIQUID CAPACITY PROPERTY FUEL DISPENSER A PUBLIC WAY PUBLIC WAY BETWEEN TANKS
AND TANK TYPE (gallons) (feet) (feet) (feet) (feet) (feet)
Class I protected Less than or equal 5 25a 15 5 3
above-ground to 6,000
tanks Greater than 6,000 15 25- 25 15 3
Class II and III
protected Same as Class I Same as Class I Same as Class I Same as Class I Same as Class I Same as Class I
above-ground
tanks
Separate
Tanks in vaults 0-20,000 Ob 0 Ob 0 compartment
required for each
tank
Other tanks All 50 50 100 50 1 3
For SI: 1 foot=304.8 mm,1 gallon=3.785 L.
a. At fleet vehicle motor fuel-dispensing facilities,no minimum separation distance is required.
b. Underground vaults shall be located such that they will not be subject to loading from nearby structures,or they shall be designed to accommodate applied loads
from existing or future structures that can be built nearby.
212 2009 INTERNATIONAL FIRE CODE®
v � �-�
MOTOR FUEL-DISPENv iNG FACILITIES AND REPAIR GARAGES
be separated from other such installations by not less 2206.3 Security.Above-ground tanks for the storage of liquid
than 100 feet(30 480 mm). motor fuels shall be safeguarded from public access or unau-
4. Tanks located at farms,construction projects,or rural thorized entry in an approved manner.
areas shall comply with Section 3406.2. 2206.4 Physical protection.Guard posts complying with Sec-
2206.2.4 Above-ground tanks located in above-grade tion 312 or other approved means shall be provided to protect
vaults or below-grade vaults. Above-ground tanks used above-ground tanks against impact by a motor vehicle unless e
the tank is listed as a protected above-ground tank with vehicle
for storage of Class I, II or IIIA liquid motor fuels are
allowed to be installed in vaults located above grade or impact protection.
below grade in accordance with Section 3404.2.8 and shall 2206.5 Secondary containment.Above-ground tanks shall be
comply with Sections 2206.2.4.1 and 2206.2.4.2. Tanks in provided with drainage control or diking in accordance with
above-grade vaults shall also comply with Table 2206.2.3. Chapter 34. Drainage control and diking is not required for
2206.2.4.1 Tank capacity limits.Tanks storing Class I listed secondary containment tanks. Secondary containment
and Class II liquids at an individual site shall be lim- systems shall be monitored either visually or automatically.
ited to a maximum individual capacity of 15,000 gal- Enclosed secondary containment systems shall be provided
lons (56 775 L) and an aggregate capacity of 48,000 with emergency venting in accordance with Section
gallons (181 680 L). 2206.6.2.5.
2206.6 Piping,valves,fittings and ancillary equipment for
2206.2.4.2 Fleet vehicle motor fuel-dispensing facili- use with flammable or combustible liquids.The design,fab-
ties. Tanks storing Class II and Class IIIA liquids at a rication,assembly,testing and inspection of piping,valves,fit-
fleet vehicle motor fuel-dispensing facility shall be lim- tings and ancillary equipment for use with flammable or
ited to a maximum individual capacity of 20,000 gallons combustible liquids shall be in accordance with Chapter 34 and
(75 700 L)and an aggregate capacity of 80,000 gallons Sections 2206.6.1 through 2206.6.3.
(302 800 Q.
2206.6.1 Protection from damage.Piping shall be located
2206.2.5 Portable tanks.Where approved by the fire code such that it is protected from physical damage.
official,portable tanks are allowed to be temporarily used in
conjunction with the dispensing of Class I,II or IIIA liquids 2206.6.2 Piping,valves,fittings and ancillary equipment
into the fuel tanks of motor vehicles or motorized equip- for above-ground tanks for Class I,II and IIIA liquids.
ment on premises not normally accessible to the public.The Piping, valves, fittings and ancillary equipment for
approval shall include a definite time limit. above-ground tanks shall comply with Sections 2206.6.2.1
through 2206.6.2.6.
2206.2.E Special enclosures.Where installation of tanks in 2206.6.2.1 Tank openings. Tank openings for
accordance with Section 3404.2.11 is impractical, or above-ground tanks shall be through the top only.
because of property or building limitations,tanks for liquid
motor fuels are allowed to be installed in buildings in special 2206.6.2.2 Fill-pipe connections. The fill pipe for
enclosures in accordance with all of the following: above-ground tanks shall be provided with a means for
1. The special enclosure shall be liquid tight and vapor making a direct connection to the tank vehicle's
tight. fuel-delivery hose so that the delivery of fuel is not
exposed to the open air during the filling operation.
2. The special enclosure shall not contain backfill. Where any portion of the fill pipe exterior to the tank
3. Sides,top and bottom of the special enclosure shall be extends below the level of the top of the tank, a check
of reinforced concrete at least 6 inches (152 mm) valve shall be installed in the fill pipe not more than 12
thick, with openings for inspection through the top inches(305 mm)from the fill-hose connection.
only. 2206.6.2.3 Overfill protection.Overfill protection shall
4. Tank connections shall be piped or closed such that be provided for above-ground flammable and combusti-
neither vapors nor liquid can escape into the enclosed ble liquid storage tanks in accordance with Sections
space between the special enclosure and any tanks 3404.2.7.5.8 and 3404.2.9.7.6.
inside the special enclosure. 2206.6.2.4 Siphon prevention.An approved antisi-ip„Gn
5. Means shall be provided whereby portable equipment method shall be provided in the piping system to prevent
can be employed to discharge to the outside any flow of liquid by siphon action.
vapors which might accumulate inside the special 2206.6.2.5 Emergency relief venting. Above-ground
enclosure should leakage occur. storage tanks,tank compartments and enclosed second-
6. Tanks containing Class I,II or IIIA liquids inside a ary containment spaces shall be provided with emer-
special enclosure shall not exceed 6,000 gallons gency relief venting in accordance with Chapter 34.
(22 710 L)in individual capacity or 18,000 gallons 2206.6.2.6 Spill containers.A spill container having a
(68 130 L) in aggregate capacity. capacity of not less than 5 gallons (19 L) shall be pro-
7. Each tank within special enclosures shall be sur- vided for each fill connection. For tanks with a top fill
rounded by a clear space of not less than 3 feet(910 connection,spill containers shall be noncombustible and
mm)to allow for maintenance and inspection. shall be fixed to the tank and equipped with a manual
2009 INTERNATIONAL FIRE CODE® 213
Aviation Gasoline, 100 LL
ConocoPhillip
Material Safety Data Sheet
[1. PRODUCT AND COMPANY IDENTIFICATION
Product Name: Aviation Gasoline, 100 LL p
MSDS Code: 001769 G/1�S A
Synonyms: 100 Low Lead Gasoline
100 Octane Aviation
ASTM 100/130 Aviation Gasoline
Avgas
Avgas100
Intended Use: Fuel
Responsible Party: ConocoPhillips
600 N. Dairy Ashford
Houston, Texas 77079-1175
Customer Service: 800-640-1956
Technical Information: 800-255-9556
MSDS Information: Phone: 800-762-0942
Email: MSDS@conocophillips.com
Internet: http://w3.conocophillips.com/NetMSDS/
Emergency Telephone Numbers: Chemtrec: 800-424-9300(24 Hours)
California Poison Control System: 800-356-3219
2. HAZARDS IDENTIFICATION
Emergency Overview NFPA
DANGER!
