A fully comprehensive guide to thermal systems design covering fluid dynamics, thermodynamics, heat transfer and thermodynamic power cycles
Bridging the gap between the fundamental concepts of fluid mechanics, heat transfer and thermodynamics, and the practical design of thermo-fluids components and systems, this textbook focuses on the design of internal fluid flow systems, coiled heat exchangers and performance analysis of power plant systems. The topics are arranged so that each builds upon the previous chapter to convey to the reader that topics are not stand-alone items during the design process, and that they all must come together to produce a successful design.
Because the complete design or modification of modern equipment and systems requires knowledge of current industry practices, the authors highlight the use of manufacturer&;s catalogs to select equipment, and practical examples are included throughout to give readers an exhaustive illustration of the fundamental aspects of the design process.
Key Features:
- Demonstrates how industrial equipment and systems are designed, covering the underlying theory and practical application of thermo-fluid system design
- Practical rules-of-thumb are included in the text as &;Practical Notes&; to underline their importance in current practice and provide additional information
- Includes an instructor&;s manual hosted on the book&;s companion website
Arvustused
Useful for undergraduate mechanical engineering design curricula. Summing Up: Recommended. Upper-division undergraduates, faculty, and professionals/practitioners. (Choice, 1 June 2013)
Preface xi List of Figures xv List of Tables xix List of Practical
Notes xxi List of Conversion Factors xxiii 1 Design of Thermo-Fluids
Systems 1 1.1 Engineering Design Definition 1 1.2 Types of Design in
Thermo-Fluid Science 1 1.3 Difference between Design and Analysis 2 1.4
Classification of Design 2 1.5 General Steps in Design 2 1.6 Abridged Steps
in the Design Process 2 2 Air Distribution Systems 5 2.1 Fluid Mechanics
A Brief Review 5 2.2 Air Duct Sizing Special Design Considerations 12 2.3
Minor Head Loss in a Run of Pipe or Duct 18 2.4 Minor Losses in the Design
of Air Duct Systems Equal Friction Method 20 2.5 Fans Brief Overview and
Selection Procedures 44 2.6 Design for Advanced Technology Small Duct
High-Velocity (SDHV) Air Distribution Systems 54 Problems 66 References and
Further Reading 72 3 Liquid Piping Systems 73 3.1 Liquid Piping Systems 73
3.2 Minor Losses: Fittings and Valves in Liquid Piping Systems 73 3.3 Sizing
Liquid Piping Systems 75 3.4 Fluid Machines (Pumps) and Pump Pipe Matching
83 3.5 Design of Piping Systems Complete with In-Line or Base-Mounted Pumps
103 Problems 121 References and Further Reading 126 4 Fundamentals of Heat
Exchanger Design 127 4.1 Definition and Requirements 127 4.2 Types of Heat
Exchangers 127 4.3 The Overall Heat Transfer Coefficient 130 4.4 The
Convection Heat Transfer Coefficients Forced Convection 138 4.5 Heat
Exchanger Analysis 142 4.6 Heat Exchanger Design and Performance Analysis:
Part 1 147 4.7 Heat Exchanger Design and Performance Analysis: Part 2 157
4.8 Manufacturer s Catalog Sheets for Heat Exchanger Selection 202
Problems 208 References and Further Reading 211 5 Applications of Heat
Exchangers in Systems 213 5.1 Operation of a Heat Exchanger in a Plasma
Spraying System 213 5.2 Components and General Operation of a Hot Water
Heating System 216 5.3 Boilers for Water 217 5.4 Design of Hydronic Heating
Systems c/w Baseboards or Finned-Tube Heaters 227 5.5 Design Considerations
for Hot Water Heating Systems 236 Problems 258 References and Further
Reading 265 6 Performance Analysis of Power Plant Systems 267 6.1
Thermodynamic Cycles for Power Generation Brief Review 267 6.2 Real Steam
Power Plants General Considerations 271 6.3 Steam-Turbine Internal
Efficiency and Expansion Lines 272 6.4 Closed Feedwater Heaters (Surface
Heaters) 280 6.5 The Steam Turbine 282 6.6 Turbine-Cycle Heat Balance and
Heat and Mass Balance Diagrams 286 6.7 Steam-Turbine Power Plant System
Performance Analysis Considerations 288 6.8 Second-Law Analysis of
Steam-Turbine Power Plants 300 6.9 Gas-Turbine Power Plant Systems 307 6.10
Combined-Cycle Power Plant Systems 324 Problems 332 References and Further
Reading 338 Appendix A: Pipe and Duct Systems 339 Appendix B: Symbols for
Drawings 365 Appendix C: Heat Exchanger Design 373 Appendix D: Design
Project Possible Solution 383 D.1 Fuel Oil Piping System Design 383
Appendix E: Applicable Standards and Codes 413 Appendix F: Equipment
Manufacturers 415 Appendix G: General Design Checklists 417 G.1 Air and
Exhaust Duct Systems 417 G.2 Liquid Piping Systems 418 G.3 Heat Exchangers,
Boilers, and Water Heaters 419 Index 421
Andre G. McDonald, University of Alberta, Canada Hugh L. Magande, Rinnai America Corporation, USA
