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Name of Supplier, Owner or Dealer <br />Address No. and Street (a) \*A city <br />State Date of Test <br />lkk <br />Tank top to grade* ................................... <br />In. <br />Hydrometer Employed ....... H <br />am <br />15. TANK TO TEST <br />15a. BRIEF DIAGRAM OF TANK FIELD <br />16. CAPACITY <br />From <br />below tank top ...................................... In. <br />After Circulation .............. ...... <br />El station Chart <br />Temperature of Sample ........ -F <br />*If Fill pipe extends above grade, use top of fill. <br />Nominal Capacity <br />60400 ❑ Tank Manufacturer's Chart <br />Identity by position <br />22. Thermal -Sensor reading after circulation <br />Difference ....................... 1 •F <br />Gallons <br />Company Engineering Data <br />ou <br />digit <br />-7 / -aZ <br />.......... <br />::. , <br />Charts stipplied with *, <br />23. Digits per *F In range of expected change <br />Br anO and Grade <br />Observed Ap.l. Grrp <br />avity.. ..... - <br />................ <br />N <br />Reciprocal A <br />By most accurate <br />capacity chart available <br />"171? ❑ other <br />0 <br />COEFFICIENT OF EXPANSION (Complete after circulation) <br />Gallons <br />24a. Corrected A.P.I. Gravity <br />lan <br />17. FILL -UP FOR TEST <br />i <br />Total Gallons <br />Transfer to Line 26a. <br />o <br />Gallons ea. Reading <br />Hydrometeremployed .................................... <br />Stick Water Bottom <br />before Fill -up In. <br />9 ;2 <br />to 'A" <br />In. <br />Gallons Tank Diameter <br />Inventory <br />P <br />Observed Sample Temperature ......................... <br />_.F <br />I <br />18. SPECIAL CONDITIONS AND PROCEDURES TO TEST THIS TANK Water In tank 41% Une(s) being tested with LVLLT <br />Z <br />Sea manual sections applicable. Check below and record <br />procedure In log (27). JaHtgh water table In tank excavation <br />A <br />Use maximum allowable test pressure for all tests. <br />19. TANK MEASUREMENTS FOR <br />Transfer'lootal to line 25a <br />Table C .................................. ............ -F <br />Four pound rule does not apply to doublewalled tanks. <br />TSTT ASSEMBLY <br />Coefficient of Expansion <br />Complete section below: <br />Z,3,9 <br />21. VAPOR RECOVERY SYSTEM M'❑ stage I M image n, <br />for Involved Product <br />Bottom of tank to grade* ............................ — <br />Add 30" for 'T' probe easy <br />In. <br />30 In. <br />FromTable 8 ............................................ <br />.......................... — <br />24b. COEFFICIENT OF EXPANSION, <br />,1. is four pound rule required? <br />Yes ❑ No Total tubing to assemble — approximate ............. 16le <br />in. RECIPROCAL METHOD <br />Added Surfactant? ElYea E1No: ' Transfer C0EtoLine 25b.� <br />2. Height to 12" mark from bottom of lank <br />3. Pressure at bottom of tank <br />,L Pressure at top of tank <br />The above calculations are to be used for dry soil conditions to <br />establish a positive pressure advantage, or when using thefour pound <br />rule to compensate for the presence of subsurface water In the tank <br />arent. <br />Rehr to N.F.P.A. 30, Sections 2-3.2.4 and 2-7.2 and the tank <br />inginufacturer regarding allowable system tog pressures. <br />102 <br />type of Prod <br />20. EXTENSION HOSE SETTING <br />Tank top to grade* ................................... <br />In. <br />Hydrometer Employed ....... H <br />Extend how on auction tube S" or more <br />Temperature In Tank <br />below tank top ...................................... In. <br />After Circulation .............. ...... <br />Temperature of Sample ........ -F <br />*If Fill pipe extends above grade, use top of fill. <br />22. Thermal -Sensor reading after circulation <br />Difference ....................... 1 •F <br />V� 161 <br />digit <br />-7 / -aZ <br />.......... <br />::. , <br />23. Digits per *F In range of expected change <br />Between <br />ZV <br />Observed Ap.l. Grrp <br />avity.. ..... - <br />................ <br />N <br />Reciprocal A <br />digits <br />COEFFICIENT OF EXPANSION (Complete after circulation) <br />24a. Corrected A.P.I. Gravity <br />Total quantity In Reciprocal Volume change In <br />full tank (16 or 17) this tank per *F , <br />P <br />i <br />Observed A P. I. Gravity ................................... <br />Transfer to Line 26a. <br />Hydrometeremployed .................................... <br />H <br />'cF:OR <br />, <br />TESTING WITH WATERatte Ta <br />24 ble C 0 <br />P <br />Observed Sample Temperature ......................... <br />_.F <br />I <br />Z <br />Corrected A.P.I. Gravity <br />Water Temperature after Circulation <br />@ 60°F, From Table A .................................... <br />Table C .................................. ............ -F <br />Coefficient of Expansion <br />000ftlent of Water <br />for Involved Product <br />Table D................................................ <br />FromTable 8 ............................................ <br />Transfer COE to Line 25b. <br />Added Surfactant? ElYea E1No: ' Transfer C0EtoLine 25b.� <br />gallons <br />Total quantity In <br />full tank 116 or 17) <br />Coeffictent of expansion for <br />Involved product <br />Volume ch I thl <br />-F <br />26. (a) <br />Per <br />+ Z—Y �_z Ar <br />Volume change per *F (25 or 24b) <br />Digh per *F In 69 <br />Thyro <br />Volume change per digit test <br />Range (23) <br />Compute to 4 decimal places. factor (1114 <br />