Extremely Flammable Liquid and Vapor
Skin Irritant Q
Aspiration Hazard
Appearance: Blue
Physical Form: Liquid
Odor: Gasoline-like
Potential Health Effects
Eye: Contact may cause mild eye irritation including stinging,watering, and redness.
Skin: Skin irritant. Contact may cause redness, itching, a burning sensation, and skin damage. Prolonged or repeated contact can
defat the skin, causing drying and cracking of the skin, and possibly dermatitis(inflammation) Not acutely toxic by skin absorption, but
prolonged or repeated skin contact may be harmful (see Section 11).
Inhalation(Breathing): Low to moderate degree of toxicity by inhalation.
Ingestion(Swallowing): Low degree of toxicity by ingestion.ASPIRATION HAZARD-This material can enter lungs during swallowing
or vomiting and cause lung inflammation and damage.
Signs and Symptoms: Effects of overexposure may include nausea, vomiting, flushing, blurred vision,tremors, signs of nervous
system depression(e.g., headache, drowsiness,dizziness, loss of coordination, disorientation and fatigue), unconsciousness,
convulsions, death.
001769-Aviation Gasoline, 100 LL Page 1/9
Date of Issue:23-May-2007 Status: Final
001769-Aviation Gasoline, 100 LL Page 2/9
Date of Issue: 23-May-2007 Status: Final
Pre-Existing Medical Conditions: Conditions aggravated by exposure may include skin disorders, respiratory(asthma-like)disorders
Exposure to high concentrations of this material may increase the sensitivity of the heart to certain drugs. Persons with pre-existing
heart disorders may be more susceptible to this effect(see Section 4-Note to Physicians).
See Section 11 for additional Toxicity Information.
�3. COMPOSITION / INFORMATION ON INGREDIENTS
Component CAS Concentration wt
Gasoline NONE >99.8
(Benzene 71-43-2 <&5
Tetraethyl Lead 78-00-2 <0.13
FIRST AID MEASURES
Eye: If irritation or redness develops from exposure, flush eyes with clean water. If symptoms persist, seek medical attention.
Skin: Remove contaminated shoes and clothing, and flush affected area(s)with large amounts of water. If skin surface is damaged,
apply a clean dressing and seek medical attention. If skin surface is not damaged, cleanse affected area(s)thoroughly by washing with
mild soap and water or a waterless hand cleaner. If irritation or redness develops, seek medical attention Remove contaminated shoes
and clothing and cleanse affected area(s)thoroughly by washing with mild soap and water or a waterless hand cleaner. If irritation or
redness develops and persists, seek medical attention.
Inhalation(Breathing): If respiratory symptoms or other symptoms of exposure develop, move victim away from source of exposure
and into fresh air. If symptoms persist, seek immediate medical attention If victim is not breathing, clear airway and immediately begin
artificial respiration. If breathing difficulties develop, oxygen should be administered by qualified personnel. Seek immediate medical
attention.
Ingestion (Swallowing):Aspiration hazard: Do not induce vomiting or give anything by mouth because this material can enter the
lungs and cause severe lung damage. If victim is drowsy or unconscious and vomiting, place on the left side with the head down. If
possible,do not leave victim unattended and observe closely for adequacy of breathing. Seek medical attention.
Notes to Physician: Epinephrine and other sympathomimetic drugs may initiate cardiac arrhythmias in persons exposed to high
concentrations of hydrocarbon solvents(e.g., in enclosed spaces or with deliberate abuse) The use of other drugs with less
arrhythmogenic potential should be considered. If sympathomimetic drugs are administered, observe for the development of cardiac
arrhythmias.
Federal regulations(29 CFR 1910.1028)specify medical surveillance programs for certain exposures to benzene above the action level
or PEL(specified in Section (i)(1)(i)of the Standard). In addition, employees exposed in an emergency situation shall, as described in
Section(i)(4)(i), provide a urine sample at the end of the shift for measurement of urine phenol.
[5. FIRE-FIGHTING MEASURES
NFPA 704 Lazard Class
Health: 1 Flammability: 3 Instability: 0 (0-Minimal, 1-Slight, 2-Moderate, 3-Serious,4-Severe)
Unusual Fire&Explosion Hazards: This material is extremely flammable and can be ignited by heat, sparks,flames, or other sources
of ignition(e.g., static electricity, pilot lights, mechanical/electrical equipment, and electronic devices such as cell phones, computers,
calculators, and pagers which have not been certified as intrinsically safe). Vapors may travel considerable distances to a source of
ignition where they can ignite, flash back, or explode. May create vapor/air explosion hazard indoors, in confined spaces, outdoors, or in
sewers If container is not properly cooled, it can rupture in the heat of a fire
Extinguishing Media: Dry chemical, carbon dioxide, or foam is recommended. Water spray is recommended to cool or protect
exposed materials or structures. Carbon dioxide can displace oxygen. Use caution when applying carbon dioxide in confined spaces.
Water may be ineffective for extinguishment, unless used under favorable conditions by experienced fire fighters.
it
7
I
001769-Aviation Gasoline, 100 LL Page 319
Date of Issue: 23-May-2007 Status: Final
Fire Fighting Instructions: For fires beyond the incipient stage, emergency responders in the immediate hazard area should wear
bunker gear. When the potential chemical hazard is unknown, in enclosed or confined spaces, or when explicitly required by DOT, a
self contained breathing apparatus should be worn. In addition, wear other appropriate protective equipment as conditions warrant(see
Section 8)
Isolate immediate hazard area, keep unauthorized personnel out. Stop spill/release if it can be done with minimal risk Move
undamaged containers from immediate hazard area if it can be done with minimal risk.
Water spray may be useful in minimizing or dispersing vapors and to protect personnel. Cool equipment exposed to fire with water, if it
can be done with minimal risk. Avoid spreading burning liquid with water used for cooling purposes.
See Section 9 for Flammable Properties including Flash Point and Flammable(Explosive) Limits
. ACCIDENTAL RELEASE MEASURES
Personal precautions: Extremely flammable Keep all sources of ignition and hot metal surfaces away from spill/release. The use of
explosion-proof electrical equipment is recommended.
Spill precautions: Stay upwind and away from spill/release. Notify persons down wind of the spill/release, isolate immediate hazard
area and keep unauthorized personnel out. Stop spill/release if it can be done with minimal risk. Wear appropriate protective equipment,
including respiratory protection, as conditions warrant(see Section 8).
Environmental precautions: Prevent spilled material from entering sewers, storm drains, other unauthorized drainage systems, and
natural waterways. Dike far ahead of spill for later recovery or disposal. Use foam on spills to minimize vapors(see Section 5).
Spilled material may be absorbed into an appropriate absorbent material.
Methods for cleaning up: Notify fire authorities and appropriate federal, state, and local agencies. Immediate cleanup of any spill is
recommended
V. HANDLING AND STORAGE
Handling: Open container slowly to relieve any pressure. Bond and ground all equipment when transferring from one vessel to another
Can accumulate static charge by flow or agitation. Can be ignited by static discharge.The use of explosion-proof electrical equipment
is recommended and may be required(see appropriate fire codes). Refer to NFPA-704 and/or API RP 2003 for specific
bonding/grounding requirements. Do not enter confined spaces such as tanks or pits without following proper entry procedures such as
ASTM D-4276 and 29CFR 1910.146. The use of appropriate respiratory protection is advised when concentrations exceed any
established exposure limits(see Section 8).
