Transport phenomena is the generic title for processes involving the transfer of momentum, heat, and mass within and across boundaries. At its core, this has many applications to chemical engineering as well as to bioengineering and biotechnology. It also has effects within petroleum and environmental engineering. This work focuses on helping students learn how to transform problems into appropriate equations, choosing the right level of analysis and interpreting the results for unit operation processes of heat, mass, and momentum transfer.
Transport phenomena is the generic title for processes involving the transfer of momentum, heat, and mass within and across boundaries. At its core, this has many applications to chemical engineering as well as to bioengineering and biotechnology. It also has effects within petroleum and environmental engineering. This work focuses on helping students learn how to transform problems into appropriate equations, choosing the right level of analysis and interpreting the results for unit operation processes of heat, mass, and momentum transfer.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Ayodeji A. Jeje is a professor of chemical engineering at the University of Calgary, where he has been teaching since 1980. Ian D. Gates is a professor in the Department of Chemical and Petroleum Engineering at the University of Calgary. Jalel Azaiez is a professor in the Department of Chemical and Petroleum Engineering at the University of Calgary. He has been involved in teaching at the university since 1997.
Inhaltsangabe
Introduction. Simplifications, Approximations and Scaling. Unified Approach to Heat, Mass and Momentum Transfer; Dimensional and Dimensionless Analysis. Error Analysis & Assessment of Engineering Data - Error Estimation, Uncertainty and Risk Assessment. Schemes for Formulating Problems for Transport Phenomena and Chemical Transformation Processes. Transport Analysis Without Explicit Consideration Of Gradients, Overall Balances, Lumped Capacity, Shape Factors, Etc. Approximate Methods For Systems With Gradients: Integral Techniques Or Karman-Pohlhausen Procedure. Differential Formulation of Problems and Constitutive Equations. Solutions for Steady Multi-Dimensional Problems. Solutions for Time-Dependent, Multi-Dimensional Problems. Non-Deterministic Problems; Non-Linear Dynamics and Chaos. Appendix: Properties of Materials, Derivations. Index.
Introduction. Simplifications, Approximations and Scaling. Unified Approach to Heat, Mass and Momentum Transfer; Dimensional and Dimensionless Analysis. Error Analysis & Assessment of Engineering Data - Error Estimation, Uncertainty and Risk Assessment. Schemes for Formulating Problems for Transport Phenomena and Chemical Transformation Processes. Transport Analysis Without Explicit Consideration Of Gradients, Overall Balances, Lumped Capacity, Shape Factors, Etc. Approximate Methods For Systems With Gradients: Integral Techniques Or Karman-Pohlhausen Procedure. Differential Formulation of Problems and Constitutive Equations. Solutions for Steady Multi-Dimensional Problems. Solutions for Time-Dependent, Multi-Dimensional Problems. Non-Deterministic Problems; Non-Linear Dynamics and Chaos. Appendix: Properties of Materials, Derivations. Index.
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