Wentworth
Institute of Technology
Transport phenomena for chemical reactor design /
Laurence Belfiores unique treatment meshes two mainstream subject areas in chemical engineering: transport phenomena and chemical reactor design. Expressly intended as an extension of Bird, Stewart, and Lightfoots classic Transport Phenomena, and Froment and Bischoffs Chemical Reactor Analysis and D...
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| Main Author: | |
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| Format: | Electronic eBook |
| Language: | English |
| Published: |
Hoboken, N.J. :
J. Wiley,
?2003.
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| Subjects: | |
| Online Access: |
Full text (Wentworth users only) |
Table of Contents:
- Part I. Elementary Topics in Chemical Reactor Design
- Multiple Chemical Reactions in Plug Flow Tubular Reactors and Continuous Stirred Tank Reactors
- Start Up Behavior of a Series Configuration of Continuous Stirred Tank Reactors
- Adiabatic Plug-Flow Tubular Reactor That Produces Methanol Reversibly in the Gas Phase from Carbon Monoxide and Hydrogen
- Coupled Heat and Mass Transfer in Nonisothermal Liquid-Phase Tubular Reactors with Strongly Exothermic Chemical Reactions
- Multiple Stationary States in Continuous Stirred Tank Reactors
- Coupled Heat and Mass Transfer with Chemical Reaction in Batch Reactors
- Total Pressure Method of Reaction-Rate Data Analysis
- Part II. Transport Phenomena: Fundamentals and Applications
- Applications of the Equations of Change in Fluid Dynamics
- Derivation of the Mass Transfer Equation
- Dimensional Analysis of the Mass Transfer Equation
- Laminar Boundary Layer Mass Transfer around Solid Spheres, Gas Bubbles, and Other Submerged Objects
- Dimensional Analysis of the Equations of Change for Fluid Dynamics Within the Mass Transfer Boundary Layer
- Diffusion and Chemical Reaction Across Spherical Gas-Liquid Interfaces
- Part III. Kinetics and Elementary Surface Science
- Kinetic Mechanisms and Rate Expressions for Heterogeneous Surface-Catalyzed Chemical Reactions.
- Part IV. Mass Transfer and Chemical Reaction in Isothermal Catalytic Pellets
- Diffusion and Heterogeneous Chemical Reaction in Isothermal Catalytic Pellets
- Complete Analytical Solutions for Diffusion and Zeroth-Order Chemical Reactions in Isothermal Catalytic Pellets
- Complete Analytical Solutions for Diffusion and First-Order Chemical Reactions in Isothermal Catalytic Pellets
- Numerical Solutions for Diffusion and nth-Order Chemical Reactions in Isothermal Catalytic Pellets
- Numerical Solutions for Diffusion and Hougen-Watson Chemical Kinetics in Isothermal Catalytic Pellets
- Internal Mass Transfer Limitations in Isothermal Catalytic Pellets
- Diffusion Coefficients and Damkohler Numbers Within the Internal Pores of Catalytic Pellets
- Part V. Isothermal Chemical Reactor Design
- Isothermal Design of Heterogeneous Packed Catalytic Reactors
- Heterogeneous Catalytic Reactors with Metal Catalyst Coated on the Inner Walls of the Flow Channels
- Designing a Multicomponent Isothermal Gas-Liquid CSTR for the Chlorination of Benzene to Produce Monochlorobenzene
- Part VI. Thermodynamics and Nonisothermal Reactor Design
- Classical Irreversible Thermodynamics of Multicomponent Mixtures
- Molecular Flux of Thermal Energy in Binary and Multicomponent Mixtures Via the Formalism of Nonequilibrium Thermodynamics
- Thermal Energy Balance in Multicomponent Mixtures and Nonisothermal Effectiveness Factors Via Coupled Heat and Mass Transfer in Porous Catalysts
- Statistical Thermodynamics of Ideal Gases
- Thermodynamic Stability Criteria for Single-Phase Homogeneous Mixtures
- Coupled Heat and Mass Transfer in Packed Catalytic Tubular Reactors That Account for External Transport Limitations.