Wash thoroughly after handling. Do not wear contaminated clothing or shoes. Keep contaminated clothing away from sources of ignition
such as sparks or open flames. Use good personal hygiene practices.
"Empty"containers retain residue and may be dangerous. Do not pressurize, cut, weld, braze, solder, drill, grind, or expose such
containers to heat, flame, sparks, or other sources of ignition. They may explode and cause injury or death. "Empty"drums should be
completely drained, properly bunged, and promptly shipped to the supplier or a drum reconditioner. All containers should be disposed
of in an environmentally safe manner and in accordance with governmental regulations.
Before working on or in tanks which contain or have contained this material, refer to OSHA regulations,ANSI Z49.1, and other
references pertaining to cleaning, repairing,welding, or other contemplated operations.
Storage: Keep container(s)tightly closed. Use and store this material in cool, dry,well-ventilated areas away from heat,direct
sunlight, hot metal surfaces, and all sources of ignition. Post area"No Smoking or Open Flame." Store only in approved containers.
. EXPOSURE CONTROLS / PERSONAL PROTECTION
iI
I
001769-Aviation Gasoline, 100 LL Page 4/9
Date of Issue:23-May-2007 Status: Final
. EXPOSURE CONTROLS / PERSONAL PROTECTION
Component ACGIH OSHA Other:
Gasoline 300 ppm TWA --
890 mg/m3 TWA
500 ppm STEL
1480 m /m3 STEL
Benzene TWA: 0.5 ppm Ceiling:25 ppm ---
STEL: 2.5 ppm STEL: 5 ppm
Skin TWA: 1 ppm
TWA: 10 ppm
etraethyl Lead TWA: 0.1 mg/m3 Skin ---
Skin TWA: 0.075 m /m3
Note: State, local or other agencies or advisory groups may have established more stringent limits Consult an industrial hygienist or
similar professional, or your local agencies, for further information.
Contains benzene. If exposure concentrations exceed the 0 5 ppm action level, OSHA requirements for personal protective equipment,
exposure monitoring, and training may apply(29CFR1910.1028). Also see Section 4.
Engineering controls: If current ventilation practices are not adequate to maintain airborne concentrations below the established
exposure limits additional engineering controls may be required Where explosive mixtures may be present, electrical systems safe for
such locations must be used(see appropriate electrical codes).
Personal Protective Equipment(PPE):
Eye/Face:Approved eye protection to safeguard against potential eye contact, irritation, or injury is recommended. Depending
on conditions of use, a face shield may be necessary.
Skin:The use of nitrile gloves impervious to the specific material.handled-with Silver Shield/4H®laminate or equivalent as an
under glove due to the tetraethyl lead containing gasoline is advised to prevent skin contact, possible irritation, and skin damage
(see glove manufacturer literature for information on permeability). Depending on conditions of use, nitrile apron and/or arm
covers may be necessary.
Respiratory:A NIOSH certified air purifying respirator with an organic vapor cartridge may be used under conditions where
airborne concentrations are expected to exceed exposure limits.
Protection provided by air purifying respirators is limited (see manufacturer's respirator selection guide). Use a NIOSH approved
self-contained breathing apparatus(SCBA)or equivalent operated in a pressure demand or other positive pressure mode if there
is potential for an oxygen-deficient atmosphere, uncontrolled release, exposure levels are not known, or any other circumstances
where air purifying respirators may not provide adequate protection.
A respiratory protection program that meets OSHA's 29 CFR 1910.134 and ANSI Z88 2 requirements must be followed
whenever workplace conditions warrant a respirator's use.
If benzene values equal or exceed applicable exposure limits the use of respiratory protection should comply with the
requirements in OSHA 29 CFR 1910.1028-Benzene.
Other Protective Equipment:A source of clean water should be available in the work area for flushing eyes and skin.
Impervious clothing should be worn as needed.
Suggestions for the use of specific protective materials are based on readily available published data. Users should check with
specific manufacturers to confirm the performance of their products.
�9. PHYSICAL AND CHEMICAL PROPERTIES
Note: Unless otherwise stated, values are determined at 20°C (68°F)and 760 mm Hg(1 atm).
Data represent typical values and are not intended to be specifications.
Appearance: Blue
Physical Form: Liquid
Odor: Gasoline-like
Odor Threshold: No data
pH: Not applicable
1
001769-Aviation Gasoline, 100 LL Page 5/9
Date of Issue: 23-May-2007 Status: Final
Vapor Pressure: 5.5-7.0 psia(Reid VP)@ 100°F
Vapor Density(air=1): >1
Boiling Point/Range: 75-338°F/24-170°C
Melting/Freezing Point: <-72°F/<-58°C
Partition Coefficient(n-octanol/water)(Kow): No data
Specific Gravity: 0 68-0.74 @ 60OF(15.6°C)
Bulk Density: 5 83 Ibs/gal
Percent Volatile: 100%
Evaporation Rate(nBuAc=1): >1
Flash Point: <-35°F/<-37°C
Test Method: (estimate)
LEL(vol %in air): 1 5
UEL(vol %in air): 7.6
Autoignition Temperature: 824°F/440°C
10. STABILITY AND REACTIVITY
Stability: Stable under normal ambient and anticipated storage and handling conditions of temperature and pressure. Extremely
flammable liquid and vapor Vapor can cause flash fire.
Conditions to Avoid:Avoid all possible sources of ignition(see Sections 5 and 7).
Materials to Avoid (Incompatible Materials):strong oxidizing agents such as acids, chlorine, dichromates, or permanganates can
cause fire or explosion.
Hazardous Decomposition Products: Combustion can yield lead fumes, carbon, nitrogen and sulfur oxides.
Hazardous Polymerization:Will not occur.
r1. TOXICOLOGICAL INFORMATION
Chronic Data:
Gasoline
Carcinogenicity: Two year inhalation studies of wholly vaporized unleaded gasoline produced increased incidences of kidney
tumors in male rats and liver tumors in female mice. Follow-up studies suggest that occurrence of the kidney tumors may be
linked to alpha-2-u-globulin nephropathy, and most likely unique to the male rat. Epidemiology data collected from a study of
more than 18,000 petroleum marketing and distribution workers showed no increased risk of leukemia, multiple myeloma, or
kidney cancer from gasoline exposure. Unleaded gasoline has been identified as a possible carcinogen by IARC. Because
solvent extracts of gasoline exhaust particulates caused skin cancer in laboratory animals, IARC has categorized gasoline
engine exhaust as a possible human cancer hazard.
Target Organs: A two year inhalation study of wholly vaporized unleaded gasoline produced nephropathy in male rats,
characterized by the accumulation of alpha-2-u-globulin in epithelial cells of the proximal tubules, and necrosis and hyperplasia
of surrounding cells. Follow-up studies suggest that these changes are unique to the male rat.
Reproductive: No evidence of developmental toxicity was found in pregnant laboratory animals(rats and mice)exposed to up
to 9,000 ppm vapor of unleaded gasoline via inhalation.
Xylenes
Target Organs: Rats exposed to 800, 1000 or 1200 ppm 14 hours daily for 6 weeks demonstrated high frequency hearing loss.
Another study in rats exposed to 1800 ppm 8 hours daily for 5 days demonstrated middle frequency hearing loss.
Reproductive: Both mixed xylenes and the individual isomers produced limited evidence of developmental toxicity in laboratory
animals. Inhalation and oral administration of xylene resulted in decreased fetal weight, increased incidences of delayed
ossification, skeletal variations and resorptions.
