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Preface | |
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Nomenclature | |
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Classification of Heat Exchangers | |
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Introduction | |
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Classification According to Transfer Processes | |
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Classification According to Number of Fluids | |
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Classification According to Surface Compactness | |
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Classification According to Construction Features | |
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Classification According to Flow Arrangements | |
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Classification According to Heat Transfer Mechanisms | |
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Summary | |
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References | |
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Review Questions | |
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Overview of Heat Exchanger Design Methodology | |
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Heat Exchanger Design Methodology | |
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Interactions Among Design Considerations | |
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Summary | |
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References | |
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Review Questions | |
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Problems | |
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Basic Thermal Design Theory for Recuperators | |
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Formal Analogy between Thermal and Electrical Entities | |
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Heat Exchanger Variables and Thermal Circuit | |
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The [epsilon]-NTU Method | |
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Effectiveness--Number of Transfer Unit Relationships | |
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The P-NTU Method | |
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P-NTU Relationships | |
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The Mean Temperature Difference Method | |
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F Factors for Various Flow Arrangements | |
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Comparison of the [epsilon]-NTU, P-NTU, and MTD Methods | |
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The [psi]-P and P[subscript 1]-P[subscript 2] Methods | |
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Solution Methods for Determining Exchanger Effectiveness | |
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Heat Exchanger Design Problems | |
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Summary | |
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References | |
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Review Questions | |
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Problems | |
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Additional Considerations for Thermal Design of Recuperators | |
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Longitudinal Wall Heat Conduction Effects | |
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Nonuniform Overall Heat Transfer Coefficients | |
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Additional Considerations for Extended Surface Exchangers | |
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Additional Considerations for Shell-and-Tube Exchangers | |
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Summary | |
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References | |
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Review Questions | |
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Problems | |
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Thermal Design Theory for Regenerators | |
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Heat Transfer Analysis | |
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The [epsilon]-NTU[subscript 0] Method | |
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The [lambda]-II Method | |
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Influence of Longitudinal Wall Heat Conduction | |
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Influence of Transverse Wall Heat Conduction | |
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Influence of Pressure and Carryover Leakages | |
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Influence of Matrix Material, Size, and Arrangement | |
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Summary | |
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References | |
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Review Questions | |
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Problems | |
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Heat Exchanger Pressure Drop Analysis | |
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Introduction | |
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Extended Surface Heat Exchanger Pressure Drop | |
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Regenerator Pressure Drop | |
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Tubular Heat Exchanger Pressure Drop | |
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Plate Heat Exchanger Pressure Drop | |
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Pressure Drop Associated with Fluid Distribution Elements | |
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Pressure Drop Presentation | |
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Pressure Drop Dependence on Geometry and Fluid Properties | |
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Summary | |
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References | |
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Review Questions | |
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Problems | |
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Surface Basic Heat Transfer and Flow Friction Characteristics | |
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Basic Concepts | |
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Dimensionless Groups | |
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Experimental Techniques for Determining Surface Characteristics | |
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Analytical and Semiempirical Heat Transfer and Friction Factor Correlations for Simple Geometries | |
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Experimental Heat Transfer and Friction Factor Correlations for Complex Geometries | |
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Influence of Temperature-Dependent Fluid Properties | |
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Influence of Superimposed Free Convection | |
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Influence of Superimposed Radiation | |
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Summary | |
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References | |
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Review Questions | |
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Problems | |
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Heat Exchanger Surface Geometrical Characteristics | |
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Tubular Heat Exchangers | |
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Tube-Fin Heat Exchangers | |
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Plate-Fin Heat Exchangers | |
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Regenerators with Continuous Cylindrical Passages | |
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Shell-and-Tube Exchangers with Segmental Baffles | |
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Gasketed Plate Heat Exchangers | |
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Summary | |
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References | |
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Review Questions | |
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Heat Exchanger Design Procedures | |
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Fluid Mean Temperatures | |
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Plate-Fin Heat Exchangers | |
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Tube-Fin Heat Exchangers | |
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Plate Heat Exchangers | |
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Shell-and-Tube Heat Exchangers | |
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Heat Exchanger Optimization | |
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Summary | |
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References | |
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Review Questions | |
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Problems | |
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Selection of Heat Exchangers and Their Components | |
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Selection Criteria Based on Operating Parameters | |
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General Selection Guidelines for Major Exchanger Types | |
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Some Quantitative Considerations | |
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Summary | |
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References | |
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Review Questions | |
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Problems | |
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Thermodynamic Modeling and Analysis | |
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Introduction | |
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Modeling a Heat Exchanger Based on the First Law of Thermodynamics | |
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Irreversibilities in Heat Exchangers | |
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Thermodynamic Irreversibility and Temperature Cross Phenomena | |
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A Heuristic Approach to an Assessment of Heat Exchanger Effectiveness | |
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Energy, Exergy, and Cost Balances in the Analysis and Optimization of Heat Exchangers | |
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Performance Evaluation Criteria Based on the Second Law of Thermodynamics | |
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Summary | |
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References | |
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Review Questions | |
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Problems | |
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Flow Maldistribution and Header Design | |
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Geometry-Induced Flow Maldistribution | |
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Operating Condition-Induced Flow Maldistribution | |
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Mitigation of Flow Maldistribution | |
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Header and Manifold Design | |
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Summary | |
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References | |
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Review Questions | |
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Problems | |
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Fouling and Corrosion | |
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Fouling and its Effect on Exchanger Heat Transfer and Pressure Drop | |
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Phenomenological Considerations of Fouling | |
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Fouling Resistance Design Approach | |
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Prevention and Mitigation of Fouling | |
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Corrosion in Heat Exchangers | |
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Summary | |
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References | |
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Review Questions | |
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Problems | |
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Thermophysical Properties | |
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[epsilon]-NTU Relationships for Liquid-Coupled Exchangers | |
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Two-Phase Heat Transfer and Pressure Drop Correlations | |
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Two-Phase Pressure Drop Correlations | |
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Heat Transfer Correlations for Condensation | |
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Heat Transfer Correlations for Boiling | |
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U and C[subscript UA] Values for Various Heat Exchangers | |
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General References on or Related to Heat Exchangers | |
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Index | |