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COMPLIANCE INFO_1987-1995
Environmental Health - Public
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EHD Program Facility Records by Street Name
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BENJAMIN HOLT
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2908
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2300 - Underground Storage Tank Program
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PR0231021
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COMPLIANCE INFO_1987-1995
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Last modified
9/20/2022 4:35:41 PM
Creation date
6/3/2020 9:44:10 AM
Metadata
Fields
Template:
EHD - Public
ProgramCode
2300 - Underground Storage Tank Program
File Section
COMPLIANCE INFO
FileName_PostFix
1987-1995
RECORD_ID
PR0231021
PE
2361
FACILITY_ID
FA0003625
FACILITY_NAME
ARCO STATION #83560*
STREET_NUMBER
2908
Direction
W
STREET_NAME
BENJAMIN HOLT
STREET_TYPE
DR
City
STOCKTON
Zip
95207
APN
09763032
CURRENT_STATUS
01
SITE_LOCATION
2908 W BENJAMIN HOLT DR
P_LOCATION
01
P_DISTRICT
002
QC Status
Approved
Scanner
SJGOV\rtan
Supplemental fields
FilePath
\MIGRATIONS\UST\UST_2361_PR0231021_2908 W BENJAMIN HOLT_1987-1995.tif
Tags
EHD - Public
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la <br />14. ,A_ri nit - <br />Name of Supplier. Owner or Dealer <br />15. TANK TO TEST �a 04" 3 <br />QIE�4a f �5 44, <br />Identity by position <br />Wo le 4 1�� <br />Brand and Grade <br />17. FILL -UP FOR TEST <br />Addr" No. and Street is) <br />15a. BRIEF DIAGRAM OF tANK'FIELD'.* <br />City State <br />16. CAPA\QITY <br />Nominal Capacity <br />"Ions <br />By oweaccurate n <br />capacity chart evalit" <br />Stick Water Bottom <br />before FI1fup dz� —in. 7-- b*L Inventory <br />Gallons Tank; Disislater <br />18. SPECIAL CONDITIONS AND PROCEDURES TO TEST THIS TANK Dweller in tank C3 Unt(s) being tested with LVLLT <br />Sea manual socitem applicable. Check below and record procedure In 1" (27). C3 High water table Interni oxcovation <br />Use maximum allowable tog Pressure for 811 Wis. <br />Four pound rule Om not apply to lJoublowalled tanks. 19. TANK MEA$QREMENTS FOR <br />TSTT ASSEMBLY <br />Corr?ote section below: <br />sonorn of tank to L 11 <br />1. Is four pound rule required? <br />Z HOW to 12- mark from bottom of tank <br />3. pressure at bottom of tank <br />4. Pressure at top of tank <br />of burial <br />Vs. <br />table <br />NOTES: <br />yes 0 No <br />The above calculations are to be used for dry soil conditions to <br />establish a positive pressoureadvantago, or when using the four pound <br />rule to compensate for the presence of subsurface water In the tank <br />Rotor to N.F.P.A. 30. Sections 2-3.2.4 and 2-7.2 and the tank <br />manufacturer regarding allowable synittion tog preesurse. <br />Data of Test <br />From <br />1:1 Station Chart <br />FI Tank Manufacturer's Chart <br />ElCompany Engineering Data <br />1:1 Charts supplied with <br />El Other <br />. .... ..... . ........... <br />Gallons <br />4 <br />Add 3V W Ir probe <br />bf <br />TOM tvaing to asomble � - Approaksele ............. —.14 <br />in. <br />20. EXTENSION MOSE. SETTING <br />TW* top to rado. ................. in:, <br />Lt. <br />Eldond hose on forction Wile V or jalare <br />. . : <br />Transfer lotal to line 2ft <br />. <br />below tank top.., ................................. lao. <br />Lt. <br />I" Fill pipe extends above Waft, use top of ML <br />22. Tihormaii-Sonsor reading after circulation <br />digile <br />in. <br />o <br />Data of Test <br />From <br />1:1 Station Chart <br />FI Tank Manufacturer's Chart <br />ElCompany Engineering Data <br />1:1 Charts supplied with <br />El Other <br />COEFFICIENT OF EXPANSION <br />RECIPROCAL METHOD <br />617� <br />Tamof ROM .................................... <br />leVdromoeer Employed .................................. 