Toluene
Target Organs: Epidemiology studies suggest that chronic occupational overexposure to toluene may damage color vision
Subchronic and chronic inhalation studies with toluene produced kidney and liver damage, hearing loss and central nervous
system (brain)damage in laboratory animals. Intentional misuse by deliberate inhalation of high concentrations of toluene has
been shown to cause liver, kidney, and central nervous system damage, including hearing loss and visual disturbances.
Reproductive: Exposure to toluene during pregnancy has demonstrated limited evidence of developmental toxicity in
laboratory animals The effects seen include decreased fetal body weight and increased skeletal variations in both inhalation
and oral studies.
Ethyl Benzene
i
001769-Aviation Gasoline, 100 LL Page 6/9
Date of Issue:23-May-2007 Status: Final
Carcinogenicity. Rats and mice exposed to 0, 75, 250, or 750 ppm ethyl benzene in a two year inhalation study demonstrated
limited evidence of kidney, liver, and lung cancer. Ethyl benzene has been listed as a possible human carcinogen by IARC.
Ethyl benzene has not been listed as a carcinogen by NTP, or OSHA.
n-Hexane
Target Organs: Excessive exposure to n-hexane can result in peripheral neuropathies. The initial symptoms are symmetrical
sensory numbness and paresthesias of distal portions of the extremities. Motor weakness is typically observed in muscles of the
toes and fingers but may also involve muscles of the arms,thighs and forearms. The onset of these symptoms may be delayed
for several months to a year after the beginning of exposure. The neurotoxic properties of n-hexane are potentiated by exposure
to methyl ethyl ketone and methyl isobutyl ketone.
Reproductive: Prolonged exposure to high concentrations of n-hexane(>1,000 ppm)has resulted in decreased sperm count
and degenerative changes in the testes of rats but not those of mice.
Benzene
Carcinogenicity. Benzene is known to cause cancer of the blood-forming organs in humans, including acute myelogenous
leukemia. It has been identified as a human carcinogen by NTP, IARC and OSHA.
Target Organs: Prolonged or repeated exposures to benzene vapors can cause damage to the blood and blood forming
organs, including disorders like leukopenia, thrombocytopenia, and aplastic anemia.
Reproductive: Exposure to benzene during pregnancy demonstrated limited evidence of developmental toxicity in laboratory
animals. The effects seen include decreased body weight and increased skeletal variations in rodents. Alterations in
hematopoeisis have been observed in the fetuses and offspring of pregnant mice.
Mutagenic Effects: Benzene exposure has resulted in chromosomal aberrations in human lymphocytes and animal bone
marrow cells, and DNA damage in mammalian cells in vitro.
Tetraethyl Lead
Carcinogenicity. While inorganic lead compounds have caused cancer in laboratory animals, organic lead compounds have
not been identified as a carcinogen by NTP, IARC or OSHA.
Acute Data:
Component Oral LD50 Dermal LD50 Inhalation LC50
Gasoline 18.75 ml/k Rat >5 ml/k (Rabbit) 300 /m3/5M rat, mouse, i
Benzene 930 m /k Rat >9400 mg/kg (Rabbit) 10000 m/7hr. Rat
12. ECOLOGICAL INFORMATION
The individual hydrocarbon components of this material are differentially soluble in water with aromatic hydrocarbons tending to be more
water soluble than aliphatic hydrocarbons. If spilled, the more volatile components will evaporate rapidly. Factors such as local
environmetnal conditions(temperature,wind, soil type, mixing or wave action in water, etc), photo-oxidation, biodegradation and
adsorption onto suspended sediments, contribute to the weathering of spilled material. Because of their differential solubility, the
occurrence of hydrocarbons in groundwater will be at different proportions than the parent material.
The potential for bioaccumulation and/or long term persistence of these materials in the environment is low to non-existent. In
laboratory soil column experiments,the half-time of unleaded gasoline was reported as 1.2 to 2.7 days in sand, loam or clay soils.
Microorganisms prsent in sediments and in the water are capable of degrading gasoline and naphtha containing hydrocarbons. Simpler
hydrocarbons are more readily degraded than complex molecules Adaption of bacteria in gasoline-contaminated groundwater to the
soluble constituents has been reported
In general, naphtha streams exhibit some short-term toxicity to freshwater and marine organisms,especially under closed vessel or
flow-through exposure conditions in the laboratory. The components most likely causing toxicity are also highly volatile and can be
readily biodegraded by microorganisms.
13. DISPOSAL CONSIDERATIONS
i�
001769-Aviation Gasoline, 100 LL Page 7/9
Date of Issue: 23-May-2007 Status: Final
[13. DISPOSAL CONSIDERATIONS
The generator of a waste is always responsible for making proper hazardous waste determinations and needs to consider state and
local requirements in addition to federal regulations.
This material, if discarded as produced,would not be a federally regulated RCRA"listed" hazardous waste. However, it would likely be
identified as a federally regulated RCRA hazardous waste for the following characteristic(s)shown below. See Sections 7 and 8 for
information on handling, storage and personal protection and Section 9 for physical/chemical properties. It is possible that the material
as produced contains constituents which are not required to be listed in the MSDS but could affect the hazardous waste determination.
Additionally, use which results in chemical or physical change of this material could subject it to regulation as a hazardous waste.
Container contents should be completely used and containers should be emptied prior to discard. Container residues and rinseates
could be considered to be hazardous wastes.
EPA Waste Number(s)
• D001 -Ignitability characteristic
• D018-Toxicity characteristic(Benzene)
• D008-Toxicity characteristic(Lead)
14. TRANSPORTATION INFORMATION
U.S.Department of Transportation_(DOT)_
Shipping Description: Gasoline, 3, UN1203, II
Non-Bulk Package Marking: Gasoline, UN1203
Non-Bulk Package Labeling: Flammable liquid
Bulk Package/Placard Marking: Flammable/l203
Packaging -References: 49 CFR 173.150; 173.202; 173.242
Emergency Response Guide: 128
International Maritime Dangerous Goods(IMDG)
Shipping Description: UN1203, Gasoline, 3, II , (-37°C cc)
Non-Bulk Package Marking: Gasoline, UN 1203
Labels: Flammable liquid
Placards/Marking (Bulk): Flammable/1203
Packaging -Non-Bulk: P001
EMS: F-E, S-E
Internationa!Civil Aviation Org./International Air Transport Assoc.(ICAO/IATA)
UN/ID#: UN1203
Proper Shipping Name: Gasoline
Hazard Class/Division: 3
Packing Group: II
Non-Bulk Package Marking: Gasoline, UN1203
Labels: Flammable liquid
ERG Code: 3H
LTD. QTY Passenger Aircraft Cargo Aircraft Only
Packaging Instruction#: Y305 F__ 305 =1 307
Max. Net Qty. Per Package: 1 L 5 L 60 L
15. REGULATORY INFORMATION
CERCLA/SARA-Section 302 Extremely Hazardous Substances and TPQs(in pounds):
This material contains the following chemicals subject to the reporting requirements of SARA 302 and 40 CFR 372:
Component TPQ EPCRA RQ
Tetraethyl Lead 100 lb 10 lb
1
001769-Aviation Gasoline, 100 LL Page 8/9
Date of Issue: 23-May-2007 Status: Final
CERCLA/SARA-Section 311/312(Title III Hazard Cate ones
Acute Health: Yes
Chronic Health: Yes
Fire Hazard: Yes
Pressure Hazard: No
Reactive Hazard: No
CERCLA/SARA-Section 313 and 40 CFR 372:
This material contains the following chemicals subject to the reporting requirements of Section 313 of SARA Title III and 40 CFR 372:
Component Concentration (wt%) de minimis
Xylenes 1-15 1.0%
Toluene 1-10 1.0%
Ethyl Benzene 1-5 0.1%
1,2,4-Trimethyl Benzene 1-5 1.0%
n-Hexane <4 1.0%
Cyclohexane <3 1.0%
Benzene <0.5 0.1%
EPA(CERCLA)Reportable Quantity(in pounds):
EPA's Petroleum Exclusion applies to this material-(CERCLA 101(14)).
