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COMPLIANCE INFO_2010-2011
Environmental Health - Public
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2300 - Underground Storage Tank Program
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PR0231310
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COMPLIANCE INFO_2010-2011
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Last modified
8/25/2022 2:52:45 PM
Creation date
6/23/2020 6:46:10 PM
Metadata
Fields
Template:
EHD - Public
ProgramCode
2300 - Underground Storage Tank Program
File Section
COMPLIANCE INFO
FileName_PostFix
2010-2011
RECORD_ID
PR0231310
PE
2361
FACILITY_ID
FA0003773
FACILITY_NAME
VAN DE POL ENT INC/PACIFIC PRIDE
STREET_NUMBER
351
Direction
N
STREET_NAME
BECKMAN
STREET_TYPE
RD
City
LODI
Zip
95240
APN
04903015
CURRENT_STATUS
01
SITE_LOCATION
351 N BECKMAN RD
P_LOCATION
02
P_DISTRICT
004
QC Status
Approved
Scanner
SJGOV\rtan
Supplemental fields
FilePath
\MIGRATIONS\UST\UST_2361_PR0231310_351 N BECKMAN_2010-2011.tif
Tags
EHD - Public
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Feb -22 10 04:20p Elite TV Contactors 1209461.Q,342 p.8 <br />Vaporless 99 LD -2000 .Addendum <br />5.0 Description of the 99 LD -2000 <br />The 99 LD -2000 mechanical leak detector incorporates a poppet valve and metering pin. When <br />the pump is activated, fuel is metered into the line to raise the pressure. If the pressure rises <br />above 24 psi, the poppet valve opens and full flow into the line occurs. If the pressure fails to rise <br />above 24 psi, fuel flow in the line is restricted to approximately 2 gal/min. <br />The 99 LD -2000 mechanical line leak detector is based on the original LD -2000 developed by <br />Vaporless in 1990. Features of the 99 LD -2000 include: <br />• Drastically reduced piston size of the leak detector making for a much more responsive <br />leak detector, significantly reducing the fuel needed to pass through the metering pin and <br />poppet to allow full flow of the pump. <br />• Eliminates traditional fuel flow path to the piston allowing the leak detector metering <br />system better isolation from the turbulence and hydraulic effects found in the pump head <br />during pump startup. This fuel flow change also eliminates the mechanical and thermal <br />effects present in the upper half of the pump, allowing the leak detector to only respond <br />to line pressure changes. <br />• More responsive leak detectors allowing the line to open up for pumping more quickly. <br />When the pump is off, it will reset to leak sense position faster because of the smaller <br />amount of fuel under the piston. Additionally, the leak detector does not have to <br />completely reset to cycle through the leak sense position. If the line pressure falls as low <br />as 5 psi (when the pump is off), the leak detector is forced into the leak sense mode. <br />• Reduced surface area of the piston results in less exposure to hydraulic line shock, <br />enhancing leak detection performance not only in steel and fiberglass lines but also in <br />flexible piping systems. <br />• Higher leak sense pressure is possible due to the reduced piston area. The leak detector <br />stays in the fast fill position to a higher pressure, compressing vapor pockets or removing <br />stretch from flexible pipe faster. <br />• Field adjustment access in cap to adjust sensitivity for wear or field variables such as <br />deep burial or excessive trapped vapor. <br />• Integrated check valve to compensate for pump component failure such as leaking check <br />valves in the turbine, defective submersible pump pressure reliefs, or defective bypass <br />valves. If pump component failure occurs the integrated check valve does not allow the <br />system to depressurize and reset the leak detector. <br />Page 6 <br />
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