Page 242 - Principles of Catalyst Development
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232                                                      APPENDIX
             9.31.  Sokol'skii,  D.  V.,  Hydrogenation  in  Solutions,  Daniel  Davey &  Co.,  London  (1964).
             9.32.  Speight,  J.  G.,  The  Desu(tilrization  of Heavy  Oils  and  Residua,  Marcel  Dekker,  New
                 York  (1981).
             9.33.  Storch,  H.  H., Golumbic,  N., and Anderson,  The Fischer- Tropsch and Related Synthesis,
                 John  Wiley,  New  York  (1951).
             9.34.  Thomas,  C.  L.,  Catalytic  Processes  and  Proven  Catalysts,  Academic  Press,  New  York
                 (1970).
             9.35.  Twigg,  M.  V.  (Editor),  Cataly~t Handbook,  Wolfe  Publishing Co.,  London  (1989).
             9.36.  Vancini, C.  A.,  Synthesis Clf Ammonia, CRC  Press, Cleveland  (1971).
             9.37.  Venuto,  P.  B.,  and  Habib,  E.  T.  Jr.,  Fluid  Catalystic  Cracking  with  Zeolite  Catalysts,
                 Marcell  Decker,  New  York  (1979).
             9.38.  Wojciechowskii.  B.  W.,  Catalytic  Cracking:  Catalysts,  Chemistry  and  Kinetics,  Marcel
                 Decker,  New  York  (1987).



            10.  REACTOR  ENGINEERING  AND  MODELING

            10.1.  Aris,  R.,  Elementary Chemical Reactor Analysis,  Prentice-Hall,  Englewood Cliffs,  New
                 Jersey  (1969).
            10.2.  Bisio, A., and Kabel, R.  L., Scalellp of Chemical Processes, John Wiley, New York (1985).
            10.3.  Butt, J.  B.,  Reaction Kinetics and Reactor Design,  Prentice-Hall, Englewood ClitIs,  New
                 Jersey  (1980).
            10.4.  Carberry, J.  J.,  Chemical and Catalytic Reaction  Engineering,  McGraw-Hili,  New  York
                 ( 1976).
            10.5.  Cooper, A.  R., and Jettreys, G. V.,  Chemical Kinetics and Reactor Design,  Prentice-Hall,
                 Englewood  Cliffs,  New Jersey  (1971).
            10.6.   Denbigh,  K.  G.,  Chemical  Reactor  Theory,  Cambridge  Press,  Cambridge (1966).
            10.7.   Doraiswamy,  L.  K.,  and  Mashelkar,  R.  A.,  Frontiers  in  Chemical Reaction Engineering,
                Vois.  I  and  2,  John  Wiley,  New  York  (1984).
            10.8.   Dudukovic,  M.  P.,  and  Mills,  P.  L.,  Chemical  GIld  Catalytic  Reactor  Modeling,  ACS
                Symposium  Series  No.  237,  American  Chemical  Society,  Washington,  D.C.  (1983).
            10.9.   Fogler,  H.  S.,  Elements  of" Chemical  Reaction  Engineering,  Prentice-Hall,  Englt:wood
                Cliffs,  l'\ew Jersey  (1986).
            10.10.  Froment, G.  F.,  and  Bischoff,  K.,  Chemical  Reador Analysis and Design,  John  Wiley,
                New  York  (1979).
           10.11.  Gianetto,  A.,  and  Silveston,  P.  L.  (Editors),  Multiphase  Chemical  Reactors,  Theory,
                Design,  Scale-up,  Hemisphere  Publi"hing Corp.,  New  York  (1986).
            I 0.12.  Hill,  C.  G.,  Introduction  to  Chemical  Engineering  Kinetics  and  Reactor  Design,  John
                Wiley,  New  York  (1977).
           10.13.  Horak, J.,  and  Pasek, J.,  Df'sign oj" Indl/strial Chemical Reaclorsjrom Laboratory Data,
                Heyden,  Prague  (1978).
           10.14.  I.apidus,  L.,  and  Amundson,  N.  R.  (Editors),  Chemical  Reactor  TIl eo ry,  A  Revie.\",
                Prentice-Hall,  Englewood ClitIs,  New  Jersey  (1977).
           10.15.  Lee,  H.  L.,  Heterogeneous  Reactor Design,  Butterworths,  London  (1984).
           10.16.  Levenspiel, 0.,  Chemical  Reaction  Engineering,  John  Wiley,  New  York  (1972).
           10.17.  Matros,  Yu.,  Sh.  (Editor),  Unsteady  Processes  in  Catalytic  Reactors,  Studies  ill  Surface
                Science  and Caralysis,  22,  Elsevier,  New  York  (1985).
           10.18.  Peterson,  E.  E.,  Chemical  Reaction  Analysis,  Prentice-Hall,  Englewood  ClitIs,  New
                Jersey  (1965).
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