California Proposition 66:
Warning: This material may contain detectable quantities of the following chemicals, known to the State of California to cause cancer,
birth defects or other reproductive harm, and which may be subject to the requirements of California Proposition 65(CA Health &Safety
Code Section 25249.5):
Component Type of Toxicity
Unleaded Gasoline(wholly Va orized Cancer
Ethylene Dibromide Cancer
Developmental Toxicant
Male Reproductive Toxicant
Toluene Developmental Toxicant
Benzene Cancer
Developmental Toxicant
Male Reproductive Toxicant
Lead/Lead Compounds Cancer
Developmental Toxicant
Female Reproductive Toxicant
Male Reproductive Toxicant
Canadian Regulations:
This product has been classified in accordance with the hazard criteria of the Controlled Products Regulations(CPR)and the MSDS
contains all the information required by the CPR.
WHMIS Hazard Class
B2-Flammable Liquids
D2A-Very Toxic Material
National Chemical Inventories:
All components are either listed on the US TSCA Inventory, or are not regulated under TSCA.
All components are listed on the Canadian DSL.
U.S. Export Control Classification Number: EAR99
16. OTHER INFORMATION
Issue Date: 23-May-2007
Status: Final
Previous Issue Date: 17-Apr-2007
Product Code: 1014050
i
001769-Aviation Gasoline, 100 LL Page 919
Date of Issue:23-May-2007 Status: Final
16. OTHER INFORMATION
Revised Sections or Basis for Revision: Health Hazard (Section 2)
Fire Fighting information(Section 5)
MSDS Code: 001769
MSDS Legend:
ACGIH=American Conference of Governmental Industrial Hygienists;CAS=Chemical Abstracts Service Registry;CEILING=Ceiling Limit(15
minutes);CERCLA=The Comprehensive Environmental Response,Compensation,and Liability Act;EPA=Environmental Protection Agency;IARC=
International Agency for Research on Cancer;LEL=Lower Explosive Limit;NE=Not Established;NFPA=National Fire Protection Association;NTP=
National Toxicology Program;OSHA=Occupational Safety and Health Administration; PEL=Permissible Exposure Limit(OSHA);SARA=Superfund
Amendments and Reauthorization Act;STEL=Short Term Exposure Limit(15 minutes);TLV=Threshold Limit Value(ACGIH);TWA=Time Weighted
Average(8 hours); UEL=Upper Explosive Limit;WHMIS=Worker Hazardous Materials Information System(Canada)
Disclaimer of Expressed and implied Warranties:
The information presented in this Material Safety Data Sheet is based on data believed to be accurate as of the date this Material
Safety Data Sheet was prepared. HOWEVER, NO WARRANTY OF MERCHANTABILITY, FITNESS FOR ANY PARTICULAR
PURPOSE, OR ANY OTHER WARRANTY IS EXPRESSED OR IS TO BE IMPLIED REGARDING THE ACCURACY OR
COMPLETENESS OF THE INFORMATION PROVIDED ABOVE, THE RESULTS TO BE OBTAINED FROM THE USE OF THIS
INFORMATION OR THE PRODUCT, THE SAFETY OF THIS PRODUCT, OR THE HAZARDS RELATED TO ITS USE. No
responsibility is assumed for any damage or injury resulting from abnormal use or from any failure to adhere to recommended practices.
The information provided above, and the product, are furnished on the condition that the person receiving them shall make their own
determination as to the suitability of the product for their particular purpose and on the condition that they assume the risk of their use.
In addition, no authorization is given nor implied to practice any patented invention without a license.
C&�s JA
[HE:55
MATERIAL SAFETY DATA SHEET
Gasoline, All Grades MSDS No. 9950
EMERGENCY OVERVIEW
DANGER!
EXTREMELY FLAMMABLE - EYE AND MUCOUS MEMBRANE IRRITANT 0
-EFFECTS CENTRAL NERVOUS SYSTEM - HARMFUL OR FATAL IF
SWALLOWED -ASPIRATION HAZARD
High fire hazard. Keep away from heat, spark, open flame, and other ignition NFPA 704(SocUnri 16)
sources.
If ingested, do NOT induce vomiting, as this may cause chemical pneumonia (fluid in the lungs). Contact
may cause eye, skin and mucous membrane irritation. Harmful if absorbed through the skin.Avoid
prolonged breathing of vapors or mists. Inhalation may cause irritation, anesthetic effects (dizziness,
nausea, headache, intoxication), and respiratory system effects.
Long-term exposure may cause effects to specific organs, such as to the liver, kidneys, blood, nervous
system, and skin. Contains benzene, which can cause blood disease, including anemia and leukemia.
I. CHEMICAL PRODUCT and COMPANY INFORMATION
Hess Corporation
1 Hess Plaza
Woodbridge, NJ 07095-0961
EMERGENCY TELEPHONE NUMBER(24 hrs): CHEMTREC (800)424-9300
COMPANY CONTACT(business hours): Corporate Safety (732)750-6000
MSDS (Environment, Health, Safety) Internet Website www.hess.com
SYNONYMS: Hess Conventional (Oxygenated and Non-oxygenated) Gasoline; Reformulated Gasoline
(RFG); Reformulated Gasoline Blendstock for Oxygenate Blending (RBOB); Unleaded
Motor or Automotive Gasoline
See Section 16 for abbreviations and acronyms.
2. COMPOSITION and INFORMATION ON INGREDIENTS
INGREDIENT NAME(CAS No.) CONCENTRATION PERCENT BY WEIGHT
Gasoline(86290-81-5) 100
Benzene(71-43-2) 0.1 -4.9 (0.1 - 1.3 reformulated gasoline)
n-Butane (106-97-8) < 10
Ethyl Alcohol (Ethanol) (64-17-5) 0- 10
Ethyl benzene (100-41-4) < 3
n-Hexane (110-54-3) 0.5 to 4
Methyl-tertiary butyl ether(MTBE) (1634-04-4) 0 to 15.0
Tertiary-amyl methyl ether(TAME) (994-05-8) 0 to 17.2
Toluene (108-88-3) 1 -25
1,2,4-Trimethylbenzene (95-63-6) <6
Xylene, mixed isomers (1330-20-7) 1 - 15
A complex blend of petroleum-derived normal and branched-chain alkane, cycloalkane, alkene, and
aromatic hydrocarbons. May contain antioxidant and multifunctional additives. Non-oxygenated
Conventional Gasoline and RBOB do not have oxygenates (Ethanol or MTBE and/or TAME).
Revision Date: 09/25/2007 Page 1 of 9
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MATERIAL SAFETY DATA SHEET
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Oxygenated Conventional and Reformulated Gasoline will have oxygenates for octane enhancement or
as legally required.
