NABIR ORFRC accomplishments and findings

Modeling

NABIR ORFRC researchers developed quantitative models of FRC site characteristics and processes to facilitate interpretation of FRC laboratory and field data; design new laboratory and field experiments; extend FRC results to other sites and conditions; and understand factors important in subsurface bioremediation.

Two reports (from 2005 and 2003) summarize NABIR ORFRC numerical modeling.

Summaries

Other presentations...
3D Field-Scale Reactive Transport Modeling of In Situ Immobilization of Uranium in Structured Porous Media, Yilin Fang, Tim Scheibe, Wiwat Kamolpornwijit, Eric Roden, Scott Brooks, 2005 FRC Workshop

FRC Local Area 3 Model Development, Fan Zhang, Jack Parker, David Watson, Kenneth Lowe, Kirk Hyder, and Scott Brooks, 2005 FRC Workshop

Site-Wide FRC Model Update, Jack Parker, 2005 FRC Workshop

TEAPREVU: A numerical simulation model of Terminal Electron-Accepting Processes in a Representative Elementary Volume of Uranium-contaminated subsurface sediment, Eric E. Roden, Yilin Fang, Tim Scheibe, and Scott Brooks, 2005 Report

Status 2005, J. Parker, 2005 Yearly Report

FRC Numerical Modeling Update, Jack Parker, 2004 FRC Workshop

Models of Physical Non-Equilibrium (Mass Transfer) Processes in Structured Porous Media, Tim Scheibe, 2004 FRC Workshop

Numerical Modeling, FRC Workshop 2003, J. Parker, 2003 FRC Workshop

Status Report on NABIR FRC Modeling Efforts and Proposed Activities, Jack Parker, 2003 Report

Conceptual and Numerical Model Of Uranium(VI) Reductive Immobilization in Fractured Subsurface Sediments, Eric E. Roden and Timothy D. Scheibe,