Routledge, 1982. 386 р. ISBN:0677058608.
Contents
Introduction to the Series
Preface
Notation
Parameter Estimation From Tracer Response Measurements
Dispersed plug flow of an inert system
Adsorption chromatography
Effect of dead volume associated with signal detecting elements
Assumption of an infinite bed
References
Fluid Dispersion Coefficients
Effect of dispersion on conversion
Fluid dispersion coefficients in a reacting system
Fluid dispersion coefficients in adsorption beds
References
Diffusion and reaction in a porous catalyst
Assumption of a concentric concentration profile in a spherical catalyst pellet
Effectiveness factors for first order irreversible reactions under isothermal conditions
Pore diffusion of gases
Juttner modulus for first-order reversible reactions
References
Particle-to-fluid mass transfer coefficients
Review of the published gas phase data
Review of the published liquid phase data
Re-evaluation of the mass transfer data
References
Steady-state heat transfer
Steady-state bed temperature
Effective radial thermal conductivities
Wall heat transfer coefficients
Overall heat transfer coefficients
Effective axial thermal conductivities
References
Thermal response measurements
Frequency response measurements of Gunn and De Souza
Parameter estimation from one-shot thermal input
Fluid thermal dispersion coefficients
Transient effective thermal conductivities of quiescent beds
Assumption of an infinite bed
References
Unsteady-state heat transfer models
Step and frequency responses for the Schumann, C-S and D-C models
Assumption of a concentric temperature profile in a solid
sphere in the D-C model
Effect of fluid thermal dispersion coef ficients on the Nusselt numbers of the D-C model
The C-S model
The Schumann model
References
Particle to-fluid heat transfer coefficients
A review and correction of the data obtained from steady state measurements
A review and correction of the data obtained from unsteady-state measurements
Correlation of Nusselt numbers
References
Ppendices
Physical properties
A. Some fundamental physical constants in SI units
A. Conversion factors
A. Physical properties of the elements and some inorganic and organic compounds
A. Physical properties of some gases
A. Physical properties of some liquids
A. Physical properties of plastics
A. Thermal conductivities of miscellaneous solids
A. Prediction of diffusion coefficients in binary gas systems
A. Data of diffusion coefficients in binary gas systems
A. Diffusion coefficients of gases in water
B Computer Programs (FORTRAN 77)
C Derivations of moment-equations in digital computer
Author Index
Subject Index
Contents
Introduction to the Series
Preface
Notation
Parameter Estimation From Tracer Response Measurements
Dispersed plug flow of an inert system
Adsorption chromatography
Effect of dead volume associated with signal detecting elements
Assumption of an infinite bed
References
Fluid Dispersion Coefficients
Effect of dispersion on conversion
Fluid dispersion coefficients in a reacting system
Fluid dispersion coefficients in adsorption beds
References
Diffusion and reaction in a porous catalyst
Assumption of a concentric concentration profile in a spherical catalyst pellet
Effectiveness factors for first order irreversible reactions under isothermal conditions
Pore diffusion of gases
Juttner modulus for first-order reversible reactions
References
Particle-to-fluid mass transfer coefficients
Review of the published gas phase data
Review of the published liquid phase data
Re-evaluation of the mass transfer data
References
Steady-state heat transfer
Steady-state bed temperature
Effective radial thermal conductivities
Wall heat transfer coefficients
Overall heat transfer coefficients
Effective axial thermal conductivities
References
Thermal response measurements
Frequency response measurements of Gunn and De Souza
Parameter estimation from one-shot thermal input
Fluid thermal dispersion coefficients
Transient effective thermal conductivities of quiescent beds
Assumption of an infinite bed
References
Unsteady-state heat transfer models
Step and frequency responses for the Schumann, C-S and D-C models
Assumption of a concentric temperature profile in a solid
sphere in the D-C model
Effect of fluid thermal dispersion coef ficients on the Nusselt numbers of the D-C model
The C-S model
The Schumann model
References
Particle to-fluid heat transfer coefficients
A review and correction of the data obtained from steady state measurements
A review and correction of the data obtained from unsteady-state measurements
Correlation of Nusselt numbers
References
Ppendices
Physical properties
A. Some fundamental physical constants in SI units
A. Conversion factors
A. Physical properties of the elements and some inorganic and organic compounds
A. Physical properties of some gases
A. Physical properties of some liquids
A. Physical properties of plastics
A. Thermal conductivities of miscellaneous solids
A. Prediction of diffusion coefficients in binary gas systems
A. Data of diffusion coefficients in binary gas systems
A. Diffusion coefficients of gases in water
B Computer Programs (FORTRAN 77)
C Derivations of moment-equations in digital computer
Author Index
Subject Index