Technical References

Key References in Chronological Order
 
L. Boltzmann, “Vorlesungen uber Gastheorie”, (Barth Leizig 1896, 1898), engl. trans. S. G. Brush, “Lectures on Gas Theory”, Univ. Calif. Press, 1964.
 
S. Chapman and T. G. Cowling, “The mathematical theory of non-uniform gases: an account of the kinetic theory of viscosity, thermal conduction, and diffusion in gases”, Cambridge Univ. Press, 1970.
 
P. Bhatnagar, E. Gross, and M. Krook, “A model for collisional processes in gasses I: small amplitude processes in charged and neutral one-component system”, Phys. Rev. 94, 511,  1954.
 
D. Rothman and S. Zaleski, “Lattice-Gas Cellular Automata: Simple Models of Complex Hydrodynamics”, Cambridge Univ. Press, 1997.
 
X. Shan and H. Chen, “Lattice Boltzmann model for simulating flows with multiple phases and components”, Phys. Rev. E., 47, 1815, 1993.
 
M. Swift, W. Osborne, and J. Yeomans, “Lattice Boltzmann simulations of non-ideal fluids”, Phys. Rev. Lett., 75, 830, 1995.

Auzerais, F.M., J. Dunsmuir, B.B. Ferreol, N. Martys, J. Olson, T.S. Ramakrishnan, D.H. Rothman, and L.M. Schwartz. Transport in Sandstone: A Study Based on Three-Dimensional Microtomography. Geophysical Research Letters, 1996. 23, 705-708.
 
Bakke, S., and P. Oren. 3-D Pore-Scale Modeling of Sandstones and Flow Simulations in the Pore Networks. SPE Journal, 1997.  2, 136-149.
 
Rothman, D.H. and S. Zaleski. Lattice-Gas Cellular Automata; Simple Models of Complex Hydrodynamics. Monographs and Tests in Statistical Physics, 1997. 5, 297.
 
Bosl, W., J. Dvorkin, and A. Nur. A Study of Porosity and Permeability Using a Lattice Boltzmann Simulation. Geophysical Research Letters, 1998. 25, 1475-1478.
 
Arns, C.H, M.A. Knackstedt, W.V. Pinczewski, and W.B. Lindquist. Accurate Estimation of Transport Properties from Microtomographic Images. Geophysical Research Letters, 2001. 28, 3361-3364.
 
Keehm, Y., T. Mukerji, and A. Nur. Computational Rock Physics at the Pore Scale: Transport Properties and Diagenesis in Realistic Pore Geometries. The Leading Edge 20, 2001. 180-183.
 
Dvorkin, J., Kameda, A., Nur, A., Mese, A., and Tutuncu, A.N. Real Time Monitoring of Permeability, Elastic Moduli and Strength in Sands and Shales using Digital Rock Physics, SPE 82246, SPE European Formation Damage Conference, the Hague, May 13-14, 1-7, 2003.
 
Bonse, U. Developments in X-ray Tomography IV. Society of Photo-optical Instrumentation Engineers (SPIE), Denver, 2004.
 
Mese, A., Tutuncu, A., Kameda, A., Nur, A., and Dvorkin, J. Digital Rock Physics for Sands and Shales. Oil and Gas Network, 2004. 5, #3, 68.
 
Kameda, A., and Dvorkin, J. To See a Rock in a Grain of Sand. The Leading Edge, 2004. 23, 790-794.
 
Kameda, A., Dvorkin, J., Keehm, Y., Nur, A., and Bosl, B. Permeability-Porosity Transforms from Small Sandstone Fragments. Geophysics, 2006. 71, 11-19.
 
Dvorkin, J., Armbruster, M., Baldwin, C., Fang, Q., Derzhi, N., Gomez, C., Nur, B., Nur, A., and Mu, Y. The Future of Rock Physics: Computational Methods Versus Lab Testing. First Break, September, 2008. 63-68.