Near Surface Soil Vapor Clusters for Monitoring Emissions of Volatile Organic Compounds from Soils

Ergas, Sarina J.; Hinlein, Erich S.; Reyes, P. O.; Ostendorf, David W.; Tehrany, J. P.

doi:10.1080/10473289.2000.10463983

Cited by 2 publications

(1 citation statement)

References 12 publications

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“…This was the observation from the model prediction as well. It is important to point out that the sediment core analysis provides an alternate way of obtaining the long-term steady state flux from the product of the effective diffusivity and the slope of the concentration profile, as suggested recently by Ergas et al 28 There was no evidence of significant biodegradation or leaching from the CDF. Samples from the control cells were withdrawn after ~500 hr, and the loading of phenanthrene was found to be 21 and 28 mg/kg for the cells with the biocide and without the biocide, respectively.…”

Section: Mass Balance In the Cdfmentioning

confidence: 75%

Air Emission Flux from Contaminated Dredged Materials Stored in a Pilot-Scale Confined Disposal Facility

Ravikrishna

Valsaraj

Reible

et al. 2001

Journal of the Air & Waste Management Association

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A pilot-scale field simulation was conducted to estimate the air emissions from contaminated dredged material stored in a confined disposal facility (CDF). Contaminated dredged material with a variety of organic chemicals, obtained from Indiana Harbor Canal, was used in the study. It was placed in an outdoor CDF simulator (i.e., a lysimeter of dimensions 4 ft x 4 ft x 2 ft). A portable, dynamic flux chamber was used to periodically measure emissions of various polynuclear aromatic hydrocarbons (PAHs). A weather station was set up to monitor and record the meteorological conditions during the experiment. The fluxes of several PAHs were monitored over time for 6 1/2 months. Initial 6-hr average fluxes varied from 2 to 20 ng/cm2/hr for six different PAHs. The flux values declined rapidly for all compounds soon after placement of the dredged material in the CDE Chemical concentrations derived from flux values were generally of low magnitude compared with ambient standards. Data obtained from the experiment were compared against those predicted using models for air emissions. Model simulations showed that initially the flux was largely from exposed pore water from saturated (wet) sediment, whereas the long-term flux was controlled by diffusion through the pore air of the unsaturated sediment. Model predictions generally overestimated the measured emissions. A rainfall event was simulated, and the dredged material was reworked to simulate that typical of a CDF operation. Increased flux was observed upon reworking the dredged material.

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Section: Mass Balance In the Cdfmentioning

confidence: 75%

Air Emission Flux from Contaminated Dredged Materials Stored in a Pilot-Scale Confined Disposal Facility

Ravikrishna

Valsaraj

Reible

et al. 2001

Journal of the Air & Waste Management Association

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A Simple Model of Soil‐Gas Concentrations Sparged into an Unlined Unsaturated Zone

Ostendorf

Hinlein

Lutenegger

et al. 2003

Groundwater Monitoring Rem

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We derive an analytical model of soil‐gas contamination sparged into an imlined unsaturated zone. A nonaqueous phase liquid (NAPL) source lies in the capillary fringe, with an exponential sparge constant within the radius of influence and a constant ambient evaporation rate beyond. Advection, diffusion, and dispersion govern the conservative soil‐gas response, expressed as a quasi‐steady series solution with radial Bessel and hyperbolic vertical dependence. Simulations suggest that sparged contamination initially spreads beyond the radius of influence down a negative gradient. This gradient eventually reverses, leading to a subsequent influx of ambient contamination. Soil‐gas concentrations accordingly reflect slowly varying source conditions as well as slowly varying diffusive transport through the radius of influence. The two time scales are independent: One depends on NAPL, airflow, and capillary fringe characteristics, the other on soil moisture, gaseous diffusivity, and unsaturated zone thickness. The influx of ambient contamination generates an asymptotic soil‐gas concentration much less than the initial source concentration. The simple model is applied to a pilot‐scale sparging study at Plattsburgh Air Force Base in upstate New York, with physically plausible results.

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Near Surface Soil Vapor Clusters for Monitoring Emissions of Volatile Organic Compounds from Soils

Cited by 2 publications

References 12 publications

Air Emission Flux from Contaminated Dredged Materials Stored in a Pilot-Scale Confined Disposal Facility

Air Emission Flux from Contaminated Dredged Materials Stored in a Pilot-Scale Confined Disposal Facility

A Simple Model of Soil‐Gas Concentrations Sparged into an Unlined Unsaturated Zone

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