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te Heat Exchanger Surfaces -- 7.5.3 Plate-Fin Extended Surfaces -- 7.5.4 Tube-Fin Extended Surfaces -- 7.5.5 Regenerator Surfaces -- 7.6 Influence of Temperature-Dependent Fluid Properties -- 7.6.1 Correction Schemes for Temperature-Dependent Fluid Properties -- 7.7 Influence of Superimposed Free Convection -- 7.7.1 Horizontal Circular Tubes -- 7.7.2 Vertical Circular Tubes -- 7.8 Influence of Superimposed Radiation -- 7.8.1 Liquids as Participating Media -- 7.8.2 Gases as Participating Media -- References -- 8 Geometry of Heat Exchanger's Surfaces -- 8.1 Tubular Heat Exchangers -- 8.1.1 Inline Arrangement -- 8.1.2 Staggered Arrangement -- 8.2 Tube-Fin Heat Exchangers -- 8.2.1 Circular Fins on Circular Tubes -- 8.2.2 Plain Flat Fins on Circular Tubes -- 8.2.3 General Geometric Relationships for Tube-Fin Exchangers -- 8.3 Plate-Fin Heat Exchangers -- 8.3.1 Offset Strip Fin Exchanger -- 8.3.2 Corrugated Louver Fin Exchanger -- 8.3.3 General Geometric Relationships for Plate-Fin Surfaces -- 8.4 Regenerators with Continuous Cylindrical Passages -- 8.4.1 Triangular Passage Regenerator -- 8.5 Shell-and-Tube Exchangers with Segmental Baﬄes -- 8.5.1 Tube Count -- 8.5.2 Window and Crossﬂow Section Geometry -- 8.5.3 Bypass and Leakage Flow Area -- 8.6 Gasketed Plate Heat Exchangers -- References -- 9 Heat Exchanger Design Procedures -- 9.1 Fluid Mean Temperatures -- 9.1.1 Heat Exchangers with -- 9.1.2 Counterﬂow and Crossﬂow Heat Exchangers -- 9.1.3 Multipass Heat Exchangers -- 9.2 Plate-Fin Heat Exchangers -- 9.2.1 Rating Problem -- 9.2.2 Sizing Problem -- 9.3 Tube-Fin Heat Exchangers -- 9.3.1 Surface Geometries -- 9.3.2 Heat Transfer Calculations -- 9.3.3 Pressure Drop Calculations -- 9.3.4 Core Mass Velocity Equation -- 9.4 Plate Heat Exchangers -- 9.4.1 Limiting Cases for the Design -- 9.4.2 Uniqueness of a PHE for Rating and Sizing -- 9.4.3 Rating a PHE -- 9.4.4 Sizing a PHE -- 9.5 Shell-and-Tube Heat Exchangers -- 9.5.1 Heat Transfer and Pressure Drop Calculations -- 9.5.2 Rating Procedure -- 9.5.3 Approximate Design Method -- 9.5.4 More Rigorous Thermal Design Method -- 9.6 Note on Heat Exchanger Optimization -- References -- 10 Selection of Heat Exchangers and Their Components -- 10.1 Selection Criteria Based on Operating Parameters -- 10.1.1 Operating Pressures and Temperatures -- 10.1.2 Cost -- 10.1.3 Fouling and Cleanability -- 10.1.4 Fluid Leakage and Contamination -- 10.1.5 Fluids and Material Compatibility -- 10.1.6 Fluid Type -- 10.2 General Selection Guidelines for Major Exchanger Types -- 10.2.1 Shell-and-Tube Exchangers -- 10.2.2 Plate Heat Exchangers -- 10.2.3 Extended-Surface Exchangers -- 10.2.4 Regenerator Surfaces -- 10.3 Some Quantitative Considerations -- 10.3.1 Screening Methods -- 10.3.2 Performance Evaluation Criteria -- 10.3.3 Evaluation Criteria Based on the Second Law of Thermodynamics -- 10.3.4 Selection Criterion Based on Cost Evaluation -- References.

Fundamentals of Heat Exchanger Design A cutting-edge update to the most essential single-volume resource on the market Heat exchangers are thermal devices which transfer heat between two or more fluids. They are integral to energy, automotive, aerospace, and myriad other technologies. The design and implementation of heat exchangers is an essential skill for engineers looking to contribute to a huge range of applications. Fundamentals of Heat Exchanger Design, Second Edition provides a comprehensive insight into the design and performance of heat exchangers. After introducing the basic heat transfer concepts and parameters, an overview of design methodologies is discussed. Subsequently, details of design theory of various types of exchangers are presented. The first edition established itself as the standard single-volume text on the subject. The second edition preserves an established in-depth approach but reflects some new technological developments related to design for manufacturing compact heat exchangers, including novel 3-D printing approaches to heat exchanger design. Readers of the second edition of Fundamentals of Heat Exchanger Design will also find: A new section on the design for manufacturing of compact heat exchangers A new section on design for additive manufacturing compact heat exchangers Detailed discussions of the design of recuperators and regenerators, pressure drop analysis, geometric parameters, heat transfer correlations, and more Fundamentals of Heat Exchanger Design is ideal for practicing engineers, as well as for advanced undergraduate and graduate students in mechanical and aerospace engineering, energy engineering, and related subjects.

Kütüphane	Materyal Türü	Demirbaş Numarası	Yer Numarası	[[missing key: search.ChildField.HOLDING]]	Durumu/İade Tarihi
Çevrimiçi Kütüphane	E-Kitap	598704-1001	TJ263 .S4158 2023 EB		Wiley E-Kitap Koleksiyonu