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Name of Supplier. Owner or OaNer Ao&*ss No. and S1reN is) City SINetl Date of Tat <br />15. TANK TO TEST 15a. BRIEF DIAGRAM OF TANK FIELD <br />.... Identity by fr.1 <br />Brut and Grade <br />16. CAPACITY <br />Nominal CAWAY <br />! Cm <br />Oalbrle <br />By ft" e tia�j <br />apecky, Gnarl available 't�++v <br />Gallons <br />17. FILL -UP FOR TEST <br />Stick $Nater Bottom �,, �r fry <br />before F"p �""� In. U `"I s _ M. Inventory <br />to %r Gallons Tank Diameter <br />18. SPECIAL CONDITIONS AND PROCEDURES TO TEST THIS TANK ❑ Water In tank ❑ $.mals) being haled with LVLLT <br />See manual sections applicable. Check below and record procedure In log (27►. ❑ High water table In tank exc vender <br />We maximum allowable lest pressure he all tests. 19. TANK MEASUREMENTS FOR <br />Four pound rule does not appy to daudNle <br />wad tank$. <br />TSTT ASSEMBLY <br />Compete section below: <br />Bottom of tank t0 grade' ............................ __L44____ In. <br />Add30 -for- r probe may ........................... 30 In, <br />t. is tour pound rule repurred7 Ya ❑ NO ❑ Total tubing to assemble — approximate ............. In. <br />2. Haight to 12- mak from bonortr of tank <br />3. Pressure at bottom of tank <br />e PreSsute at top of tank <br />of burial <br />dia. <br />table <br />NOTES: <br />( <br />20. EXTENSION HOSE SETTING <br />Taal Gats <br />Hydrometer Employed .................................. <br />Daiwa <br />A <br />" <br />-F' ' <br />Tank top to grade' .................................. <br />In. <br />Observed A.P.I. Gravity ................................. <br />Extend hose on suctloa tube a' of more <br />1.11C.Cal I G4 EDPage a ` <br />ID i34 ;``tf x <br />P.S.I. <br />Total Quantity In Reciprocal <br />full tank (16 or 17) <br />Volume Change In <br />this tank pray -F <br />Transfer COE to Ike M. <br />below tank top .................... I................. <br />In. <br />e � <br />P S.I. <br />'It FIII pipe extends above grade, use top of 1111. <br />(C) gfillone <br />22. Thermal -Sens. reading ally COCulell.t <br />Coefficient of expansion lot <br />Volume Grangs In the tank <br />� <br />Involved product <br />igha <br />•F <br />In. <br />23. Digits per 'F In range of expected change�3.�"� <br />^'� Betwa®n <br />In. <br />Mft par -F In last <br />dighs <br />COEFFICIENT OF EXPANSION (Complete after circulation) <br />w... --a.?," <br />Cit 4 to 0 e'W'"af M •®.1... s./ <br />24a. Greeted A.P.I. Gravity <br />in. <br />Observed A.P.I. Gravity ................................... <br />hydrometer employed ................................... <br />H <br />Observed Sample Temperature ......................... <br />-F <br />Ther above calculations are to be used for dry soll conditions to <br />"tabltsh a posillve prasuro advantage. or when wing the four pound <br />rule to compensate for the presence of subsurface watw In the tank <br />area <br />NNW to N.F.PJL 34 Sections 2-3.2.4 and 2-7.2 and the tank <br />m ltufaOurer regarding allowable system tat pressures. <br />From <br />Station Chat <br />❑ Tank Manufacturer's Chat <br />❑ Company Engineering Data <br />❑ plats supplied with <br />❑ Othw <br />Transfer total to line 25a <br />21. VAPOR RECOVERY SYSTEM ❑ siege i ❑ sine is <br />24b. COEFFICIENT OF EXPANSION , <br />Taal Gats <br />Hydrometer Employed .................................. <br />Daiwa <br />as. Reading <br />" <br />-F' ' <br />Temperature of Sample ................................. <br />Difference(-/-).........................................� <br />j •F <br />im sF <br />Observed A.P.I. Gravity ................................. <br />t <br />5Y.44 <br />1.11C.Cal I G4 EDPage a ` <br />ID i34 ;``tf x <br />:7 7 <br />Total Quantity In Reciprocal <br />full tank (16 or 17) <br />Volume Change In <br />this tank pray -F <br />Transfer total to line 25a <br />21. VAPOR RECOVERY SYSTEM ❑ siege i ❑ sine is <br />24b. COEFFICIENT OF EXPANSION , <br />RECIPROCAL METHOD <br />Type of Product .......................... ! ...fir •» <br />` <br />Hydrometer Employed .................................. <br />I(I/ N/+ <br />H <br />Temperature M Tank <br />After Circulation <br />" <br />-F' ' <br />Temperature of Sample ................................. <br />Difference(-/-).........................................� <br />j •F <br />im sF <br />Observed A.P.I. Gravity ................................. <br />t <br />5Y.44 <br />1.11C.Cal I G4 EDPage a ` <br />ID i34 ;``tf x <br />:7 7 <br />Total Quantity In Reciprocal <br />full tank (16 or 17) <br />Volume Change In <br />this tank pray -F <br />Transfer COE to Ike M. <br />Transfer to lits 26a. <br />24c. FOR TESTING WITH WATER a« Table C A D'. <br />Corrected A.P.I. Gravity <br />WNW Temperature after Circulation '.. <br />s0-F,From Table A .................................... <br />Table C -F <br />Coefficient of Expansion <br />CoNlklent of Water <br />lot Involved Product <br />Table D ........................................::...... <br />From Table 8 ............................................ <br />Transfer COE to Ike M. <br />Added Surfactant? ❑ Yes ❑ No Transfer CO to Lure 2Sb.'. <br />25. (a) >< <br />(b) <br />(C) gfillone <br />Total Quantity M <br />Coefficient of expansion lot <br />Volume Grangs In the tank <br />Putt tank (1g at 171 <br />Involved product <br />per -F <br />26. (a) tan ,7 222-1- f <br />This Is ' <br />Velums change per -F (TS or 24b) <br />Mft par -F In last <br />Y par dull low <br />w... --a.?," <br />Cit 4 to 0 e'W'"af M •®.1... s./ <br />