7 H <br />Terepersoure In Tank <br />After Circulation ........................................ . 67,(.1-F <br />Temperature of Sample ................................. 7o IF <br />Woolanc oom ........................................IF <br />Observotl AP.I. Gravity ................................. <br />23. DWft per IF In range of expected change pitlelprocall 0/di ht Page # <br />In. <br />COEFFICIENT. OF EXPANSION (Complete after circulation). 0—ello ASQ If g, oo 13 3 &144 <br />24a. Corrected xiec "Ity, Total quantity In Reciprocal Volume change In <br />In.full tank (10 or 17) this tank per IF <br />Observed <br />A.P.: Gravity.: ................... : ................ Transfer to Line 28a. <br />......................... <br />j. <br />T24c. FOR TESTING WITH WATER NoTable C&D <br />observed Sample oomporo— .......... <br />Corrected A.P.I. Grovily <br />I—jl;q, . * , vftw Temperature after Circulation <br />0 6VF. From Table A ........... ............................. T" C•................................... ............. <br />Coefficient of - EXPWW" Oodftkiht of wat/ <br />er <br />for Involved Rodulit - >/4 <br />To" 0 ................................................ <br />From Table 9 ........ ............... ...... <br />Transfer COE to LW4 M Surfactant? F-1 Yes 1:1 No Transfer COE to Una 25b. <br />25. �A— to (c) plans <br />TOM quan* Iff Coefficient Of ansponsian lor Volume change In this tank <br />tale semi (beer t7) .,klacived.prolkict Per IF <br />1�-q 3 1 <br />26. - Wa A r—> Z, Lf This Is <br />%ftaso diallois Par of in isr MW w4ft per OF -W amVok—o-pdookedwcw No <br />Con," So 4 PISM be" <br />M <br />IF <br />MEM <br />A <br />Total Gallons <br />Gallons <br />4 <br />*a. Reading <br />'7jffAl, <br />Z, 5) <br />Transfer lotal to line 2ft <br />21.- VAPOR RECOVERY SYSTEM <br />Elstapi Ostageii <br />COEFFICIENT OF EXPANSION <br />RECIPROCAL METHOD <br />617� <br />Tamof ROM .................................... <br />leVdromoeer Employed .................................. 7 H <br />Terepersoure In Tank <br />After Circulation ........................................ . 67,(.1-F <br />Temperature of Sample ................................. 7o IF <br />Woolanc oom ........................................IF <br />Observotl AP.I. Gravity ................................. <br />23. DWft per IF In range of expected change pitlelprocall 0/di ht Page # <br />In. <br />COEFFICIENT. OF EXPANSION (Complete after circulation). 0—ello ASQ If g, oo 13 3 &144 <br />24a. Corrected xiec "Ity, Total quantity In Reciprocal Volume change In <br />In.full tank (10 or 17) this tank per IF <br />Observed <br />A.P.: Gravity.: ................... : ................ Transfer to Line 28a. <br />......................... <br />j. <br />T24c. FOR TESTING WITH WATER NoTable C&D <br />observed Sample oomporo— .......... <br />Corrected A.P.I. Grovily <br />I—jl;q, . * , vftw Temperature after Circulation <br />0 6VF. From Table A ........... ............................. T" C•................................... ............. <br />Coefficient of - EXPWW" Oodftkiht of wat/ <br />er <br />for Involved Rodulit - >/4 <br />To" 0 ................................................ <br />From Table 9 ........ ............... ...... <br />Transfer COE to LW4 M Surfactant? F-1 Yes 1:1 No Transfer COE to Una 25b. <br />25. �A— to (c) plans <br />TOM quan* Iff Coefficient Of ansponsian lor Volume change In this tank <br />tale semi (beer t7) .,klacived.prolkict Per IF <br />1�-q 3 1 <br />26. - Wa A r—> Z, Lf This Is <br />%ftaso diallois Par of in isr MW w4ft per OF -W amVok—o-pdookedwcw No <br />Con," So 4 PISM be" <br />M <br />IF <br />MEM <br />A <br />
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