3. HAZARDS IDENTIFICATION
EYES
Moderate irritant. Contact with liquid or vapor may cause irritation.
SKIN
Practically non-toxic if absorbed following acute(single)exposure. May cause skin irritation with
prolonged or repeated contact. Liquid may be absorbed through the skin in toxic amounts if large areas of
skin are exposed repeatedly.
INGESTION
The major health threat of ingestion occurs from the danger of aspiration (breathing) of liquid drops into
the lungs, particularly from vomiting. Aspiration may result in chemical pneumonia (fluid in the lungs),
severe lung damage, respiratory failure and even death.
Ingestion may cause gastrointestinal disturbances, including irritation, nausea, vomiting and diarrhea, and
central nervous system (brain) effects similar to alcohol intoxication. In severe cases, tremors,
convulsions, loss of consciousness, coma, respiratory arrest, and death may occur.
INHALATION
Excessive exposure may cause irritations to the nose, throat, lungs and respiratory tract. Central nervous
system (brain) effects may include headache, dizziness, loss of balance and coordination,
unconsciousness, coma, respiratory failure, and death.
WARNING: the burning of any hydrocarbon as a fuel in an area without adequate ventilation may result
in hazardous levels of combustion products, including carbon monoxide, and inadequate oxygen levels,
which may cause unconsciousness, suffocation, and death.
CHRONIC EFFECTS and CARCINOGENICITY
Contains benzene, a regulated human carcinogen. Benzene has the potential to cause anemia and other
blood diseases, including leukemia, after repeated and prolonged exposure. Exposure to light
hydrocarbons in the same boiling range as this product has been associated in animal studies with
systemic toxicity. See also Section 11 -Toxicological Information.
MEDICAL CONDITIONS AGGRAVATED BY EXPOSURE
Irritation from skin exposure may aggravate existing open wounds, skin disorders, and dermatitis (rash).
Chronic respiratory disease, liver or kidney dysfunction, or pre-existing central nervous system disorders
may be aggravated by exposure.
4. FIRST AID MEASURES
EYES
In case of contact with eyes, immediately flush with clean, low-pressure water for at least 15 min. Hold
eyelids open to ensure adequate flushing. Seek medical attention.
SKIN
Remove contaminated clothing. Wash contaminated areas thoroughly with soap and water or waterless
hand cleanser. Obtain medical attention if irritation or redness develops.
INGESTION
Revision Date: 09/25/2007 Page 2 of 9
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MATERIAL SAFETY DATA SHEET
Gasoline, All Grades MSDS No. 9950
DO NOT INDUCE VOMITING. Do not give liquids. Obtain immediate medical attention. If spontaneous
vomiting occurs, lean victim forward to reduce the risk of aspiration. Small amounts of material which
enter the mouth should be rinsed out until the taste is dissipated.
INHALATION
Remove person to fresh air. If person is not breathing, ensure an open airway and provide artificial
respiration. If necessary, provide additional oxygen once breathing is restored if trained to do so. Seek
medical attention immediately.
5. FIRE FIGHTING MEASURES
FLAMMABLE PROPERTIES:
FLASH POINT: -45 OF (-43°C)
AUTOIGNITION TEMPERATURE: highly variable; > 530 OF (>280°C)
OSHA/NFPA FLAMMABILITY CLASS: 1A(flammable liquid)
LOWER EXPLOSIVE LIMIT (%): 1.4%
UPPER EXPLOSIVE LIMIT(%): 7.6%
FIRE AND EXPLOSION HAZARDS
Vapors may be ignited rapidly when exposed to heat, spark, open flame or other source of ignition.
Flowing product may be ignited by self-generated static electricity. When mixed with air and exposed to
an ignition source, flammable vapors can burn in the open or explode in confined spaces. Being heavier
than air, vapors may travel long distances to an ignition source and flash back. Runoff to sewer may
cause fire or explosion hazard.
EXTINGUISHING MEDIA
SMALL FIRES: Any extinguisher suitable for Class B fires, dry chemical, CO2, water spray, fire fighting
foam, or Halon.
LARGE FIRES: Water spray, fog or fire fighting foam. Water may be ineffective for fighting the fire, but
may be used to cool fire-exposed containers.
During certain times of the year and/or in certain geographical locations, gasoline may contain MTBE
and/or TAME. Firefighting foam suitable for polar solvents is recommended for fuel with greater than
10% oxygenate concentration - refer to NFPA 11 "Low Expansion Foam- 1994 Edition."
FIRE FIGHTING INSTRUCTIONS
Small fires in the incipient(beginning) stage may typically be extinguished using handheld portable fire
extinguishers and other fire fighting equipment.
Firefighting activities that may result in potential exposure to high heat, smoke or toxic by-products of
combustion should require NIOSH/MSHA-approved pressure-demand self-contained breathing
apparatus with full facepiece and full protective clothing.
Isolate area around container involved in fire. Cool tanks, shells, and containers exposed to fire and
excessive heat with water. For massive fires the.use of-unmanned hose holders or monitor nozzles may
be advantageous to further minimize personnel exposure. Major fires may require withdrawal, allowing
the tank to burn. Large storage tank fires typically require specially trained personnel and equipment to
extinguish the fire, often including the need for properly applied fire fighting foam.
See Section 16 for the NFPA 704 Hazard Rating.
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MATERIAL SAFETY DATA SHEET
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6. ACCIDENTAL RELEASE MEASURES
ACTIVATE FACILITY SPILL CONTINGENCY or EMERGENCY PLAN.
Evacuate nonessential personnel and remove or secure all ignition sources. Consider wind direction; stay
upwind and uphill, if possible. Evaluate the direction of product travel, diking, sewers, etc. to confirm spill
areas. Spills may infiltrate subsurface soil and groundwater; professional assistance may be necessary
to determine the extent of subsurface impact.
Carefully contain and stop the source of the spill, if safe to do so. Protect bodies of water by diking,
absorbents, or absorbent boom, if possible. Do not flush down sewer or drainage systems, unless
system is designed and permitted to handle such material. The use of fire fighting foam may be useful in
certain situations to reduce vapors. The proper use of water spray may effectively disperse product
vapors or the liquid itself, preventing contact with ignition sources or areas/equipment that require
protection.
Take up with sand or other oil absorbing materials. Carefully shovel, scoop or sweep up into a waste
container for reclamation or disposal -caution, flammable vapors may accumulate in closed containers.
Response and clean-up crews must be properly trained and must utilize proper protective equipment
(see Section 8).
7. HANDLING and STORAGE
HANDLING PRECAUTIONS
******USE ONLY AS A MOTOR FUEL******
******DO NOT SIPHON BY MOUTH******
Handle as a flammable liquid. Keep away from heat, sparks, and open flame! Electrical equipment
should be approved for classified area. Bond and ground containers during product transfer to reduce the
possibility of static-initiated fire or explosion.
Special slow load procedures for"switch loading" must be followed to avoid the static ignition hazard that
can exist when higher flash point material (such as fuel oil) is loaded into tanks previously containing low
flash point products(such as this product) -see API Publication 2003, "Protection Against Ignitions
Arising Out Of Static, Lightning and Stray Currents.
STORAGE PRECAUTIONS
Keep away from flame, sparks, excessive temperatures and open flame. Use approved vented
containers. Keep containers closed and clearly labeled. Empty product containers or vessels may contain
explosive vapors. Do not pressurize, cut, heat, weld or expose such containers to sources of ignition.
