C. Nelson Neale scite author profile

i%eprevulence of hea y metal soil contamination at Army jkilitiesposes a serious threat to human health and the enuimnment. To addresli t h k p m b h , the US Army Engineer Warnays ,?ixpenment Station in Vkkbulg, MS is &wbping a mobilepilotscale soil washing treatment facilicv that can be used to m o v e k f i u m the conturnid&. To s q p t t h k w , labora-tolystudi63 rn conducted on both acid and chehting agents to mluate their ability in extracting hea y metak. from contarniwted soils. Eight soils contaminated with lead> cadmium, and chromium uwe s e k k d for use in thissluay. Contaminant concentrations i?t the various soils ranged from 4,00030,000 m& W , 401,oOO rn&g uidmium, and5@4@Wm@ chmmium. 7be muk indicated that, before a@-scule clean-tlp is initiated, a prelimina y investigation is needed to detmineprincipl contaminants of concern, their concentrations, and soil [ype followd by twatubility studits to htermine optimal reagent and concentraions o f r w m f i r cleanq. Sjzxfz m & M this d y d o i n d d that Ckl was the tmkt metul to m h soils followed by Pb and Cr. irhe m L % ako mgg& thd the stmg a d s and chelating agents u.m hoth effiiw sctracting a m , and the lattergmup of compounds may he more uwjid in soil wurhing because they are less harmful to the soil environment. Finully, higher initial concentrations of metal contaminants in the soil themgem.

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Impacts of Unsaturated Zone Properties on Oxygen Transport and Aquifer Reaeration

Neale

Hughes

Ward

2000

Groundwater

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This study investigated the unsaturated zone properties that affect ground water reaeration (i.e., the diffusive flux of oxygen through the unsaturated zone and into an aquifer system). Laboratory column experiments were undertaken to quantify oxygen flux into anaerobic ground water as a function of soil type, soil water content, soil oxygen demand, and unsaturated zone thickness. Soils used in these studies included coarse sand, sand, loamy fine sand, fine sandy loam, silt, silty clay loam, bentonite, kaolin, and peat. The results showed that reaeration flux rates ranging from 11,000 to 12,000 mg/m2‐day were possible under conditions typical of the natural environment. Soil water content provided the greatest resistance to oxygen transport in the unsaturated zone while the remaining factors of soil type, soil oxygen demand, and unsaturated zone thickness did not significantly inhibit reaeration flux into ground water. An unsaturated zone transport model based on Fick's second law and gas‐liquid interfacial mass transport was developed and showed good agreement with the experimental results derived from the column studies. The results of this study suggest that unsaturated zone reaeration of anaerobic ground water may be a contributing factor in controlling the steady–state size and shape of hydrocarbon plumes and incorporating reaeration into ground water models—based on unsaturated zone properties—may allow for a more accurate representation of bioattenuation reactions taking place in subsurface environments.

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Heavy metal soil remediation: The effects of attrition scrubbing on a wet gravity concentration process

Marino¹,

Brica²,

Neale

1997

Environ. Prog.

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Groundwater Reaeration and Hydrocarbon Plume Length: A Modeling Analysis

et al. 2002

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C. Nelson Neale

Evaluating acids and chelating agents for removing heavy metals from contaminated soils

Impacts of Unsaturated Zone Properties on Oxygen Transport and Aquifer Reaeration

Heavy metal soil remediation: The effects of attrition scrubbing on a wet gravity concentration process

Groundwater Reaeration and Hydrocarbon Plume Length: A Modeling Analysis

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