378   SORBENTS FOR APPLICATIONS

                     Mei, H., Mei, B. W. and Yen, T. F. (2003) Fuel, 82, 405.
                     Michlmayr, M. J. U.S. Patent 4,188,285 (1980).
                     Miller, C., Moreau, S., Kraus, G., and Gabillard, J.-P. EP 0995477 (2000).
                     Miller, G. W. (1987) AIChE Symp. Ser. Vol. 83 (No. 259), 28.
                     Miller, G. W., Knaebel, K. S., and Ikels, K. G. (1987) AIChE J. 33, 194.
                     Milton, R. M. U.S. Patent 2,882,243 (1959).
                     Misono, M. (1987) Catal. Rev. Eci. Eng. 29, 269.
                     Niwa, M., Furukawa, Y., and Murakami, Y. (1982) J. Coll. Interf. Sci. 86, 260.
                     Mochida, I., Kawabuchi, Y., Kawano, S., Matsumura, Y., and Yoshikawa, M. (1977) Fuel
                       76, 543.
                     Mochida, I., Kisamori, S., Hironaka, M., Kawano, S., Matsumura, Y., and Yoshikawa, M.
                       (1994) Energy Fuels 8, 1341.
                     Mota, J. P. B. (1999) AIChE J. 45, 986.
                     Mota, J. P. B. and Rodrigo, A. J. S. (2002) Fundamentals of Adsorption. (K. Kaneko
                       et al., ed.). IK International, Chiba City, Japan, p. 125.
                     Mota, J. P. B., Rodrigues, A. E., Saatdjian, E., and Tondeur, D. (1997) Adsorption 3, 117.
                     Mullhaupt, J. T., BeVier, W. E., McMahon, K. C., Van Slooten, R. A., Lewis, I. C.,
                       Grienke, R. A., Strong, S. L., Ball, D. R., and Steele, W. E. Carbon ’92, Proceedings
                       Carbon Conference in Essen (1992), p. 367.
                     Myers, A. L. and Glandt, E. D. (1993) Adsorp. News, Quantachrome Corp. 4(1), 3.
                     Niederhoffer, E. C., Timmons, J. H., and Martell, A. E. (1994) Chem. Rev. 84, 137.
                     Niwa, M., Furukawa, Y. and Murakami, Y. (1982) J. Coll. Interf. Sci. 86, 260.
                     Notaro, F., Ackley, M. W., and Smolarek, J. (1999) Chem. Eng. April Issue, 104.
                     Notaro, F., Schaub, H. R., and Kingsley, J. P. Proceedings 2nd Joint China/USA Chem-
                       ical Engineering Conference, Beijing, China, AIChE, New York (1997), p. 558.
                     Ondrey, G. (1999) Chem. Eng. 106(4), 25.
                     Otowa, Y. U.S. Patent 5,064,805 (1991).
                     Otto, R. and Shelef, M. (1970) J. Catal. 18, 184.
                     Ozeki, S., Tazaki, T., Matsubara, Y., Miyamoto, J., and Sato, H. (2000) Adsorption Sci-
                       ence and Technology. (D. D. Do, Ed.). World Scientific Publishers, River Edge, NJ,
                       p. 492.
                     Ozin, G. A., Baker, M. D., and Godber, J. (1984) J. Phys. Chem. 88, 4902.
                     Padin, J., Rege, S. U., Yang, R. T., and Cheng, L. S. (2000) Chem. Eng. Sci. 55, 4525.
                     Park, C., Anderson, P. E., Chambers, A., Tan, C. D., Hidalgo, R., and Rodriguez, N. M.
                       (1999) J. Phys. Chem. B 103, 10572.
                     Park, J.-H., Kim, J.-N., Cho, S.-H., Kim, J.-D., and Yang, R. T. (1998) Chem. Eng. Sci.
                       53, 3951.
                     Parkinson, G. (2001) Chem. Eng., February, 37.
                     Philippou, A. and Anderson, M. W. (1996) Zeolites 16, 98.
                     Pigorini, G. and LeVan, M. D. (1997) Ind. Eng. Chem. Res. 36, 2296.
                     Pinkerton, F. E., Wicke, B. G., Olk, C. H., Tibbetts, G. G., Meisner, G. P., Meyer, M. S.,
                       and Herbst, J. F. (2000) J. Phys. Chem. B 104, 9460.
                     Poirier, E., Chahine, R., and Bose, T. K. (2001) Int. J. Hydrogen Energy 26, 831.