Store in a well-ventilated area. This storage area should comply with NFPA 30"Flammable and
Combustible Liquid Code". Avoid storage near incompatible materials. The cleaning of tanks previously
containing this product should follow API Recommended Practice (RP)2013"Cleaning Mobile Tanks In
Flammable and Combustible Liquid Service"and API RP 2015"Cleaning Petroleum Storage Tanks".
WORK/HYGIENIC PRACTICES
Emergency eye wash capability should be available in the near proximity to operations presenting a
potential splash exposure. Use good personal hygiene practices. Avoid repeated and/or prolonged skin
exposure. Wash hands before eating, drinking, smoking, or using toilet facilities. Do not use as a
cleaning solvent on the skin. Do not use solvents or harsh abrasive skin cleaners for washing this product
from exposed skin areas. Waterless hand cleaners are effective. Promptly remove contaminated
clothing and launder before reuse. Use care when laundering to prevent the formation of flammable
vapors which could ignite via washer or dryer. Consider the need to discard contaminated leather shoes
and gloves.
Revision Date: 09/25/2007 Page 4 of 9
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MATERIAL SAFETY DATA SHEET
Gasoline, All Grades MsDs No. 9950
8. EXPOSURE CONTROLS and PERSONAL PROTECTION
EXPOSURE LIMITS
Component(CAS No.) Exposure Limits
Source TWA STEL Note
(ppm) (ppm)
Gasoline (86290.81-5)__ ACGIH 300 500 __ A3
Benzene (71-43-2) OSHA 1 5 Carcinogen
ACGIH 05 2.5 Al,skin
-- USCG 1 5
n-Butane(106-97-8j............................ACGIH 1000 ......Aliphatic_Hydrocarbon Gases_Alkane(C1_C4)
Ethyl Alcohol(ethanol) (64-17-5) OSHA 1000
ACGIH 1000 - A4
Ethyl benzene (100-41-4) OSHA 100 --
ACGIH 100- 125 A3
n-Hexane 110-54-3 OSHA 500 --
ACGIH 50 -- Skin
Methyl-tertiary but ether[MTBE]_(1634-04-4)__ _ACGIH 50 A3
---------------------------------- --•------------------------------------
Tertiary_amyl methyl etherjTAMEI_(994.05.8)___ None established
----- -------------------------------------
Toluene (108-88-3) OSHA 200 Ceiling: 300 ppm;Peak:500 ppm(10 min.)
ACGIH 20 A4
Trimethylbenzene_(95-63 6)________ ACGIH i
- -----
Xylene,mixed isomers (1330-20-7) OSHA 100 —
ACGIH 100 150 A4
ENGINEERING CONTROLS
Use adequate ventilation to keep vapor concentrations of this product below occupational exposure and
flammability limits, particularly in confined spaces.
EYE/FACE PROTECTION
Safety glasses or goggles are recommended where there is a possibility of splashing or spraying.
SKIN PROTECTION
Gloves constructed of nitrile or neoprene are recommended. Chemical protective clothing such as that
made of of E.I. DuPont Tychem®, products or equivalent is recommended based on degree of exposure.
Note: The resistance of specific material may vary from product to product as well as with degree of
exposure. Consult manufacturer specifications for further information.
RESPIRATORY PROTECTION
A NIOSH-approved air-purifying respirator with organic vapor cartridges or canister may be permissible
under certain circumstances where airborne concentrations are or may be expected to exceed exposure
limits or for odor or irritation. Protection provided by air-purifying respirators is limited. Refer to OSHA 29
CFR 1910.134, NIOSH Respirator Decision Logic, and the manufacturer for additional guidance on
respiratory protection selection and limitations.
Use a positive pressure, air-supplied respirator if there is a potential for uncontrolled release, exposure
levels are not known, in oxygen-deficient atmospheres, or any other circumstance where an air-purifying
respirator may not provide adequate protection.
9. PHYSICAL and CHEMICAL PROPERTIES
APPEARANCE
A translucent, straw-colored or light yellow liquid
Revision Date: 09/25/2007 Page 5 of 9
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MATERIAL SAFETY DATA SHEET
Gasoline, All Grades MSDS No. 9950
ODOR
A strong, characteristic aromatic hydrocarbon odor. Oxygenated gasoline with MTBE and/or TAME may
have a sweet, ether-like odor and is detectable at a lower concentration than non-oxygenated gasoline.
ODOR THRESHOLD
Odor Detection Odor Recognition
Non-oxygenated gasoline: 0.5-0.6 ppm 0.8- 1.1 ppm
Gasoline with 15% MTBE: 0.2-0.3 ppm 0.4-0.7 ppm
Gasoline with 15%TAME: 0.1 ppm 0.2 ppm
BASIC PHYSICAL PROPERTIES
BOILING RANGE: 85 to 437 OF (39 to 200 °C)
VAPOR PRESSURE: 6.4- 15 RVP @ 1 00°F (38°C) (275-475 mm Hg @ 68 OF (20 °C)
VAPOR DENSITY(air= 1): AP 3 to 4
SPECIFIC GRAVITY(H20= 1): 0.70—0.78
EVAPORATION RATE: 10-11 (n-butyl acetate= 1)
PERCENT VOLATILES: 100%
SOLUBILITY(1-120): Non-oxygenated gasoline-negligible(<0.1%@ 77 OF). Gasoline with 15%
MTBE-slight(0.1 -3% @ 77 OF); ethanol is readily soluble in water
10. STABILITY and REACTIVITY )
STABILITY: Stable. Hazardous polymerization will not occur.
CONDITIONS TO AVOID
Avoid high temperatures, open flames, sparks, welding, smoking and other ignition sources
INCOMPATIBLE MATERIALS
Keep away from strong oxidizers.
HAZARDOUS DECOMPOSITION PRODUCTS
Carbon monoxide, carbon dioxide and non-combusted hydrocarbons (smoke). Contact with nitric and
sulfuric acids will form nitrocresols that can decompose violently.
11. TOXICOLOGICAL PROPERTIES
ACUTE TOXICITY
Acute Dermal LD50 (rabbits): > 5 ml/kg Acute Oral LD50 (rat): 18.75 ml/kg
Primary dermal irritation (rabbits): slightly irritating Draize eye irritation (rabbits): non-irritating
Guinea pig sensitization: negative
CHRONIC EFFECTS AND CARCINOGENICITY
Carcinogenicity:OSHA: NO IARC: YES-2B NTP: NO ACGIH: YES (A3)
IARC has determined that gasoline and gasoline exhaust are possibly carcinogenic in humans. Inhalation
exposure to completely vaporized unleaded gasoline caused kidney cancers in male rats and liver tumors
in female mice. The U.S. EPA has determined that the male kidney tumors are species-specific and are
irrelevant for human health risk assessment. The significance of the tumors seen in female mice is not
known. Exposure to light hydrocarbons in the same boiling range as this product has been associated in
animal studies with effects to the central and peripheral nervous systems, liver, and kidneys. The
significance of these animal models to predict similar human response to gasoline is uncertain.
This product contains benzene. Human health studies indicate that prolonged and/or repeated
overexposure to benzene may cause damage to the blood-forming system (particularly bone marrow),
and serious blood disorders such as aplastic anemia and leukemia. Benzene is listed as a human
carcinogen by the NTP, IARC, OSHA and ACGIH.
