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COMPLIANCE INFO_1986-1996
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COMPLIANCE INFO_1986-1996
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Last modified
3/10/2021 12:21:10 PM
Creation date
6/23/2020 6:44:45 PM
Metadata
Fields
Template:
EHD - Public
ProgramCode
2300 - Underground Storage Tank Program
File Section
COMPLIANCE INFO
FileName_PostFix
1986-1996
RECORD_ID
PR0231127
PE
2361
FACILITY_ID
FA0003611
FACILITY_NAME
PARKWOODS GAS & FOOD
STREET_NUMBER
1612
Direction
W
STREET_NAME
HAMMER
STREET_TYPE
LN
City
STOCKTON
Zip
95209
APN
07728002
CURRENT_STATUS
01
SITE_LOCATION
1612 W HAMMER LN
P_LOCATION
01
P_DISTRICT
002
QC Status
Approved
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SJGOV\rtan
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\MIGRATIONS\UST\UST_2361_PR0231127_1612 W HAMMER_1986-1996.tif
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EHD - Public
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I <br />15. TANK TO TEST 15a. BRIEF DIAGRAM OF TANK FIELD 16. CAPACITY <br />) Nominal Capacity <br />Identity by position `^4 J� �V Gallons <br />NCO UI U�.D <br />Brand and Grave cs most chart v (� <br />• `y earracity chest svahable ^. _ s <br />Gallons <br />17. FILL -UP FOR TEST <br />stick Water Bottom (/��) (/�� <br />before F111-up��" In. In <br />to 'A Gallons Tank Diameter <br />18. SPECIAL CONDITIONS AND PROCEDURES TO TEST THIS TANK ❑ Water In lank ❑ Line(s) being tested with LVLLT <br />Sae manual sections applicable. Check below and record procedure In leg (27). ❑ High water table In lank excavation <br />the maximum allowable Iasi pressure tot all lasts. 19. TANK MEASUREMENTS FOR <br />Four pound rule does not apply to doublowatled lank$. <br />TSTT ASSEMBLY 4 .� <br />Complete $$Ulan below: <br />1. Is four pound rule requited? <br />.2. Height to 121 mark from grade <br />N, <br />3. Pressure at bottom oI lank <br />4. Pressure el top of lank <br />Depth of burial <br />Tank dla. <br />Waler table to lank bottom <br />NOTES: <br />The above calculations aro to be used for dry soli 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 lank <br />area. <br />Rotor to N.F.P.A. 30, Sections 2-3.2.4 and 2-7.2 and the tank <br />manufacturer regarding allowable system lost pressures. <br />Bollom of tank to grade to. <br />Add30" lot -r probe easy ........................... ao to. <br />Total tubing to assemble — approximate ............. tL6In. <br />20. EXTENSION HOSE SETTING <br />Tank lop to grade' .................................. <br />Extend hose on suction lube tt" or more J I <br />below lank top ...................................... In. <br />'ll Fill pipe extends above grade, use lop of fill. <br />USE WITH THERMAL SENSOR <br />PN5039 (Blue Box) <br />22. Thermal -Sensor reading alter circulation <br />23. Digits per •F in range of expected change <br />(1__f5"_10_ <br />digits <br />_.F <br />Between <br />24a. IF USING THERMAL SENSOR DTS-2000 <br />OR OC -2000 WHICH READ 1000 DIGITS <br />PER OF TRANSFER 1000 TO LINE 26, <br />DIGITS PER OF IN TEST RANGE. <br />From <br />Total Gallons <br />® <br />as. Reading <br />Station Chart <br />❑ <br />Tank Manufacturer's Chart <br />❑ <br />Company Engineering Data <br />❑ <br />Charts supp!4d with Tar%TealAr <br />El <br />Other <br />Temperature of Sample................................� <br />TotalOusnllly <br />115 <br />'F <br />Obsessed A.P.I. Gravity ...............1/...(....��.}......... <br />Reciprocal "'s `Page <br />Total quantity In Reciprocal <br />full lank 117) <br />Volume change In <br />this tank per IF <br />Transfer to Line 28a. <br />® <br />/ <br />HP <br />Do <br />CAI <br />i <br />® <br />Z <br />ole <br />Y <br />_ <br />� <br />h <br />g <br />~ <br />ti. <br />w$ <br />= 1 <br />J <br />® <br />�g <br />o <br />W <br />by-£ CC <br />N <br />G;, <br />Ili <br />a <br />t Z <br />a <br />® <br />h <br />; <br />Z u <br />d C3 <br />w <br />? <br />Z <br />c° <br />Ti <br />J <br />fi <br />CD <br />w <br />0. to <br />V F6 <br />Q ''" <br />I-_ <br />Q tL <br />` <br />i <br />.. <br />o <br />IL <br />Z <br />W <br />o <br />in 3 <br />aa <br />a Q <br />I.