Analytical Solution of Multi-species Transport Equations Coupled with a First-order Reaction Network Under Various Boundary Conditions
Suk, Hee-Jun;Chae, Byung-Gon;
Korea Institute of Geoscience and Mineral Resources;Korea Institute of Geoscience and Mineral Resources;
다양한 경계조건을 가진 일차 반응 네트워크로 결합된 다종 오염물 거동 해석해
석희준;채병곤;
한국지질자원연구원;한국지질자원연구원;
References
1. Bear, J., 1979, Hydraulics of Groundwater, McGraw-Hill, Inc., New York, pp. 268-269.
2. Chilakapati, A. and Yabisaki, S., 1999, Nonlinear reactions and nonuniform flows, Water Resour. Res., 35(8), 2427-2438.
3. Clement, T.P., 2001a, Generalized solution to multispecies transport equations coupled with a first-order reaction network, Water Resour. Res., 37(1), 157-163.
4. Clement, T.P., 2001b, RT3D v2.5: A Modular Computer code for Simulating Reactive Multi-species Transport in 3-Dimensional groundwater systems. Pacific Northwest National Laboratory, Rihland, WA 99352, USA, PNNL-SA-11720, Found online at http://bioprocess.pnl.gov/rt3d.htm.
5. Clement, T.P., Johnson, C.D., Sun, Y., Klecka, G.M., and Bartlett, C., 2000, Natural attenuation of chlorinated ethene compounds: model development and field-scale application, J.contam. Hydrol., 42, 113-140.
6. Domenico, P.A., 1987, An analytical model for multidimensional transport of a decaying contaminant species, J. Hydrol., 91, 49-58.
7. Domenico, P.A. and Robbins, G.A., 1985, A new method of contaminant plume analysis, Groundwater, 23, 476-485
8. Lunn, M., Lunn, R.J., and Mackay, R., 1996, Determining analytic solution of multiple species contaminant transport, with sorption and decay, J. Hydrol., 180, 195-210.
9. Manoranjan, V. and Stauffer, T., 1996, Exact solution for contaminant transport with kinetic Langmuir sorption, Water Resour. Res., 32, 749-752.
10. Rabideau, A.J., Suribhatla, R., and Craig, J.R., 2005, Analytical models for the design of iron-based permeable reactive barriers, J. Environ. Eng., 131(11), 1589-1597.
11. Sun, Y. and Clement, T.P., 1999, A generalized decomposition method for solving coupled multi-species reactive transpor problems, Transp. Porous Media, 37(3), 327-346.
12. Sun, Y., Petersen, J.N., and Clement, T.P., 1999a, Analytical solution for multiple species reative transport in multiple dimensions, J. Com. Hydrol. 35(4), 429-440.
13. Sun, Y., Petersen, J.N., and Clement, T.P., 1999b, Development of analytical solutions for multiple-species transport with serial and parallel reactions, Water Resour. Res, 35(1), 185-190.
14. van Genuchten, M.T., 1985, Convextive-dispersive transport of solutes involved in sequential first-order decay reactions, Comput. Geosci., 11(2). 129-147.
15. Yeh, G.-T., Cheng, J.-R., and Short, T.E., 1997, 2DFATMIC: User's manual of a two-dimensional subsurface flow, fate and transport of microbes and chemical model version 1.0, EPA/600/ R-97/052, US EPA.
16. Zheng, C. and Wang, P.P., 1999, MT3DMS: A modular threedimensional multispecies model for simulation of advection, dispersion and chemical reactions of contaminants in groundwater systems; Documentation and User's Guide, Contract Report SERDP-99-1, U.S. Army Engineer Research and Development Center,Vicksburg, MS.