Laserfiche WebLink
Name of Suppe r, Owner or Dealer Addle-, No. and Suoet(s) City Stiff. Date or Test <br />15. TANK TO TEST c A 15a. BRIEF DIAGRAM OF TANK FIELD <br />Ide ly by position <br />Brand and Grade <br />17. FILL -UP FOR TEST <br />Stick Vater Bottom <br />before Fill -up <br />in. U <br />to 'A- Gallons <br />"s ✓ In. <br />Tank Diameter <br />16. CAPACITY <br />Noldnal Capacity J U 1 UUO <br />Gallons <br />By moat accurate /'1 C1 <br />capacity chart available <br />Gallons <br />Inventory <br />18. SPECIAL CONDITIONS AND PROCEDURES TO TEST THIS TANK ❑ Water In lank ❑ Line(,) being tested with LVLLT <br />See me mal sections applicable. Check below and record procedure In log (27). ❑ Hyh water able In tank excavation <br />List maximum allowable test pressure for all test'. 19. TANK MEASUREMENTS FOR <br />Four pond rule doer not apply to doublewalled tank.. TSTT ASSEMBLY <br />Complete section below: <br />- Bottom of tank to pude' ............................ 1 � In. <br />Add ao- for ..7... probe &say ........................... 30 In. <br />t. It lour pound rule required? Yes ❑ No ❑ Total tubing to assemble — approximate In. <br />2 Height to 12' mark from bottom of tank <br />7. Pressure at bottom of lank <br />4 Pressure at top of tank <br />Depth of burial <br />Tank me <br />Waley table <br />NOTES: <br />J <br />20. EXTENSION HOSE SETTING <br />❑ <br />in. <br />...... H <br />143 <br />❑ <br />Tank top to Credo' .................................. <br />In. <br />4. ce< <br />Extend nose on sucliOn tube 6- or more <br />Company Engineering Data <br />�P 5 1 <br />Observed A P f. Gravity ................................. <br />Table D ................................................ <br />Charts supplied with <br />below tank top ...................................... <br />In. <br />PSI <br />'If Fill pipe extends above grade. use top of fill, <br />Vdume change m <br />22. Thermal -Sensor reeding after circulation <br />92 <br />COE to Line M. <br />Trans'*, to Line 2E. <br />(b) <br />digits <br />13� In <br />Total Quantity In <br />'F <br />Volume change In this tank <br />Between <br />423. <br />Digits per OF in range of expected change <br />digits <br />COEFFICIENT OF EXPANSION (Complete after circulation) <br />in. <br />_ = a CnGS-? (,'I., <br />24 a. Corrected A.P.I. Gravity <br />Volume Chang. per 'F (25 of tab) <br />n. <br />Observed A PA. Gravity ................................... <br />feet <br />Hydrometer employed ................................... <br />H <br />lector (a) <br />Observed Sample Temperature ......................... <br />'F <br />The above calculations are to be used for dry soft conditions to <br />establish a positive pressure advantage, or when using the four pound <br />rule to compensate for the presence of subsurface water In the tank <br />area. <br />Refer to N.F.P.A. 90. Sections 2-7.2.4 and 2.7.2 and the tank <br />manufacturer regarding allowable system lest pressures. <br />From <br />RECIPROCAL METHOD <br />Type of Product ................................... <br />❑ <br />Hydromeler Employed ........................... <br />...... H <br />Station Chart <br />❑ <br />After Circulation ........................................ <br />U 'F <br />Tank A/anufactwer's Chart <br />I...... 'F <br />Company Engineering Data <br />❑ <br />Observed A P f. Gravity ................................. <br />Table D ................................................ <br />Charts supplied with <br />❑ <br />CQ A (I ► 514 <br />. 1e . 5��(Ci 51 <br />Other <br />Tow Gallons <br />Gallons as Reading <br />45` e,Q70 <br />Q1i4 0 <br />Transfer total to line 25a <br />I21. VAPOR RECOVERY SYSTEM ® Stage I Z Slaye If <br />24b. COEFFICIENT OF EXPANSION <br />RECIPROCAL METHOD <br />Type of Product ................................... <br />Q <br />Hydromeler Employed ........................... <br />...... H <br />Temperature In Tank <br />Table C ................................................ <br />After Circulation ........................................ <br />U 'F <br />Temperature of Sample .......................... <br />I...... 'F <br />Difference(•r') ......................................... <br />} -F <br />Observed A P f. Gravity ................................. <br />Table D ................................................ <br />Reciprocal 15i 4 Pave •_ <br />From Table B ............................................ <br />CQ A (I ► 514 <br />. 1e . 5��(Ci 51 <br />TotalQuantity in Reciprocal <br />Vdume change m <br />full tank (16 or 17) <br />this tank per •F <br />COE to Line M. <br />Trans'*, to Line 2E. <br />24c. FOR TESTING WITH WATER tea Table C 6 D <br />Corrected A.P.I. Grevlry <br />Water Temperature attar Circulation <br />@ 60'F. From Table A .................................... <br />Table C ................................................ <br />Coefficient of Expansion <br />Coefficient of Water <br />for Involved Product <br />Table D ................................................ <br />From Table B ............................................ <br />Transfer COE to Line 25b. <br />Added Surfactant? [IYes ❑ No Transfer <br />COE to Line M. <br />25. (a) x <br />(b) <br />_ (c) <br />gallons <br />Total Quantity In <br />Coefficient of expansion for <br />Volume change In this tank <br />lull tank (15 or 17) <br />Involved product <br />per IF <br />26. (a) (j . S1 /-/-A <br />1 ncu:) <br />_ = a CnGS-? (,'I., <br />This Is • ��. <br />Volume Chang. per 'F (25 of tab) <br />Digits pet •F In w.t <br />Volume :hang. per digit <br />feet <br />listings (23) <br />Compule to 4 declmal places. <br />lector (a) <br />F <br />