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ARCHIVED REPORTS XR0006490
Environmental Health - Public
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EHD Program Facility Records by Street Name
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P
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PACIFIC
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6425
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2900 - Site Mitigation Program
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PR0519189
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ARCHIVED REPORTS XR0006490
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Last modified
8/21/2019 4:26:36 PM
Creation date
8/21/2019 2:58:28 PM
Metadata
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Template:
EHD - Public
ProgramCode
2900 - Site Mitigation Program
File Section
ARCHIVED REPORTS
FileName_PostFix
XR0006490
RECORD_ID
PR0519189
PE
2950
FACILITY_ID
FA0014347
FACILITY_NAME
CURRENTLY VACANT
STREET_NUMBER
6425
STREET_NAME
PACIFIC
STREET_TYPE
AVE
City
STOCKTON
Zip
95207
APN
09741031
CURRENT_STATUS
02
SITE_LOCATION
6425 PACIFIC AVE
P_LOCATION
01
QC Status
Approved
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EHD - Public
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The lab reports the Concentrations (C) of the air sampling in <br />•� ug/liter . The first step is to convert this value to lbs/cf <br /> (pounds per cubic foot) . <br /> 00 1 u x 0 .0022051 x 28 . 321 cf = 0 .0000006211b cf <br /> 1 ug/1 x D.OA A g/ g q/g / / <br /> The volume of air produced in one day, equals the flow rate (Q)x <br /> the time of flow. <br /> V = Q x T = cf/day = cf/min x 1440min/day <br /> The volume must be corrected to standard temperature and <br /> pressure( STP) . <br /> P = Pressure = 14 . 7 lb/int @ STP <br /> V = Volume cf <br /> T = Temperature in degrees above absolute Zero = 491 .58-R @ STP. <br /> Using the Ideal Gas Law P1V1/T1 = P2V2/T2 <br /> Solving for V2 =P1V1T2/P2T1 <br /> Assuming P1 = P2 = 14. 7 lb/xn2, P cancels from the equation <br /> leaving V2 = V1T2/T1 . <br /> I <br /> V1 = Q cf/m x 1440 min/day <br /> T2 = 491 . 58-R <br /> T1 = 459 .58 + TQF at sight. <br /> V2 = Q cf/min x 1440 min/day x 491 .58-R/ ( 459.58- + T-F) <br /> X Ib/day = C ug/l x 0.0000000621 lb 1/ug cf x Q cf/min x <br /> 1440 min/day x 491 .58-R/( 459.58- + T-F) <br /> Q for the Influent sample = The well flow rate + the air flow. <br /> Q for the Effluent = The well flow + the air flow + the fuel flow <br /> rate. <br /> The fuel flow rate must be corrected to account for the change in <br /> volume from combustion. <br /> Since the gas volume depends on the number of molecules present <br /> the reaction of propane with oxygen produces an increase in <br /> volume. 1C3H8 + 502 -> 3CO2 + 4H2O , which gives an increase from <br /> 6 to 7 molecules per molecule of propane. This effectively means <br /> that after combustion the volume of flow resulting from the <br /> propane is double the propane flow rate. The reaction of methane <br /> (Natural Gas ) and oxygen does not produce a net change in volume, <br /> CH4 + 2 02 -> CO2 + 2 H2O; therefore a correction for combustion <br /> does not need to be made when methane is burned. <br /> See table 1 for the results of REMOX operation and table 2 for <br /> f results influent/effluent monitoring of the system. <br /> f <br /> i 6 <br />
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