1 Almeida, P.F., Moreira, R.S., Almeida, R.C.C., Gui-maraes, A.K., Carvalho, A.S., Quintella, C., Esperidia, M.C.A., Taft, C., “Selection and application of microor-ganisms to improve oil recovery”, Eng. Life Sci., 4(4), 319—325(2004). 2 Langwaldt, J.H., Muenster, U., Puhakka, J.A., “Charac-terization and microbial utilization of dissolved organic carbon in groundwater contaminated with chlorophe-nols”, Chemosphere, 59(7), 983—996(2005). 3 Kirk, M.F., Holm, T.R., Park, J., Jin, Q.S., Sanford, R.A., Fouke, B.W., Bethke, C.M., “Bacterial sulfate reduction limits natural arsenic contamination in groundwater”, Geology, 32(11), 953—956(2004). 4 Paluszak, Z., Ligocka, A., Breza-Boruta, B., “Effective-ness of sewage treatment based on selected faecal bacte-ria elimination in municipal wastewater treatment plant in Torun”, Pol. J. Environ. Stud., 12(3), 345—349(2003). 5 Zucchi, M., Angiolini, L., Borin, S., Brusetti, L., Dietrich, N., Gigliotti, C., Barbieri, P., Sorlini, C., Daffonchio, D., “Response of bacterial community during bioremedia-tion of an oil-polluted soil”, J. Appl. Microbiol., 94(2), 248—257(2003). 6 Shen, D.S., He, R., Zhu, Y.M., “Effect of inoculation with effective microorganisms and leachate recycle on degradation of municipal refuse”, Chin. J. Chem. Eng., 12(2), 277—281(2004). 7 Sui, H., Xu, S.M., Li, X.G., Jiang, B., Huang, G.Q., “Flow, transport and biodegradation of toluene during bioventing”, Chin. J. Chem. Eng., 12(3), 439—443(2004). 8 Banks, M.K., Yu, W., Govindaraju, R.S., “Bacterial ad-sorption and transport in saturated soil columns”, J. En-viron. Sci. Heal. A., 38(12), 2749—2758(2003). 9 Fang, Y., Logan, B. E., “Bacterial transport in gas-sparged porous medium”, J. Environ. Eng-ASCE., 125(7), 668—673(1999). 10 Rogers, B., Logan, B.E., “Bacterial transport in NAPL-contaminated porous media”, J. Environ. Eng-ASCE., 126(7), 657—666(2000). 11 Becker, M.W., Collins, S.A., Metge, D.W., Harvey, R.W., Shapiro, A.M., “Effect of cell physicochemical charac-teristics and motility on bacterial transport in groundwa-ter”, J. Contam. Hydrol., 69(3-4), 195—213(2004). 12 Chen, G., Strevett, K.A., “Surface free energy relation-ships used to evaluate microbial transport”, J. Environ. Eng-ASCE., 128(5), 408—415(2002). 13 Islam, M.R., “Mathematical modeling of microbial en-hanced oil recovery”, In: Proceedings of the 65th Annual Technical Conference and Exhibition of the Society of Petroleum Engineers, New Orleans, France (1990). 14 Islam, M.R., Gianetto, A., “Mathematical modelling and scaling up of microbial enhanced oil recovery”, J. Can. Petrol. Technol., 32(4), 30—36(1993). 15 Lewis, R.W., Pao, W.K.S., Yang, X.S., “Instability and reaction-diffusion transport of bacteria”, Comm. Numer. Meth. Eng., 20(10), 777—787(2004). 16 Zhang, X., Knapp, R.M., McInerney, M.J., “A mathe-matical model for microbially enhanced oil recovery process”, In: Proceedings of the 1992 International Con-ference on Microbial Enhanced Oil Recovery, Tulsa, USA (1992). 17 Desouky, S.M., Abdel-Daim, M.M., Sayyouh, M.H., Dahab, A.S., “Modelling and laboratory investigation of microbial enhanced oil recovery”, J. Petrol. Sci. Eng., 15(2-4), 309—320(1996). 18 Behlulgil, K., Mehmetoglu, M.T., “Mathematical mod-eling of the soaking period in a microbial enhanced oil recovery application”, Energ. Source, 25(9), 871—877(2003). 19 Monod, J., “The growth of bacterial cultures”, Annu. Revi. Microbio., 3(1), 371—394(1949). 20 Keller, E.F., Segel, L.A., “Model for chemotaxis”, J. Theor. Biol., 30(2), 225—234(1971). 21 Ford, R.M., Lauffenburger, D.A., “Measurement of bac-terial random motility and chemotaxis coefficients : ⅡApplication of single-cell-based mathematical model”, Biotechnol. Bioeng., 37(7), 661—672(1991). 22 Dung, L., Smith, H.L., “Steady states of models of mi-crobial growth and competition with chemotaxis”, J. Math. Anal. Appl., 229(1), 295—318(1999). 23 Dung, L., “On a time-dependent bio-reactor model with chemotaxis”, Appl. Math. Comput., 131(2-3), 531—558(2002). 24 Cussler, E.L., Diffusion Mass Transfer in Fluid Systems, 2nd edition, Cambridge University Press, London, 7—10(2002). 25 Barton, I.E., “Laminar flow over a backward-facing step with a stream of hot particles”, Int. J. Heat Fluid Fl., 18(4), 400—410(1997). 26 Lewus, P., Ford, R.M., “Quantification of random motil-ity and chemotaxis bacterial transport coefficients using individual-cell and population-scale assays”, Biotechnol. Bioeng., 75(3), 292—304(2001). 27 Dinopoulou, G., Sterritt, R., Lester, J.N., “Anaerobic acidogenesis of a complex wastewater: Ⅱ Kinetics of growth, inhibition, and product formation”, Biotechnol. Bioeng., 31(9), 969—978(1988). 28 Jing, G.C., Liu, F.H., Guo, S.P., Yu, L., “Mechanism of enhanced oil recovery by local microbial enrichment”, Acta Petrol. Sin., 25(5), 70—75(2004). 29 Nelson, K.E., Ginn, T.R., “Theoretical investigation of bacterial chemotaxis in porous media”, Langmuir, 17(18), 5636—5645(2001). 30 Ginn, T.R., Wood, B.D., Nelson, K.E., Scheibe, T.D., Murphy, E.M., Clement, T.P., “Processes in microbial transport in the natural subsurface”, Adv. Water. Resour., 25(8-12), 1017—1042(2002).
|