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Toward a Comprehensive Model of Chemical Transport in Porous Media

Published online by Cambridge University Press:  21 February 2011

Constance W. Miller
Constance W. Miller*
Affiliation:
Earth Science Division, Lawrence Berkeley Laboratory, University of California, Berkeley, CA 94720
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Abstract

A chemical transport model, CHEMTRN, that includes advection, dispersion/diffusion, complexation, sorption, precipitation or dissolution of solids, and the dissociation of water has been written. The transport, mass action and site constraint equations are written in a differential/algebraic form and solved simultaneously. The sorption process is modelled by either ion-exchange or surface complexation. The model has been used to investigate the applicability of a kD model for simulating the transport of chemical species in groundwater systems, to simulate precipitation/dissolution of minerals, and to consider the effect of surface complexation on sorption.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 15: Symposium D – Scientific Basis for Nuclear Waste Management VI , 1982 , 481
Copyright
Copyright © Materials Research Society 1983

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References

REFERENCES

1. Rubin, J. and James, R. V., Water Resour. Res. 9, (5) 1332 (1973).Google Scholar
2. Valocchi, E.J., Street, R. L., and Roberts, P. V., Water Resour. Res. 17 (5), 1517 (1981).Google Scholar
3. Jennings, A.A., Kirkner, D.J., and Theis, T.L., Water. Resour. Res. 18 (4) 1089 (1982).CrossRefGoogle Scholar
4. Grove, D. B. and Wood, W. W., Groundwater 17 (3), 250 (1979).CrossRefGoogle Scholar
5. Holly, D.E. and Fenske, P. R. in: Nevada Test Site: Geological Society of America Memoir 110, Eckel, E.B., ed., 171 (1968).Google Scholar
6. Charbeneau, R.J., Water Resour. Res., 17 (13), 705 (1981).Google Scholar
7. Anderson, M.P., Critical Reviews in Environmental Control, 9 (2), 97 (1979).Google Scholar
8. Stumm, W. and Morgan, J.J., Aquatic Chemistry (Wiley-Interscience, New York, 1970) p. 83 Google Scholar
9. Davis, J.A., James, R. O., and Leckie, J. O., J. Colloid and Interface Sci., 63 (3), 480 (1978).Google Scholar
10. Miller, C.W. and Benson, L.V., LBL Report 13828-Rev., Lawrence Berkeley Laboratory, Berkeley, Ca, 94720 (1982)Google Scholar
11. Kee, R.J. and Miller, J.A., Report SAND81–8241, Sandia National Laboratories, Livermore, Ca, 94550 (1981).Google Scholar
12. Davis, J.A and Leckie, J.O., J. Colloid and Interface Sci., 67, (1), 90 (1978)Google Scholar