Publications
  1. Hilpert, M., W.P. Johnson (2017). A binomial modeling approach for upscaling colloid transport under unfavorable conditions: organic prediction of non-monotonic retention profiles. Water Resources Research. In Press.
  2. Yan, Z., X. Yang, S. Li., and M. Hilpert (2017). Two-relaxation-time lattice Boltzmann method and its application to advective-diffusive-reactive transport. Advances in Water Resources. In press.
  3. Adria Mora, B., and M. Hilpert (2017). Differences in infiltration and evaporation of diesel and gasoline droplets spilled onto concrete pavement. Sustainability. DOI: 10.3390/su9071271
  4. Hilpert, M., A.Rasmuson, A., and W.P. Johnson (2017). A binomial modeling approach for upscaling colloid transport under unfavorable conditions: organic prediction of extended tailing. Water Resources Research 53: 5626-5644.
  5. Hsu, S.-Y., V. Huang, S.W. Park, and M. Hilpert (2017). Water infiltration into prewetted porous media: dynamic capillary pressure and Green-Ampt modeling. Advances in Water Resources. http://doi.org/10.1016/j.advwatres.2017.02.017
  6. Lo, W.-C., C.-C. Yang, C.-H. Chen, S.-Y. Hsu, C.-L. Yeh, and M. Hilpert (2017). Dynamic response of the water retention curve in unsaturated soils during drainage to acoustic vibrations. Water Resources Research. DOI: 10.1002/2016WR018833
  7. Hilpert, M., B.D. Marsh, and P.A. Geiser (2016). The Radiator-Enhanced Geothermal System: Benefits of emulating a natural hydrothermal system. Interpretation 4: SR35-SR48.
  8. Hsu, S.-Y. and M. Hilpert (2016). Pore-scale visualization of the mobilization of a partially wetting droplet. Advances in Water Resources 95: 235-245. View paper (requires subscription)
  9. Hilpert, M., B. Adria-Mora, J. Ni, Ana Rule, and K.E. Nachman (2015). Hydrocarbon release during fuel storage and transfer at gas stations: environmental and health effects. Current Environmental Health Reports 2: 412-422. View paper (requires subscription)
  10. Yan, Z., and M. Hilpert (2014). A multiple-relaxation-time lattice-Boltzmann model for bacterial chemotaxis: Effects of initial concentration, diffusion, and hydrodynamic dispersion on traveling bacterial bands. Bulletin of Mathematical Biology. DOI: 10.1007/s11538-014-0020-1 View paper (requires subscription)
  11. Hilpert, M., and P.N. Breysse (2014). Infiltration and evaporation of small hydrocarbon spills at gas stations. Journal of Contaminant Hydrology. DOI: 10.1016/j.jconhyd.2014.08.004 View paper (requires subscription)
  12. Yan, Z., E.J. Bouwer, and M. Hilpert (2014). Coupled effects of chemotaxis and growth on traveling bacterial waves. Journal of Contaminant Hydrology 164: 138-152. View paper (requires subscription)
  13. Glantz, R. and M. Hilpert (2014). Phase diagrams for two-phase flow in circular capillary tubes under the influence of a dynamic contact angle. International Journal of Multiphase Flow 59: 102-105. View paper (requires subscription)
  14. Johnson, W.P. and M. Hilpert (2013). Upscaling colloid transport and retention under unfavorable conditions: linking mass transfer to pore and grain topology. Water Resources Research. doi: 10.1002/wrcr.20433. View paper (requires subscription)
  15. You, Y., M. Hilpert and M. Ward (2013): Identification of Tet45, a tetracycline efflux pump, from a poultry-litter exposed soil isolate and persistence of tet(45) in the soil. Journal of Antimicrobial Chemotherapy. doi: 10.1093/jac/dkt127. View paper (requires subscription)
  16. M. Hilpert, and R. Glantz (2013). Exploring the parameter space of the Green-Ampt model. Advances in Water Resources 53: 225-230.