— <br />0►— <br />b= <br />Z <br />®s <br />3 " <br />E <br />Q <br />h <br />cc ee <br />Lu LU <br />O <br />Z <br />=� <br />J <br />tS Q ar W <br />a. x ®p ager <br />Z U o i L L OC <br />F— <br />W <br />En <br />w <br />f'- <br />Z� <br />W <br />c <br />W <br />� <br />O. <br />/!1 <br />S.LJ W <br />U) <br />_ �,p <br />Q <br />g <br />'3 <br />Z 'Q <br />Z Q <br />-"I t`t <br />L— <br />p W A O Z O <br />h <br />W <br />U) U <br />(an( <br />Co <br />C) <br />cc: <br />r 1— <br />h <br />. <br />® <br />a� <br />CL 4 <br />U :� S 6cd <br />ur <br />J <br />a� <br />cli <br />M <br />'C'• <br />rA <br />rD <br />h. <br />61O <br />® <br />678CL <br />i <br />14. <br />(612 <br />1JIGMME2 <br />Ln' <br />5 <br />HT -A <br />C(R <br />r <br />' <br />Name of Supplier. Owner or Dealer <br />Address No. and Street (s) <br />City Slate <br />Data of Test <br />15. TANK TO TEST 15a. BRIEF DIAGRAM OF TANK FIELD 16. CAPACITY <br />) Nominal Capacity <br />Identity by position `^4 J� �V Gallons <br />NCO UI U�.D <br />Brand and Grave cs most chart v (� <br />• `y earracity chest svahable ^. _ s <br />Gallons <br />17. FILL -UP FOR TEST <br />stick Water Bottom (/��) (/�� <br />before F111-up��" In. In <br />to 'A Gallons Tank Diameter <br />18. SPECIAL CONDITIONS AND PROCEDURES TO TEST THIS TANK ❑ Water In lank ❑ Line(s) being tested with LVLLT <br />Sae manual sections applicable. Check below and record procedure In leg (27). ❑ High water table In lank excavation <br />the maximum allowable Iasi pressure tot all lasts. 19. TANK MEASUREMENTS FOR <br />Four pound rule does not apply to doublowatled lank$. <br />TSTT ASSEMBLY 4 .� <br />Complete $$Ulan below: <br />1. Is four pound rule requited? <br />.2. Height to 121 mark from grade <br />N, <br />3. Pressure at bottom oI lank <br />4. Pressure el top of lank <br />Depth of burial <br />Tank dla. <br />Waler table to lank bottom <br />NOTES: <br />The above calculations aro to be used for dry soli 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 lank <br />area. <br />Rotor to N.F.P.A. 30, Sections 2-3.2.4 and 2-7.2 and the tank <br />manufacturer regarding allowable system lost pressures. <br />Bollom of tank to grade to. <br />Add30" lot -r probe easy ........................... ao to. <br />Total tubing to assemble — approximate ............. tL6In. <br />20. EXTENSION HOSE SETTING <br />Tank lop to grade' .................................. <br />Extend hose on suction lube tt" or more J I <br />below lank top ...................................... In. <br />'ll Fill pipe extends above grade, use lop of fill. <br />USE WITH THERMAL SENSOR <br />PN5039 (Blue Box) <br />22. Thermal -Sensor reading alter circulation <br />23. Digits per •F in range of expected change <br />(1__f5"_10_ <br />digits <br />_.F <br />Between <br />24a. IF USING THERMAL SENSOR DTS-2000 <br />OR OC -2000 WHICH READ 1000 DIGITS <br />PER OF TRANSFER 1000 TO LINE 26, <br />DIGITS PER OF IN TEST RANGE. <br />From <br />Total Gallons <br />® <br />as. Reading <br />Station Chart <br />❑ <br />Tank Manufacturer's Chart <br />❑ <br />Company Engineering Data <br />❑ <br />Charts supp!4d with Tar%TealAr <br />El <br />Other <br />21. VAPOR RECOVERY SYSTEM ❑ Stage t Cl Stage it <br />24b. COEFFICIENT OF EXPANSION <br />Total Gallons <br />RECIPROCAL METHOD <br />as. Reading <br />((��,w��� �,y���j'� <br />/' �r 1t��-+/ <br />Inventory In Tank <br />—5... H <br />Temperature M Tank((tt� <br />Waley Bottom <br />Alter Circulation.......................................`W <br />F <br />Top oil equipment <br />t <br />Temperature of Sample................................� <br />TotalOusnllly <br />115 <br />'F <br />21. VAPOR RECOVERY SYSTEM ❑ Stage t Cl Stage it <br />24b. COEFFICIENT OF EXPANSION <br />RECIPROCAL METHOD <br />Type of Product.......................................1 <br />((��,w��� �,y���j'� <br />/' �r 1t��-+/ <br />Hydrometer Employed .................................. <br />—5... H <br />Temperature M Tank((tt� <br />� <br />Alter Circulation.......................................`W <br />F <br />\ •F <br />Temperature of Sample................................� <br />+`tar <br />Difference (0-1 .......................................... <br />'F <br />Obsessed A.P.I. Gravity ...............1/...(....��.}......... <br />Reciprocal "'s `Page <br />Total quantity In Reciprocal <br />full lank 117) <br />Volume change In <br />this tank per IF <br />Transfer to Line 28a. <br />24c. FO'RTESTING WITH WATER ecu Tgb(e C 6 D <br />Water Temperature alley Clrculetl <br />Table C from Thermal Sensor ......... ............... •F <br />Coefficient of Water <br />Table D ........... ............................... <br />Added Sur hets f7 ❑ Vee ❑ No Transfer COE to Line 25b. <br />25. (a) 'q x (b) N� q = (C) 1 V � A gallons <br />Total quan111y In Coefficient of expanslen for Volume change In this lank <br />full lank 117 involved/produe per •F!`�(, //�,,{ /�^/� /�}Yl ()1 <br />`/\J(?\Tnr.�7p <br />
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