Laserfiche WebLink
EVALUATION OF TPH AND BENZENE SOIL VERIFICATION CONCENTRATIONS,S70CKTONFORMER MGP SITE <br /> I = Water infiltration rate <br /> twace = Time for water to move through vadose zone to groundwater <br /> XYZ = Thickness of the vadose zone <br /> Tchem ad = Time for chemical to move throught the vadose zone <br /> The following describes the input parameters used for this model as shown in Table 1. Bulk <br /> density(1.37 g/cm3),soil porosity(0.263),and soil organic carbon (0.0016) are specific to the <br /> Stockton site and were used in all of the VLEACH modeling that supported the Feasibility <br /> Study and PAH verification target concentrations. <br /> The Log K.values were taken from the information presented in the Castle report.In the <br /> Castle report, the log Ko„.for gasoline was estimated using Log K.s for BETX and pentane, <br /> which range between 2.5 and 3.5.A value of 3 was selected for TPH-gasoline in the Stockton <br /> model. A conservative range of 3.5 to 4.5 was used in the Castle report for the heavier <br /> mixture of TPH-diesel. A value of 3.5 was selected for TPH-diesel in the Stockton model. <br /> The resulting leachability factor or retardation factor (R)using the site specific soil <br /> parameters and the Log K.„s are 17.6 for TPH-diesel and 6.26 for TPH-gasoline. These <br /> leachability factors are similar to those calculated in the Castle report. <br /> The infiltration rate used for developing the Stockton TPH concentrations was based on the <br /> assumption that the entire annual rainfall of 1.1 feet/year would infiltrate into the soil <br /> (similar assumption was used in the Castle report). This assumption is rather conservative <br /> given that the site is paved and will continue to be paved after soil remediation is <br /> completed. A lower rate was used in the VLEACH model for Stockton. A higher infiltration <br /> rate results in a lower cleanup level. <br /> A vadose zone thickness of 20 feet was used in the Stockton model. Depth to groundwater is <br /> about 23 feet. The same chemical half-lives were used for TPH-diesel and gasoline, 10 and 5 <br /> years,respectively as in the Castle report.For comparison, the half-life used in the VLEACH <br /> model for naphthalene in soil was 125 days. Therefore, these half-lives are conservative. <br /> The calculated Environmental Attenuation Factor for TPH-diesel was 439 and 80 for TPH- <br /> gasoline.As in the Castle report,0.1 mg/L or 100µg/L was assumed for the groundwater <br /> quality objective(Cg�qo)for both TPH-diesel and TPH-gasolineon <br /> .RWQCB's <br /> limit for TPH-diesel is 100µg/L. 100µg/L is used for TPH-gasolinebased be estimating a <br /> beneficial use <br /> standard comparable for protection of the individual benzene, toluene,ethyl benzene,and <br /> xylene fractions by dividing the MCL for each of the BTEX components by the fraction of <br /> the component in gasoline as listed in the LUFT manual (Castle, 1996). <br /> Using the input parameters, the resulting soil verfication target concentration for TPH-diesel <br /> is 770 mg/kg and 50 mg/kg for TPH-gasoline. <br /> References <br /> Air Force Base Conversion Agency(AFBCA), 1996,Response to California Regional Water <br /> Quality Control Board Staff Letter of 15 July 1996. [Proposed Cleanup Level Evaluation, <br /> TPHBBENZENEVERIFICATION MEMO.DOC <br /> 3 <br />