| A primer on upscaling tools for porous media JH Cushman, LS Bennethum, BX Hu Advances in Water Resources 25 (8-12), 1043-1067, 2002 | 251 | 2002 |
| A wildland fire model with data assimilation J Mandel, LS Bennethum, JD Beezley, JL Coen, CC Douglas, M Kim, ... Mathematics and Computers in Simulation 79 (3), 584-606, 2008 | 231 | 2008 |
| Multiscale, hybrid mixture theory for swelling systems—I: balance laws LS Bennethum, JH Cushman International Journal of Engineering Science 34 (2), 125-145, 1996 | 175 | 1996 |
| Macroscale thermodynamics and the chemical potential for swelling porous media LS Bennethum, MA Murad, JH Cushman Transport in Porous Media 39 (2), 187-225, 2000 | 143 | 2000 |
| Frequency domain treatment of one-dimensional scalar waves J Douglas Jr, JE Santos, D Sheen, LS Bennethum Mathematical models and methods in applied sciences 3 (02), 171-194, 1993 | 132 | 1993 |
| Multiscale, hybrid mixture theory for swelling systems—II: Constitutive theory LS Bennethum, JH Cushman International Journal of Engineering Science 34 (2), 147-169, 1996 | 124 | 1996 |
| A multi-scale theory of swelling porous media: I. Application to one-dimensional consolidation MA Murad, LS Bennethum, JH Cushman Transport in Porous Media 19, 93-122, 1995 | 90 | 1995 |
| Generalized Forchheimer equation for two-phase flow based on hybrid mixture theory LS Bennethum, T Giorgi Transport in porous media 26, 261-275, 1997 | 89 | 1997 |
| Modified Darcy's law, Terzaghi's effective stress principle and Fick's law for swelling clay soils LS Bennethum, MA Murad, JH Cushman Computers and Geotechnics 20 (3-4), 245-266, 1997 | 88 | 1997 |
| Multicomponent, multiphase thermodynamics of swelling porous media with electroquasistatics: I. Macroscale field equations LS Bennethum, JH Cushman Transport in porous media 47, 309-336, 2002 | 86 | 2002 |
| Three pressures in porous media LS Bennethum, T Weinstein Transport in Porous Media 54, 1-34, 2004 | 73 | 2004 |
| Multicomponent, multiphase thermodynamics of swelling porous media with electroquasistatics: II. Constitutive theory LS Bennethum, JH Cushman Transport in Porous Media 47, 337-362, 2002 | 73 | 2002 |
| Towards a dynamic data driven application system for wildfire simulation J Mandel, LS Bennethum, M Chen, JL Coen, CC Douglas, LP Franca, ... Computational Science–ICCS 2005: 5th International Conference, Atlanta, GA …, 2005 | 59 | 2005 |
| A dynamic data driven wildland fire model J Mandel, JD Beezley, LS Bennethum, S Chakraborty, JL Coen, ... Computational Science–ICCS 2007: 7th International Conference, Beijing …, 2007 | 50 | 2007 |
| On the derivation of the transport equation for swelling porous materials with finite deformation T Weinstein, LS Bennethum International journal of engineering science 44 (18-19), 1408-1422, 2006 | 50 | 2006 |
| Clarifying mixture theory and the macroscale chemical potential for porous media LS Bennethum, JH Cushman, MA Murad International Journal of Engineering Science 34 (14), 1611-1621, 1996 | 46 | 1996 |
| Theory of flow and deformation of swelling porous materials at the macroscale L Schreyer-Bennethum Computers and Geotechnics 34 (4), 267-278, 2007 | 42 | 2007 |
| Coupled solvent and heat transport of a mixture of swelling porous particles and fluids: single time-scale problem LS Bennethum, JH Cushman Transport in Porous Media 36, 211-244, 1999 | 42 | 1999 |
| Evaluating the incorporation of technology and application projects in the higher education mathematics classroom L Schreyer-Bennethum, L Albright International Journal of Mathematical Education in Science and Technology 42 …, 2011 | 33 | 2011 |
| Multiscale, hybrid mixture theory for swelling systems with interfaces LS Bennethum Purdue University, 1994 | 33 | 1994 |
john cushmanpurdueEmail verificata su purdue.edu
