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CLEAWA'TET <br /> C R (� U !' <br /> Env:ennmentuf services <br /> decay rates for the contaminants beneath this site were calculated using historical monitoring <br /> data for wells MW-1, MW-4 and MW-513 <br /> Concentrations of TPHg and benzene for the wells were plotted against time, and an exponential <br /> curve was fitted to each plot (Figures 6A, 6B and 6C) Preliminary first-order decay rates were <br /> taken from the equation for each curve The preliminary first-order decay rates for TPHg and <br /> benzene in MW-1 were calculated to be 0 09%/day and 0 23%/day respectively (Figure 6A) <br /> The first-order decay rates for TPHg and benzene concentrations in well MW-4 were calculated <br /> to be 0 24%/day and 0 02%/day, respectively (Figure 6A) The seemingly low rate in MW-4 <br /> reflects the relatively low concentrations reported at the initial sampling (5 7 µg/L) The first- <br /> order decay rates calculated for TPHg and benzene also correlate relatively well with published <br /> values, which typically range from 0 1% to 1%/day2 The first-order decay rates derived for <br /> TPHg and benzene in MW-5B actually indicate that concentrations in this well are increasing <br /> with time However, a qualitative evaluation of TPHg concentrations in well MW-5B suggests <br /> they are relatively stable with seasonal concentration fluctuation The trends in contaminant <br /> concentration reduction over time suggest that a combination of natural attenuation processes is <br /> likely occurring within the plume <br /> Physical Processes (Sorption, Volatilization and Advection and Indicators <br /> Sorption typically affects only a very small fraction of the plume mass It generally does not <br /> play a role in the ongoing attenuation of the plume, except possibly at the plume edges if the <br /> plume continues to migrate Sorption generally occurs early in the spill history, as contaminated <br /> groundwater contacts clean soils <br /> Volatilization of dissolved contaminants may play a significant role in the natural attenuation of <br /> volatile organic constituents such as benzene Volatilization can be estimated using a formula <br /> which takes into account the observed mass loss (contaminant decay rate), however, <br /> volatilization has been demonstrated to account of only 5% of benzene mass loss at a site with <br /> relatively favorable conditions for this process 3 <br /> Advection is responsible for the off-site migration of contaminants in concentrations below the <br /> detection limit To evaluate the extent of a plume attenuated through advection, the dissolved <br /> constituents are assumed to move at the same velocity as the groundwater (m a no retardation) <br /> Using the hydraulic conductivity of the water bearing zone, average hydraulic gradient, and <br /> average effective porosity, an approximate volume of hydrocarbons moving off site at <br /> 2Buscheck,T E,O'Reilly,K T,and Nelson, S N (1993) Evaluation of Intrinsic Bioremediation at Field Sites <br /> Proceedings of the Conference on Petroleum Hydrocarbons and Organic Chemicals in Ground Water NGWA/API <br /> . 3Chiang,C Y et al(1989) Aerobic Biodegradation of Benzene,Toluene,and Xylene in a Sandy Aquifer-Data <br /> Analysis and Computer Modeling Groundwater Vol 27,No 6,p 823-834 <br /> ZB178C/1Q03 Monitoring Rpt 6 April 23,2003 <br />