Page 240 - Principles of Catalyst Development
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230                                                      APPENDIX  I
             7.2.  Anderson, R.  8. (Editor), Experimental Methods in Catalytic Research, Vol.  I,  Academic
                 Press,  New  York  (1968).
             7.3.  Anderson,  R.  8.,  and  Dawson,  P.  T.  (Editors),  Experimental  Methods  in  Catalytic
                 Research,  Vol.  2,  Academic  Press,  New  York  (1976).
             7.4.  Anderson,  R.  B.,  and  Dawson,  P.  T.  (Editors),  Experimental  Methods  in  Catalytic
                 Research,  Vol.  3,  Academic  Press,  New  York  (1976).
             7.5.  ASTM  Committee  D-32,  1985 Annual Book of ASTM Standards,  Vol.  5.03,  American
                 Society for the Testing of Materials,  Philadelphia  (1985).
             7.6.  Barth, H. G. (Editor),  Modern Methods of Particle Size Analysis, John Wiley,  New York
                 ( 1984),
             7.7.  Casper,  L.  A.,  and  Powell,  C.  J.,  Industrial  Applications  of Surface  Analysis,  ACS
                 Symposium Series  No.  199,  American  Chemical  Society,  Washington,  D.C.  (1983).
             7.8.   Dclannay,  F.  (Editor),  Characterization  4  Heterogeneous  Catalysts,  Marcel  Dekker,
                 New  York  (1984).
             7.9.  Dclgass,  W.  N.,  Haller,  G.  L.,  Kellerman,  R.,  and  Lunsford,  J.  B.,  Spectroscopy  in
                 Heterogeneous  Catall'sis,  Academic  Press,  New  York  (1979).
             7.10.  Delviney,  M.  L.,  and  Gland,  1.  L.  (Editors),  Catalyst  Chatacterization  Sciences,  ACS
                 Symposium Series  No.  288,  American Chemical  Society,  Washington,  D.C.  (1985).
             7.11.  Hair,  M.  L.,  Infrared SpecIroscopy  in  Surface Chemistry,  Edward  Arnold  Ltd.,  London
                 ( 1(67).
             7.12.  Little,  L.  H.,  Infrared Spectra (}l Adsorbed Species,  Academic  Press,  New  York  (1966).
             7.13.  Parfitt,  G.  D.,  and  Sing,  K.  S.  W.  (Editors),  Characterization  of Powder  Su~laces,
                 Academic Press,  New  York (1976l.
             7.14.  Marcus,  P.  M.,  and  Jona,  F.,  Determination  (}l  Surlace  Structure  by  LEED,  Plenum
                 Press,  New  York  (1984).
            7.15.  Thomas, 1.  M., and Lambert, R.  M.  (Editors), Characterization of Catalysts, 10hn Wiley,
                 New  York (1980).


            8.  CATALYST  DEACTIVATION

            8.1.  Delman,  B.,  and  Froment,  G.  F.  (Editors),  Catalyst  Deactivation,  Elsevier,  New  York
                 (1980).
            8.2.  Hegedus,  L.  L.,  and  McCabe,  R.  W.,  Catalyst  Poisoning,  Marcel  Dekker,  New  York
                 ( 1984).
            8.3.  Hughes,  R.,  DeactIVation  of Catalysts,  Academic  Press,  New  York  (1984).
            8.4.  Kuczynski,  G.  C.  (Editor),  Sintering and Catalysis,  Plenum  Press,  New  York  (1975).
            8.5.  Kuczynski,  G.  C.  (Editor),  Sintering  Processes,  Plenum  Press,  New  York  (1980).
            8.6.  Kuczynski, G. C, Miller, A. E., and Sargent, G. A. (Editors), Sintering and Heterogeneous
                Catalysis,  Plenum  Press,  New  York  (1983).
            8.7.  Oudar, 1.,  and Wise,  H.,  Deactivation and Poisoning of Catalysts,  Marcel  Dekker,  New
                York  (1985).


           9.  INDUSTRIAL  PROCESSES

            9.1.  Anderson,  R.  B.,  The  Fischer-Tropsch  Synthesis,  Academic  Press,  New  York  (1984).
            9.2.  Andrew,  S.  P.  S.  (Editor),  Catalyst  Handbook,  Springer-Verlag,  Berlin  (J 970).
            9.3.  Augustine,  R.  L.,  Catalytic  Hrdrogenatioll,  Marcel  Dekker,  New  York  (1965).
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