Fundamentals of Heat Exchanger Design

Author:: Ramesh K. Shah; R. K. Shah
Format:: Hardcover

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Short description

In the area of energy and process engineering basic thermal design theory for both recuperators and regenerators is covered in depth, and step-by-step rating/sizing design procedures are outlined for extended surface, plate, and shell-and-tube exchangers.

Long description

A unique, single-source volume offering essential material on heat exchanger design In a unified approach suitable to many applications, Fundamentals of Heat Exchanger Design details an in-depth thermal and hydraulic design theory underlying two-fluid heat exchangers for steady-state operation. An overall focus is given to offering guidance on applying basic heat exchanger design concepts to the solution of industrial heat exchanger problems. Critical coverage for complex engineering design analysis features step-by-step guidelines for rating and sizing design procedures for four types of exchangers (extended surface, plate-type, regenerator, and shell-and-tube), examinations of all auxiliary calculations related to heat transfer characteristics and pressure drop calculations, and insightful material on such subjects as: Thermal and hydraulic design theory for both recuperators and regenerators Surface basic heat transfer and flow friction characteristics Heat exchanger surface geometrical properties Thermodynamic analysis and modeling Flow maldistribution and header design Fouling and corrosion Complete with solved examples and problems clarifying important concepts and applications, Fundamentals of Heat Exchanger Design is a powerful tool for students, researchers, and engineers.

Product details

Publisher:: John Wiley & Sons
ISBN:: 9780471321712
Publication date:: July 2003
Length:: 245mm
Width:: 159mm
Thickness:: 49mm
Weight:: 1465g
Pages:: 976
Illustrations:: Illustrated
Readership:: Tertiary education; Professional & scholarly
Illustrated:: Illustrated

Preface
Nomenclature
Classification of Heat Exchangers
Introduction
Classification According to Transfer Processes
Classification According to Number of Fluids
Classification According to Surface Compactness
Classification According to Construction Features
Classification According to Flow Arrangements
Classification According to Heat Transfer Mechanisms
Summary
References
Review Questions
Overview of Heat Exchanger Design Methodology
Heat Exchanger Design Methodology
Interactions Among Design Considerations
Summary
References
Review Questions
Problems
Basic Thermal Design Theory for Recuperators
Formal Analogy between Thermal and Electrical Entities
Heat Exchanger Variables and Thermal Circuit
The ?(Epsilon)
NTU Method
Effectiveness
Number of Transfer Unit Relationships
The P
NTU Method
P
N TU R elat ionships
The Mean Temperature Difference Method
F Factors for Various Flow Arrangements
Comparison of the ?(Epsilon)
NTU, P
NTU, and MTD Methods
The ?(Psi)
P and P P Methods
Solution Methods for Determining Exchanger Effectiveness
Heat Exchanger Design Problems
Summary
References
Review Questions
Problems
Additional Considerations for Thermal Design of Recuperators
Longitudinal Wall Heat Conduction Effects
Nonuniform Overall Heat Transfer Coefficients
Additional Considerations for Extended Surface Exchangers
Additional Considerations for Shell
and
Tube Exchangers
Summary
References
Review Questions
Problems
Thermal Design Theory for Regenerators
Heat Transfer Analysis
The ?(Epsilon)
NTU o Method
The ?(Lambda) ?(Pi) Method
Influence of Longitudinal Wall Heat Conduction
Influence of Transverse Wall Heat Conduction
Influence of Pressure and Carryover Leakages
Influence of Matrix Material, Size, and Arrangement
Summary
References
Review Questions
Problems
Heat Exchanger Pressure Drop Analysis
Introduction
Extended Surface Heat Exchanger Pressure Drop
Regenerator Pressure Drop
Tubular Heat Exchanger Pressure Drop
Plate Heat Exchanger Pressure Drop
Pressure Drop Associated with Fluid Distribution Elements
Pressure Drop Presentation
Pressure Drop Dependence on Geometry and Fluid Properties
Summary
References
Review Questions
Problems
Surface Basic Heat Transfer and Flow Friction Characteristics
Basic Concepts
Dimensionless Groups
Experimental Techniques for Determining Surface Characteristics
Analytical and Semiempirical Heat Transfer and Friction Factor Correlations for Simple Geometries
Experimental Heat Transfer and Friction Factor Correlations for Complex Geometries
Influence of Temperature
Dependent Fluid Properties
Influence of Superimposed Free Convection
Influence of Superimposed Radiation
Summary
References
Review Questions
Problems
Heat Exchanger Surface Geometrical Characteristics
Tubular Heat Exchangers
Tube
Fin Heat Exchangers
Plate
Fin Heat Exchangers
Regenerators with Continuous Cylindrical Passages
Shell
and
Tube Exchangers with Segmental Baffles
Gasketed Plate Heat Exchangers
Summary
References
Review Questions
Heat Exchanger Design Procedures
Fluid Mean Temperatures
Plate
Fin Heat Exchangers
Tube
Fin Heat Exchangers
Core Mass Velocity Equation
Plate Heat Exchangers
Shell
and
Tube Heat Exchangers
Heat Exchanger Optimization
Summary
References
Review Questions
Problems
Selection of Heat Exchangers and Their Components
Selection Criteria Based on Operating Parameters
General Selection Guidelines for Major Exchanger Types
Some Quantitative Considerations
Summary
References
Review Questions
Problems
Thermodynamic Modeling and Analysis
Introduction
Modeling a Heat Exchanger Based on the First Law of Thermodynamics
Irreversibilities in Heat Exchangers
Thermodynamic Irreversibility and Temperature Cross Phenomena
A Heuristic Approach to an Assessment of Heat Exchanger Effectiveness
Energy, Exergy, and Cost Balances in the Analysis and Optimization of Heat Exchangers
Performance Evaluation Criteria Based on the Second Law of Thermodynamics
Summary
References
Review Questions
Problems
Flow Maldistribution and Header Design
Geometry
Induced Flow Maldistribution
Operating Condition
Induced Flow Maldistribution
Mitigation of Flow Maldistribution
Header and Manifold Design
Summary
References
Review Questions
Problems
Fouling and Corrosion
Fouling and its Effect on Exchanger Heat Transfer and Pressure Drop
Phenomenological Considerations of Fouling
Fouling Resistance Design Approach
Prevention and Mitigation of Fouling
Corrosion in Heat Exchangers
Summary
References
Review Questions
Problems
Appendix A
Thermophysical Properties
Appendix B
?(Epsilon)
NTU Relationships for Liquid
Coupled Exchangers
Appendix C
Two
Phase Heat Transfer and Pressure Drop Correlations
C
Two
Phase Pressure Drop Correlations
C
Heat Transfer Correlations for Condensation
C
Heat Transfer Correlations for Boiling
Appendix D
U and C UA Values for Various Heat Exchangers
General References on or Related to Heat Exchangers
Index