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14. <br />Nam of Supplier. Owner or Dealer <br />15. TANK TO TEST <br />c-o—m-A u) 1--2 i5 -r <br />Identity by Position' <br />Brand and Grade <br />17. FILL -UP FOR TEST <br />Stick Water &me! <br />before Fill -up <br />to 'A' <br />in. cis <br />Gallons Tank Diameter <br />City <br />State <br />16. CAPACITY <br />Inventory — <br />00c) <br />Nominal Capacity <br />Observed sample Temperature ......................... <br />❑ <br />Gallons <br />By most accurate <br />lio <br />capacity chart available <br />Company Engineering Data <br />Gallons <br />18. SPECIAL CONDITIONS AND PROCEDURES TO TEST THIS TANK D Water in tank F-1 Una(s) being tested with LVLLT <br />Sea manual sections applicable. Check below and record procedure In log (27). F-1 High water table in tank excavation <br />Lea maximum allowable tee pressure for ell tests. 19. TANK MEASUREMENTS FOR <br />Four pound rule does not apply to doublewalled tanks. TSTT ASSEMBLY <br />Complete section below:Bottom of tank to grade* ................ In. <br />Add 30" for -T- probe easy .......................... 30 1, <br />1. 13 four pound rule required? Yee ❑ NO ❑ Total tubing to a3semble — approximate ............. IM <br />Height to Ir mark from bottom of tank in. 20. EXTENSION HOSE SETTING <br />Tank top to grade* .................................. in. <br />Extend hose on auction tube 6" or more <br />3. Pressure at bottom of tank _PS below tank top ....................................... In. <br />,L Pressure at top of tank _P.S.L -if Fill pipe extends above grade, use top of fill. <br />r— 22. Thermai-Senaor reading after circulation <br />of burial — In. <br />table in. <br />NOTES: <br />The above calculations are to be used for dry soil conditions to <br />establish a positive pressure advantage, or when casing tyre four pound <br />rule to compensate for the presence of subsurface water In the tank <br />Refer to KIF.PA 306 Sections 2-3.2.4 and 2-7.2 and the tank <br />manufacturer regarding allowable system test prom res, <br />A5®/ <br />Gallons <br />To Wd-allons <br />4'fes` Ing <br />� C4 <br />Transfer total to line 25e 0 <br />21. VAPOR RECOVERY SYSTEM El stage 1 0 stage 11 <br />24b. COEFFICIENT OF EXPANSION <br />RECIPROCAL METHOD <br />Type of Product ........................................ <br />Hydrometer EmpkYyod .................................. H <br />Temperature In Tank <br />After Circulation ........................................ _-F <br />Temperature of Sample ................................. _.F <br />oiffwwv* (+/_).­ ..................................... _-F. <br />digits <br />C) — & I -F Observed A.P.I. Gravity ................................. <br />Between <br />23. Digits per -F xi range of expected change, —3-41 - Reciprocal pap 6 <br />digits <br />COEFFICIENT OF EXPANSION (Complete after circulation) + <br />Reciprocal volume change In <br />24a. Corroded A_P.L Gravity full tank (16 or 17) this tank per *F <br />Tou" q'm"y in <br />Observed A.P.I. Gravity ................................... 4A __ Transfer to Line 26L <br />HydrometerOmPkVW ................................... H <br />Date of Test <br />From <br />Observed sample Temperature ......................... <br />❑ <br />Station Chan <br />Corroded A.P.I. Gravity <br />Tank Manufacturer's Chart <br />Water Temporaft" after CArculetion <br />Company Engineering Data <br />E] <br />Table C ................................................ <br />Coefficient of Expartsion <br />for involved Product <br />Charts supplied with <br />❑ <br />FromTable B ............................................ <br />— <br />Other <br />Gallons <br />To Wd-allons <br />4'fes` Ing <br />� C4 <br />Transfer total to line 25e 0 <br />21. VAPOR RECOVERY SYSTEM El stage 1 0 stage 11 <br />24b. COEFFICIENT OF EXPANSION <br />RECIPROCAL METHOD <br />Type of Product ........................................ <br />Hydrometer EmpkYyod .................................. H <br />Temperature In Tank <br />After Circulation ........................................ _-F <br />Temperature of Sample ................................. _.F <br />oiffwwv* (+/_).­ ..................................... _-F. <br />digits <br />C) — & I -F Observed A.P.I. Gravity ................................. <br />Between <br />23. Digits per -F xi range of expected change, —3-41 - Reciprocal pap 6 <br />digits <br />COEFFICIENT OF EXPANSION (Complete after circulation) + <br />Reciprocal volume change In <br />24a. Corroded A_P.L Gravity full tank (16 or 17) this tank per *F <br />Tou" q'm"y in <br />Observed A.P.I. Gravity ................................... 4A __ Transfer to Line 26L <br />HydrometerOmPkVW ................................... H <br />e4 <br />24c. FOR TESTING WITH WATER "@Tabl@C&D <br />Observed sample Temperature ......................... <br />-F <br />Corroded A.P.I. Gravity <br />67 1 <br />Water Temporaft" after CArculetion <br />@ WF. From Tabis A .................................... <br />Table C ................................................ <br />Coefficient of Expartsion <br />for involved Product <br />000�qlo t <br />Coefficient Of Water <br />Table D ................................................ <br />FromTable B ............................................ <br />— <br />Added Surfactmed? ❑ Yat 1:1 No Transfer COE to Line 2% <br />Transfer COE to U— 25b. <br />C1 A <br />00 0 SCia <br />(c) q L4 1 W4 <br />25. (a) <br />(b), 0 1 <br />- <br />gallons <br />Total qu=tity In <br />Coefficient of expansion for <br />Volume change In this to* <br />full tank (16 or 17) <br />(a) � - �IQ 14 4 4 <br />invoNed product <br />1.2, <br />per F <br />.1 This Is <br />26. <br />+ <br />Volo rm onange par *F MS or 24b) <br />Digits par 'F in led <br />volume chalw per digit test <br />Ca to 4 deeime'PISCM factor (a) <br />'F <br />