Evaluation of mass flux to and from ground water using a vertical flux model (VFLUX): Application to the soil vacuum extraction closure problem

Dominic C. DiGiulio; Varadhan Ravi; Mark L. Brusseau

doi:10.1111/j.1745-6592.1999.tb00210.x

Evaluation of mass flux to and from ground water using a vertical flux model (VFLUX): Application to the soil vacuum extraction closure problem

Dominic C. DiGiulio, Varadhan Ravi, Mark L. Brusseau

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Site closure for soil vacuum extraction (SVE) application typically requires attainment of specified soil concentration standards based on the premise that mass flux from the vadose zone to groundwater does not result in levels exceeding maximum contaminant levels (MCL). However, realization of MCLs may not be attainable in many sites. A strategy based on the evaluation of site characterization, design, performance monitoring, rate-limited vapor transport, and mass flux to and from groundwater is discussed, focusing on the last component. A plant based on monitoring of three subsurface zones is presented and an analytical one-dimensional vertical flux model, called VFLUX is developed.

Original language	English (US)
Pages (from-to)	96-104
Number of pages	9
Journal	Ground Water Monitoring and Remediation
Volume	19
Issue number	2
DOIs	https://doi.org/10.1111/j.1745-6592.1999.tb00210.x
State	Published - 1999
Externally published	Yes

ASJC Scopus subject areas

Civil and Structural Engineering
Water Science and Technology

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10.1111/j.1745-6592.1999.tb00210.x

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abstract = "Site closure for soil vacuum extraction (SVE) application typically requires attainment of specified soil concentration standards based on the premise that mass flux from the vadose zone to groundwater does not result in levels exceeding maximum contaminant levels (MCL). However, realization of MCLs may not be attainable in many sites. A strategy based on the evaluation of site characterization, design, performance monitoring, rate-limited vapor transport, and mass flux to and from groundwater is discussed, focusing on the last component. A plant based on monitoring of three subsurface zones is presented and an analytical one-dimensional vertical flux model, called VFLUX is developed.",

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AU - Brusseau, Mark L.

PY - 1999

Y1 - 1999

N2 - Site closure for soil vacuum extraction (SVE) application typically requires attainment of specified soil concentration standards based on the premise that mass flux from the vadose zone to groundwater does not result in levels exceeding maximum contaminant levels (MCL). However, realization of MCLs may not be attainable in many sites. A strategy based on the evaluation of site characterization, design, performance monitoring, rate-limited vapor transport, and mass flux to and from groundwater is discussed, focusing on the last component. A plant based on monitoring of three subsurface zones is presented and an analytical one-dimensional vertical flux model, called VFLUX is developed.

AB - Site closure for soil vacuum extraction (SVE) application typically requires attainment of specified soil concentration standards based on the premise that mass flux from the vadose zone to groundwater does not result in levels exceeding maximum contaminant levels (MCL). However, realization of MCLs may not be attainable in many sites. A strategy based on the evaluation of site characterization, design, performance monitoring, rate-limited vapor transport, and mass flux to and from groundwater is discussed, focusing on the last component. A plant based on monitoring of three subsurface zones is presented and an analytical one-dimensional vertical flux model, called VFLUX is developed.

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Evaluation of mass flux to and from ground water using a vertical flux model (VFLUX): Application to the soil vacuum extraction closure problem

Abstract

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