  17. Hsu, S.Y., J. Katz and M. Hilpert (2012). Theoretical and experimental study of resonance of blobs in porous media. Geophysics 77: 61-71.
  18. Pellichero, E., R. Glantz, M. Burns, D. Mallick, S.-Y. Hsu and M. Hilpert (2012). Dynamic capillary pressure during water infiltration: experiments and Green-Ampt modeling. Water Resources Research 48. doi: 10.1029/2011WR011541.
  19. You, Y., M. Hilpert and M. Ward (2012). Detection of a common and persistent tet(L)-carrying plasmid in chicken-waste-impacted farm soil. Applied and Environmental Microbiology 78: 3203-3213.
  20. Hilpert, M. (2012). Velocity-dependent capillary pressure in theory for variably-saturated liquid infiltration into porous media. Geophysical Research Letters. doi:10.1029/2012GL051114.
  21. Liu, Y., C. Zhang, M. Hilpert, M.S. Kuhlenschmidt, T.B. Kuhlenschmidt and T.H. Nguyen (2012). Transport of Cryptosporidium parvum oocysts in a silicon micromodel. Environmental Science and Technology 46: 1471-1479.
  22. Hsu, S.Y., R. Glantz and M. Hilpert (2011). Pore-scale analysis of the effects of contact angle hysteresis on blob mobilization in a pore doublet. International Journal of Oil, Gas and Coal Technology 5: 207-228.
  23. Glantz, R. and M. Hilpert (2011). Capillary displacement in totally wetting and infinitely long right prisms. Multiscale Modeling and Simulation. DOI. 10.1137/100786472.
  24. Hilpert, M. (2011). Determination of dimensional flow fields in hydrogeological settings via the MRT lattice Boltzmann method. Water Resources Research 47: W09508.
  25. Hsu, S.-Y. and M. Hilpert (2011). Incorporation of dynamic capillary pressure into the Green-Ampt model for infiltration. Vadose Zone Journal 10: 642-653.
  26. Liu, E.B. and M. Hilpert (2010). Effects of molecular mass on the diffusion coefficient in a multiphase lattice Boltzmann model. Computational Geosciences 5: 1-6.
  27. Hilpert, M. (2010). Liquid withdrawal from capillary tubes: explicit and implicit analytical solution for constant and dynamic contact angle. Journal of Colloid and Interface Science 351: 267-276.
  28. Hilpert, M. (2010). Effects of dynamic contact angle on liquid withdrawal from capillary tubes: (semi)-analytical solutions. Journal of Colloid and Interface Science 347: 315-323.
  29. Long, W., H. Huang, J. Serlemitsos, E. Liu, A.H. Reed and M. Hilpert (2010). A correlation for the collector efficiency of nanoparticles for clean-bed filtration in packings of nonspherical collectors. Colloids and Surfaces A: Physicochemical and Engineering Aspects 358: 163-171.
  30. Hilpert, M. (2010). Explicit analytical solutions for liquid infiltration into capillary tubes: dynamic and constant contact angle. Journal of Colloid and Interface Science 344: 198-208.
  31. Hilpert, M. (2009). Effects of dynamic contact angle on liquid infiltration into inclined capillary tubes: (semi)-analytical solutions. Journal of Colloid and Interface Science 337: 138-144.
  32. Hilpert, M. (2009). Effects of dynamic contact angle on liquid infiltration into horizontal capillary tubes: (semi)-analytical solutions. Journal of Colloid and Interface Science 337: 131-137.
  33. Long, W., and M. Hilpert (2009). A correlation for the collector efficiency of Brownian particles in clean-bed filtration in sphere packings by a lattice-Boltzmann method. Environmental Science and Technology 43: 4419-4424.
  34. Hilpert, M. and A. Ben-David (2009). Infiltration of liquid droplets into porous media: effects of dynamic contact angle and contact angle hysteresis. International Journal of Multiphase Flow 35: 205-218.
