Environmental Engineering Reference
In-Depth Information
reservoir energy during petroleum production. Compass of Sigma Gamma
Epsilon, 45 (4): 272-285.
Chilingar, G. V., El-Nassir, A., and Steven, R.G., 1970. Effect of direct electrical
current on permeability of sandstone cores.
Petrol. Technol.
, 22 (7): 830-836
Christie, M. A., and Blunt, M. J., 2001. Tenth SPE comparative solution project: A
comparison of upscaling techniques.
SPE Reservoir Evaluation Eng.
, 4(4):308-
317, url: www.spe.org/csp.
Corey, A., 1994. Mechanics of immiscible fluids in porous media. 3rd Ed.,
Water
Resources Publications, LLC
.
Crichlow, H., 1977. Modern reservoir engineering- a simulation approach.
Prentice
Hall Inc.
, New Jersey
Dake, L. P. 1978. Fundamentals of reservoir engineering.
Development in Petroleum
Science.
Davis, J. A., James, R. O., and Leckie, J. O., 1978. Surface ionization and complex-
ation at the oxide/water interface: I. Computation of electrical double layer
properties in simple electrolytes.
Colloid and Interface Science
, 63 (3): 480-499
Davis, J. A., and Kent, D.B., 1990. Surface complexation modeling in aqueous geo-
chemistry.”,
Reviews in Mineralogy
, Vol. 23, pp. 177-260.
Dullien, F. A., and Dong, M., 1996. Experimental determination of the flow trans-
port coefficients in the coupled equations of two-phase flow in porous media.
Transport in porous media
, 25: 97-120
Ertekin, T., Abou-Kassem, J. H., and King, G. R., 2001. Basic applied reservoir
simulation. Textbook Series, Society of Petroleum Engineers Publications
Department, Dallas, Texas.
Eykholt, G. R., 1992. Driving and complicating features of the electrokinetic treat-
ment of contaminated soils. PhD thesis, Dept. of Civ. Eng., Univ. of Texas at
Austin, Tex.
Eykholt, G. R., and Daniel, D. E., 1994. Impact of system chemistry on electroos-
mosis in contaminated soil.
Geotechnical Eng., ASCE
, 120(5), 797-815.
Eymard, R., Gallou T., and Herbin R., 2003. Finite volume methods.
Handbook of
Numerical Analysis
, Vol. 7, pp. 713-1020
Fleureau, J. M., and Dupeyart, M., 1988. Influence of an electric field on the inter-
facial parameters of a water/oil/rock system: application to oil enhanced
recovery.
Colloid and Interface Science
, 123 (1).
Gao, Y., Wong T.N., Yang C., and Ooi K.T., 2005. Two-fluid electroosmotic flow in
microchannels. Colloid and Interface Science 284: 306-314
Gao, Y., Wang, C., Wong, T.N., Yang, C., Nguyen, N.T. and Ooi, K.T., 2007. Electro-
osmotic control of the interface position of two-liquid flow through a micro-
channel.
Micromechanics and Microengineering
, 17: 358-366
Ghazanfari, E., Shrestha, R., Miroshnik, A., and Pamukcu, S., 2012a. Electrically
assisted liquid hydrocarbon transport in porous media.
Electrochimica Acta
,
86: 185-191
Ghazanfari, E., Pamukcu, S., Pervizpour, M., and Karpyn, Z., 2012b. Investigation
of generalized relative permeability coefficients for electrically assisted oil
recovery in oil formations.
Transport in Porous Media
(In press)
Search WWH ::
Custom Search