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MATERIAL SAFETY DATA SHEET
Gasoline, All Grades MSDS No. 9950
This product may contain methyl tertiary butyl ether(MTBE): animal and human health effects studies
indicate that MTBE may cause eye, skin, and respiratory tract irritation, central nervous system
depression and neurotoxicity. MTBE is classified as an animal carcinogen (A3) by the ACGIH.
12. ECOLOGICAL INFORMATION
Keep out of sewers, drainage areas and waterways. Report spills and releases, as applicable, under
Federal and State regulations. If released, oxygenates such as ethers and alcohols will be expected to
exhibit fairly high mobility in soil, and therefore may leach into groundwater. The API (www.api.org)
provides a number of useful references addressing petroleum and oxygenate contamination of
groundwater.
13. DISPOSAL CONSIDERATIONS
Consult federal, state and local waste regulations to determine appropriate disposal options.
14. TRANSPORTATION INFORMATION
PLACARD
DOT PROPER SHIPPING NAME: Gasoline
DOT HAZARD CLASS and PACKING GROUP 3, PG II
DOT IDENTIFICATION NUMBER: UN 1203
DOT SHIPPING LABEL: FLAMMABLE LIQUID
15. REGULATORY INFORMATION
U.S. FEDERAL, STATE, and LOCAL REGULATORY INFORMATION
This product and its constituents listed herein are on the EPA TSCA Inventory. Any spill or uncontrolled
release of this product, including any substantial threat of release, may be subject to federal, state and/or
local reporting requirements. This product and/or its constituents may also be subject to other federal,
state, or local regulations; consult those regulations applicable to your facility/operation.
CLEAN WATER ACT(OIL SPILLS)
Any spill or release of this product to"navigable waters" (essentially any surface water, including certain
wetlands)or adjoining shorelines sufficient to cause a visible sheen or deposit of a sludge or emulsion
must be reported immediately to the National Response Center(1-800-424-8802) as required by U.S.
Federal Law. Also contact appropriate state and local regulatory agencies as required.
CERCLA SECTION 103 and SARA SECTION 304(RELEASE TO THE ENVIRONMENT)
The CERCLA definition of hazardous substances contains a "petroleum exclusion"clause which exempts
crude oil, refined, and unrefined petroleum products and any indigenous components of such. However,
other federal reporting requirements (e.g., SARA Section 304 as well as the Clean Water Act if the spill
occurs on navigable waters) may still apply.
SARA SECTION 311/312-HAZARD CLASSES
ACUTE HEALTH CHRONIC HEALTH FIRE SUDDEN RELEASE OF PRESSURE REACTIVE
X X X -- --
SARA SECTION 313 -SUPPLIER NOTIFICATION
This product contains the following toxic chemicals subject to the reporting requirements of section 313 of
the Emergency Planning and Community Right-To-Know Act(EPCRA)of 1986 and of 40 CFR 372:
INGREDIENT NAME(CAS NUMBER) CONCENTRATION WT.PERCENT
Benzene(71-43-2) 0.1 to 4 9(0.1 to 1 3 for reformulated gasoline)
Ethyl benzene (100-41-4) <3
Revision Date: 09/25/2007 Page 7 of 9
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MATERIAL SAFETY DATA SHEET
Gasoline, All Grades MSDS No. 9950
n-Hexane (110-54-3) 0 5 to 4
Methyl-tertiary butyl ether(MTBE) (1634-04-4) 0 to 15.0
Toluene (108-88-3) 1 to 15
1,2,4-Trimethylbenzene (95-63-6) <6
Xylene, mixed isomers (1330-20-7) 1 to 15
US EPA guidance documents (www.epa gov/tri)for reporting Persistent Bioaccumulating Toxics (PBTs)
indicate this product may contain the following deminimis levels of toxic chemicals subject to Section 313
reporting:
INGREDIENT NAME(CAS NUMBER) CONCENTRATION -Parts oer million(pam)by weight
Polycyclic aromatic compounds (PACs) 17
Benzo (g,h,i) perylene (191-24-2) 2.55
Lead (7439-92-1) 0.079
CALIFORNIA PROPOSITION 65 LIST OF CHEMICALS
This product contains the following chemicals that are included on the Proposition 65"List of Chemicals"
required by the California Safe Drinking Water and Toxic Enforcement Act of 1986:
INGREDIENT NAME(CAS NUMBER) Date Listed
Benzene 2/27/1987
Ethyl benzene 6/11/2004
Toluene 1/1/1991
CANADIAN REGULATORY INFORMATION (WHMIS)
Class B, Division 2 (Flammable Liquid)
Class D, Division 2A(Very toxic by other means) and Class D, Division 2B (Toxic by other means)
16. OTHER INFORMATION
NFPAO HAZARD RATING HEALTH: 1 Slight
FIRE: 3 Serious
REACTIVITY 0 Minimal
HMISO HAZARD RATING HEALTH: 1 * Slight
FIRE: 3 Serious
PHYSICAL: 0 Minimal
*CHRONIC
SUPERSEDES MSDS DATED: 07/01/06
ABBREVIATIONS:
AP =Approximately < = Less than > = Greater than
N/A= Not Applicable N/D= Not Determined ppm = parts per million
ACRONYMS:
ACGIH American Conference of Governmental CERCLA Comprehensive Emergency Response,
Industrial Hygienists Compensation, and Liability Act
AIHA American Industrial Hygiene Association DOT U.S. Department of Transportation
ANSI American National Standards Institute [General Info: (800)467-4922j
(212)642-4900 EPA U.S. Environmental Protection Agency
API American Petroleum Institute HMIS Hazardous Materials Information System
(202)682-8000
Revision Date: 09/25/2007 Page 8 of 9
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MATERIAL SAFETY DATA SHEET
Gasoline, All Grades MSDS No. 9950
IARC International Agency For Research On REL Recommended Exposure Limit(NIOSH)
Cancer SARA Superfund Amendments and
MSHA Mine Safety and Health Administration Reauthorization Act of 1986 Title III
NFPA National Fire Protection Association SCBA Self-Contained Breathing Apparatus
(617)770-3000 SPCC Spill Prevention, Control, and
NIOSH National Institute of Occupational Safety Countermeasures
and Health STEL Short-Term Exposure Limit(generally 15
NOIC Notice of Intended Change (proposed minutes)
change to ACGIH TLV) TLV Threshold Limit Value (ACGIH)
NTP National Toxicology Program TSCA Toxic Substances Control Act
OPA Oil Pollution Act of 1990 TWA Time Weighted Average (8 hr.)
OSHA U.S. Occupational Safety & Health WEEL Workplace Environmental Exposure
Administration Level (AIHA)
PEL Permissible Exposure Limit(OSHA) WHMIS Workplace Hazardous Materials
RCRA Resource Conservation and Recovery Act Information System (Canada)
DISCLAIMER OF EXPRESSED AND IMPLIED WARRANTIES
Information presented herein has been compiled from sources considered to be dependable,and is accurate and reliable to the best
of our knowledge and belief,but is not guaranteed to be so. Since conditions of use are beyond our control,we make no warranties,
expressed or implied,except those that may be contained in our written contract of sale or acknowledgment.
Vendor assumes no responsibility for injury to vendee or third persons proximately caused by the material if reasonable safety
procedures are not adhered to as stipulated in the data sheet. Additionally,vendor assumes no responsibility for injury to vendee or
third persons proximately caused by abnormal use of the material,even if reasonable safety procedures are followed. Furthermore,
vendee assumes the risk in their use of the material.
Revision Date: 09/25/2007 Page 9 of 9
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