  35. Long, W., and M. Hilpert (2008). Lattice-Boltzmann modeling of contaminant degradation by chemotactic bacteria: exploring the formation and movement of bacterial bands. Water Resources Research 44: W09415.
  36. Glantz, R., and M. Hilpert (2008). Fast invasion percolation using minimum weight spanning trees. Physical Review E 77: 031128.
  37. Glantz, R., and M. Hilpert (2008). Tight dual models of pore spaces. Advances in Water Resources 31: 787-806.
  38. Haws, N.W., M. Paraskewich, M. Hilpert, W.P. Ball (2007). Exploring relative rates of axial diffusion in a cylindrical macropore column. Water Resources Research 43: W10409.
  39. Long, W., and M. Hilpert (2007). Analytical solutions for bacterial energytaxis: traveling bacterial bands. Advances in Water Resources 30: 2262-2270.
  40. Hilpert, M. (2007). Capillarity-induced resonance of blobs in porous media: analytical solutions, Lattice-Boltzmann modeling, and blob mobilization. Journal of Colloid and Interface Science 309: 493-504.
  41. Glantz, R., and M. Hilpert (2006). Dual models of two- and three-dimensional porous media. Advances in Water Resources 30: 227-248.
  42. Adalsteinsson, D., and M. Hilpert, M. (2006). Accurate and efficient implementation of pore-morphology-based drainage modeling in two-dimensional porous media. Transport in Porous Media 65: 337-358.
  43. Hilpert, M. (2005). Lattice-Boltzmann model for bacterial chemotaxis. Journal of Mathematical Biology 51: 302-332.
  44. Hersum, T., M. Hilpert, and B. Marsh (2005). Permeability and melt flow in simulated and natural partially molten basaltic magmas. Earth and Planetary Science Letters 237: 798-814.
  45. Pan, C., M. Hilpert, and C.T. Miller (2004). Lattice-Boltzmann simulation of two-phase flow in porous media. Water Resources Research 40: W01501.
  46. Dalla, E., M. Hilpert, C.T. Miller, and, D. Pitea (2003). Modelling the dissolution of non-aqueous phase liquid blobs in sphere packings. Annali di Chimica 93: 631-638.
  47. Hilpert, M., C.T. Miller, and, W.G. Gray (2003). Stability of a fluid-fluid interface in a bi-conical pore segment. Journal of Colloid and Interface Science 267: 397-407.
  48. Hilpert, M., R. Glantz, and C.T. Miller (2003). Calibration of a pore-network model by a pore-morphological analysis. Transport in Porous Media. Transport in Porous Media 51: 267-287.
  49. Dalla, E., M. Hilpert, and C.T. Miller (2002). Computation of the interfacial area for multi-fluid porous medium systems. Journal of Contaminant Hydrology 56: 25-48.
  50. Pan, C., M. Hilpert, C.T. Miller (2001). Pore-scale modeling of saturated permeabilities in random sphere packings. Physical Review E 64: 066702.
  51. Hilpert, M., and C.T. Miller (2001). Pore-morphology-based simulation of drainage in totally wetting porous media. Advances in Water Resources 24: 243-255.
  52. Hilpert, M., J.F. McBride, and C.T. Miller (2001). Investigation of the residual-funicular nonwetting-phase-saturation relation. Advances in Water Resources 24: 157-177.
  53. Hilpert, M., G.H. Jirka, and E.J. Plate (2000). Capillarity-induced resonance of oil blobs in capillary tubes and porous media. Geophysics 65: 874-883.
  54. Hilpert, M., and C.T. Miller (1999). Experimental investigation on the resonance of a liquid column in a capillary tube. Journal of Colloid and Interface Science 219: 62-68.
  55. Hilpert, M., D. Stopper, and G.H. Jirka (1997). Resonance of a liquid column in a capillary tube. Journal of Applied Mathematics and Physics 48: 424-438.