05341nam 2200649Ia 450 991101938170332120230421044614.01-281-76384-597866117638483-527-61196-73-527-61195-9(CKB)1000000000376232(EBL)481386(SSID)ssj0000178534(PQKBManifestationID)11183069(PQKBTitleCode)TC0000178534(PQKBWorkID)10229669(PQKB)11723662(MiAaPQ)EBC481386(OCoLC)212131205(EXLCZ)99100000000037623219980908d1998 uy 0engur|n|---|||||txtccrIndustrial catalysis optimizing catalysts and processes /R.J. Wijngaarden, A. Kronberg, K.R. WesterterpWeinheim ;Chichester [Eng.] Wiley-VCH19981 online resource (287 p.)Description based upon print version of record.3-527-28581-4 Includes bibliographical references and indexes.Industrial Catalysis Optimizing Catalysts and Processes; Contents; 1 Introduction; 1.1 Introduction; 1.2 Catalysis in an Industrial Reactor; 1.3 Catalytic Reactors; 1.3.1 Large Particle Catalyst; 1.3.2 Small Particle Catalyst; 1.4 Characteristics of Reactor Performance; References; 2 Kinetics; 2.1 General; 2.2 Heterogeneous Catalytic Reactions; 2.3 Catalyst Performance; 2.3.1 Deactivation; 2.3.2 Selectivity; 2.4 Kinetics in Practice; References; 3 Production and Physical Characteristics of Solid Catalysts; 3.1 Introduction; 3.2 Catalyst Manufacture; 3.2.1 Materials and Methods3.2.2 Precipitated Catalysts3.2.3 Impregnated Catalysts; 3.2.4 Skeletal Catalysts; 3.2.5 Fused and Molten Catalysts; 3.2.6 Calcination; 3.2.7 Reduction; 3.2.8 Shape Formation of the Catalyst Particles; 3.3 Physical Characterization of Catalysts; 3.3.1 Void Fraction; 3.3.2 Surface Area; 3.3.3 Pore-size Distribution; 3.4 Mass and Heat Transfer in Porous Catalysts; 3.4.1 Introduction; 3.4.2 Ordinary Diffusion in Multicomponent Gases; 3.4.3 Models of Mass Transport in Porous Media; 3.4.4 Heat Transfer in Porous Catalysts; 3.4.5 Mass Diffusivities; References4 Catalysis and External Transfer Processes4.1 Mass Transfer in Heterogeneous Systems; 4.2 Heat and Mass Transfer Coefficients for Flow around Catalyst Particles; 4.2.1 Two-phase Reactors; 4.2.2 Three-phase Reactors; 4.3 Thermal Behavior of Catalyst Particles and Pellet Runaway; 4.4 Criteria for the Absence of Transport Limitations; References; 5 Experimental Methods; 5.1 Measurement of Diffusion in Porous Solids; 5.1.1 Diffusion Cell Method; 5.1.2 Steady-state Methods; 5.1.3 Unsteady-state Methods; 5.1.4 Chromatographic Techniques; 5.2 Measurement of Reaction Rates; 5.2.1 Introduction5.2.2 Laboratory Reactors for Determination of Kinetics5.2.3 Single Pellet Diffusion Reactor; 5.2.4 Dynamic Methods; 5.2.5 Other Reactor Types; 5.3 General Aspects of Kinetic Investigations; 5.3.1 Criteria for Ideal Mixing in a Recycle Reactor; 5.3.2 Errors in the Determination of Kinetic Parameters; References; 6 Calculation of Effectiveness Factor; 6.1 Literature Survey; 6.2 Generalized Definitions; 6.2.1 Effectiveness Factor n; 6.2.2 Zeroth Aris Number An0; 6.2.3 First Aris Number An1; 6.2.4 Comparison of An0 and An1; 6.3 Generalized Approximations; References; 7 Complex Situations7.1 Intraparticle Temperature Gradients7.1.1 Two - and Three-parameter Model; 7.1.2 Aris Numbers; 7.1.3 Negligibility Criteria; 7.2 Bimolecular Reactions; 7.2.1 Aris Numbers; 7.2.2 Negligibility Criteria; 7.2.3 Multimolecular Reactions; 7.3 Intraparticle Pressure Gradients; 7.3.1 Pressure Gradients; 7.3.2 Effective Diffusion Coefficient; 7.3.3 Aris Numbers; 7.3.4 Negligibility Criteria; 7.3.5 Bimolecular Reactions; 7.4 Anisotropic Catalyst Pellets; 7.5 Summary Complex Situations; References; 8 Design of Catalyst Pellets; 8.1 Porous Structure and Observed Reaction Rate8.1.1 Porous Structure and Catalyst ActivityDesigned to improve both skills and confidence in troubleshooting, this book covers the chemical point of view for engineers, and the engineering point of view for chemists. It introduces mathematical tools that can be used to calculate the effectiveness of catalyst pellets as a function of shape, size, pore size, type of kinetics and diffusion, as well as temperature and pressure conditions -- a method applicable to laboratory as well as large-scale operations. The practical value of the text is enhanced by some 30 examples of optimizing catalysts and troubleshooting.CatalystsIndustrial applicationsCatalysisActivation (Chemistry)CatalystsIndustrial applications.Catalysis.Activation (Chemistry)660.2995Wijngaarden R. J(Ruud J.)505544Kronberg A505545Westerterp K. R1842466MiAaPQMiAaPQMiAaPQBOOK9911019381703321Industrial catalysis4422609UNINA