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14. <br />State <br />Date of Test <br />511MCID1 15. TANK TO TEST 16. CAPACITY From <br />Z Station Chart <br />7Zya By most accurate <br />m Nominal Capacity capacity chart available Tank Manufacturer's Chart <br />m O Identity br Position Gallons Gallons U Company Engineering Data <br />�I Is there doubt as to True Capacity 7 Charts supplied with PPtr0 T tP <br />Grade See Section "DETERMINING TANK CAPACITY" Other TANK TESTEa <br />W <br />11. FILL -UP FOR TEST <br />Stick Water Bottom <br />before Fill -up Inventory <br />to Ye in. Gallons <br />Fill up. STICK BEFORE AND AFTER EACH COMPARTMENT DROP OR EACH METERED DELIVERY QUANTITY <br />Tank Diameter Product in full tank (up to fill pipe) <br />18. SPECIAL CONDITIONS AND PROCEDURES TO TEST THIS TANK <br />See manual sections applicable. Check below and record procedure in log (26). Water Observation - Well level <br />N r- W c- <br />0co L <br />s g Water in tank High water table in tank excavation Line(s) being tested with LVLLT <br />w..Z� <br />Stick Readings Total Gallons <br />to Ye in. Gallons ea. Reading <br />VAPOR RECOVERY SYSTEM <br />Stage I <br />Stage 11 <br />a D 0 <br />30. HYDROSTATIC <br />PRESSURE <br />CONTROL <br />31. <br />VOLUME MEASUREMENTS (Y) <br />RECORD TO .001 GAL. <br />21. <br />TEMPERATURE/VOLUME FACTOR (a) TO TEST THIS TANK <br />" <br />19. TANK MEASUREMENTS FOR <br />28. <br />Record details of settingu P <br />and running test. (Use full <br />length Of line If needed.) <br />29. <br />Reading <br />No. <br />Standpipe Level <br />in Inches <br />4 N) <br />t" O d rn <br />O <br />TSTT ASSEMBLY <br />35. <br />Thermal <br />Sensor <br />Reading <br />36. <br />Change <br />+ Higher <br />9 <br />lower - <br />(c) <br />Observed API Gravity: Temp. °F Corrected API Gravity <br />M— <br />mp - <br />Bottom of tank to Grade*.................... <br />' � - - -' ' - � • - - • • - -' ' <br />" <br />22. <br />°F <br />FL — <br />Before <br />Reading <br />After <br />Reading <br />Product <br />Recovered (+) <br />Thermal -Sensor reading after circulation <br />• Z <br />Add 30" for 4" L <br />digits Nearest <br />Add 24" for 3" L or air seal ....... <br />23. <br />Digits per °F in range of expected change <br />Total tubing to assemble Approximate <br />digits <br />"s <br />to o <br />W <br />Z <br />O ' M <br />-4 <br />m� � T <br />m <br />0 t�/1 z <br />20. EXTENSION HOSE SETTING <br />Tank top to grade` .................................. <br />Extend hose on suction tube 6" or more <br />below tank top ..................................... <br />If Fill pipe extends above grade, use top of fill. <br />24• X = gallons <br />total quantity in coefficient of expansion for volume change in this tank <br />full tank (16 or 17) involved product per °F <br />25• — = This is <br />volume change per °F (24) Digits per °F in test Volume change per digit. test <br />Range (23) Compute to 4 decimal places. factor (a) <br />26. <br />LOG OF TEST PROCEDURES <br />30. HYDROSTATIC <br />PRESSURE <br />CONTROL <br />31. <br />VOLUME MEASUREMENTS (Y) <br />RECORD TO .001 GAL. <br />34. <br />TEMPERATURE COMPENSATION <br />USE FACTOR (a) <br />38. NET VOLUME <br />CHANGES <br />EACH READING <br />39. <br />ACCUMULATED <br />CHANGE <br />21. <br />DATE <br />28. <br />Record details of settingu P <br />and running test. (Use full <br />length Of line If needed.) <br />29. <br />Reading <br />No. <br />Standpipe Level <br />in Inches <br />32• Product in <br />Graduate <br />Product <br />Replaced (-) <br />35. <br />Thermal <br />Sensor <br />Reading <br />36. <br />Change <br />+ Higher <br />9 <br />lower - <br />(c) <br />31. <br />Computation <br />P <br />c a x <br />( I ( 1 = <br />Expansion + <br />Contraction - <br />Temperature <br />Adjustment <br />At High Level record <br />Total End Deflection <br />Beginning <br />of <br />Reading <br />Level to <br />which <br />Restored <br />volume Minus <br />Expansion (+) or <br />Contraction (-) <br />833(V)- N37(T) <br />At Low Level compute <br />Change per Hour <br />(NFPA criteria) <br />Before <br />Reading <br />After <br />Reading <br />Product <br />Recovered (+) <br />TIME <br />(2t hr.) <br />ID <br />3 <br />o0i <br />n <br />Z <br />3 <br />or <br />0 o <br />m <br />3 a <br />m e <br />b S <br />m o <br />O 9 mm <br />J m m <br />0 3 <br />- x <br />`G y <br />m � m <br />m <br />3 <br />f <br />m <br />m <br />N- <br />m <br />0 <br />O <br />AE <br />O — O <br />T1 __4 <br />�o o m <br />m�o� <br />�EC <br />y O <br />z <br />O <br />M <br />C3 <br />s <br />z <br />n <br />n <br />Z <br />tJJ <br />\ O <br />y <br />IV� < <br />m <br />J <br />N <br />0 <br />v <br />O <br />A to <br />D <br />D <br />C, <br />x <br />D <br />Q0 <br />m <br />C" <br />-n <br />o= <br />7° O <br />= y <br />N <br />a <br />M <br />M <br />CO* Z <br />•V � <br />A <br />W <br />N <br />__4 <br />Z <br />co <br />CO2= <br />x a <br />m <br />--IO <br />CAI <br />S <br />z m <br />z <br />m <br />CN <br />O O <br />c� <br />= -n <br />O <br />M <br />_ <br />__4 <br />Z <br />O <br />CCA <br />Z <br />2 <br />m <br />CN <br />m <br />m <br />0 <br />3 <br />m <br />J <br />D <br />0 V <br />■v1 <br />We <br />C <br />CD <br />'a CD <br />m m m <br />m _ m 0in f <br />N v <br />N o' O N > <br />�V y <br />eeeel <br />�F <br />tD <br />CA <br />CA <br />CD <br />W <br />rf <br />