Tmvoc-React

Xu, Tianfu

Title: Tmvoc-React

Abstract

The TMVOC-REACT simulator was generated by replacing the fluid and heat flow part, TOUGH2, in TOUGHREACT with TMVOC. Both programs have been distributed to the public through the US Department of Energy's Energy Science and Technology Software Center. TMVOC is a program for three-phase non-isothermal flows of multi-component hydrocarbon mixtures in variably saturated heterogeneous media. TMVOC was initially designed for studying subsurface contamination by volatile organic compounds (VOCs), such as hydrocarbon fuels and industrial solvents. It can model the one-, two-, or three-dimensional migration of non-aqueous phase liquids (NAPLs) through the unsaturated and saturated zones, the formation of an oil lens on the water table, the dissolution and subsequent transport of VOCs in groundwater, as well as the vaporization and migration of VOCs in the interstitial air of the unsaturated zone. TOUGHREACT is a numerical simulation program for chemically reactive nonisothermal flows of multiphase fluids in porous and fractured media. A variety of subsurface thermo-physical-chemical processes can be considered under a wide range of conditions of pressure, temperature, water saturation, ionic strength, pH and Eh. Intractions between mineral assemblages and fluids can occur under local equilibrium or kinetic rates. The gas phase can be chemically active. Precipitation and dissolution reactionsmore »« less

Authors:: Xu, Tianfu

Publication Date:: Tue Feb 12 00:00:00 EST 2008

Research Org.:: Lawrence Berkeley National Laboratory (LBNL), Berkeley, CA (United States)

Sponsoring Org.:: USDOE

OSTI Identifier:: 1252967

Report Number(s):: TMVOC-REACT; 002266IBMPC00
R&D Project: B&W #000301020; LBNL CR - 2543

DOE Contract Number:: AC02-05CH11231

Resource Type:: Software

Software Revision:: 00

Software Package Number:: 002266

Software Package Contents:: Media Directory; Software Abstract; Media includes Source Code; Sample Problem Input Data; Sample Problem Output Data; / 1 CD-ROM LAWRENCE BERKELEY NATIONAL LABORATORY WILL DISTRIBUTE ALL COPIES OF THIS SOFTWARE.

Software CPU:: IBMPC

Open Source:: No

Source Code Available:: Yes

Related Software:: TMVOC, TOUGHREACT

Country of Publication:: United States

Citation Formats


                    Xu, Tianfu. Tmvoc-React.  
        Computer software.   Vers. 00. USDOE. 12 Feb. 2008.  
        Web.

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                    Xu, Tianfu. (2008, February 12).  Tmvoc-React (Version 00) [Computer software].

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                    Xu, Tianfu. Tmvoc-React.  
        Computer software.   Version 00. February 12, 2008.

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@misc{osti_1252967,

  title        = {Tmvoc-React, Version 00},

  author       = {Xu, Tianfu},

  abstractNote = {The TMVOC-REACT simulator was generated by replacing the fluid and heat flow part, TOUGH2, in TOUGHREACT with TMVOC. Both programs have been distributed to the public through the US Department of Energy's Energy Science and Technology Software Center. TMVOC is a program for three-phase non-isothermal flows of multi-component hydrocarbon mixtures in variably saturated heterogeneous media. TMVOC was initially designed for studying subsurface contamination by volatile organic compounds (VOCs), such as hydrocarbon fuels and industrial solvents. It can model the one-, two-, or three-dimensional migration of non-aqueous phase liquids (NAPLs) through the unsaturated and saturated zones, the formation of an oil lens on the water table, the dissolution and subsequent transport of VOCs in groundwater, as well as the vaporization and migration of VOCs in the interstitial air of the unsaturated zone. TOUGHREACT is a numerical simulation program for chemically reactive nonisothermal flows of multiphase fluids in porous and fractured media. A variety of subsurface thermo-physical-chemical processes can be considered under a wide range of conditions of pressure, temperature, water saturation, ionic strength, pH and Eh. Intractions between mineral assemblages and fluids can occur under local equilibrium or kinetic rates. The gas phase can be chemically active. Precipitation and dissolution reactions can change formation porosity and permeability. The program can be applied to many geologic systems and environmental problems, including geothermal systems, diagenetic and weathering processes, subsurface waste disposal, aid mine drainage remediation, and contaminant transport.},

  
  doi          = {},

  url          = {https://www.osti.gov/biblio/1252967},
  year         = {Tue Feb 12 00:00:00 EST 2008},

  month        = {Tue Feb 12 00:00:00 EST 2008},

  note         = 

}

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