Design of Fluid Thermal Systems : SI Edition (3TH)

Design of Fluid Thermal Systems : SI Edition (3TH)

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  • 製本 Paperback:紙装版/ペーパーバック版/ページ数 634 p.
  • 言語 ENG,ENG
  • 商品コード 9780495667995
  • DDC分類 536

Full Description


This book is designed to serve senior-level engineering students taking a capstone design course in fluid and thermal systems design. It is built from the ground up with the needs and interests of practicing engineers in mind; the emphasis is on practical applications. The book begins with a discussion of design methodology, including the process of bidding to obtain a project, and project management techniques. The text continues with an introductory overview of fluid thermal systems (a pump and pumping system, a household air conditioner, a baseboard heater, a water slide, and a vacuum cleaner are among the examples given), and a review of the properties of fluids and the equations of fluid mechanics. The text then offers an in-depth discussion of piping systems, including the economics of pipe size selection. Janna examines pumps (including net positive suction head considerations) and piping systems. He provides the reader with the ability to design an entire system for moving fluids that is efficient and cost-effective. Next, the book provides a review of basic heat transfer principles, and the analysis of heat exchangers, including double pipe, shell and tube, plate and frame cross flow heat exchangers. Design considerations for these exchangers are also discussed. The text concludes with a chapter of term projects that may be undertaken by teams of students.

Table of Contents

Preface                                            xi
Nomenclature xvi
1 Introduction 1 (28)
1.1 The Design Process 5 (4)
1.2 The Bid Process 9 (1)
1.3 Approaches to Engineering Design 10 (1)
1.4 Design Project Example 11 (3)
1.5 Project Management 14 (7)
1.6 Dimensions and Units 21 (2)
1.7 Summary 23 (1)
1.8 Questions for Discussion 23 (1)
1.9 Show and Tell 24 (1)
1.10 Problems 25 (4)
2 Fluid Properties and Basic Equations 29 (52)
2.1 Fluid Properties 29 (7)
2.2 Measurement of Viscosity 36 (9)
2.3 Measurement of Pressure 45 (5)
2.4 Basic Equations of Fluid Mechanics 50 (17)
2.5 Summary 67 (1)
2.6 Show and Tell 68 (1)
2.7 Problems 68 (13)
3 Piping Systems I 81 (76)
3.1 Pipe and Tubing Standards 81 (2)
3.2 Equivalent Diameter for Noncircular 83 (3)
Ducts
3.3 Equation of Motion for Flow in a Duct 86 (3)
3.4 Friction Factor and Pipe Roughness 89 (15)
3.5 Minor Losses 104(16)
3.6 Series Piping Systems 120(7)
3.7 Flow Through Noncircular Cross 127(14)
Sections
3.8 Summary 141(1)
3.9 Show and Tell 141(2)
3.10 Problems 143(14)
4 Piping Systems II 157(84)
4.1 The Optimization Process 158(5)
4.2 Economic Pipe Diameter 163(22)
4.3 Equivalent Length of Fittings 185(3)
4.4 Graphical Symbols for Piping Systems 188(2)
4.5 System Behavior 190(4)
4.6 Measurement of Flow Rate in Closed 194(24)
Conduits
4.7 Support Systems for Pipes 218(1)
4.8 Summary 219(1)
4.9 Show and Tell 220(1)
4.10 Problems 221(20)
5 Selected Topics in Fluid Mechanics 241(48)
5.1 Flow in Pipe Networks 241(12)
5.2 Pipes in Parallel 253(6)
5.3 Stresses in Thin-Walled Pressure 259(3)
Vessels
5.4 Thermal Stresses in Pipes 262(7)
5.5 The Unsteady Draining Tank Problem 269(8)
5.6 Summary 277(1)
5.7 Show and Tell 277(1)
5.8 Problems 278(11)
6 Pumps and Piping Systems 289(66)
6.1 Types of Pumps 289(1)
6.2 Pump Testing Methods 290(10)
6.3 Cavitation and Net Positive Suction 300(5)
Head
6.4 Dimensional Analysis of Pumps 305(4)
6.5 Specific Speed and Pump Types 309(4)
6.6 Piping System Design Practices 313(12)
6.7 Fans and Fan Performance 325(9)
6.8 Summary 334(1)
6.9 Show and Tell 335(1)
6.10 Problems 336(10)
6.11 Group Problems 346(9)
7 Some Heat Transfer Fundamentals 355(38)
7.1 Conduction of Heat Through a Plane 355(7)
Wall
7.2 Conduction of Heat Through a Cylinder 362(5)
Wall
7.3 Convection---the General Problem 367(2)
7.4 Convection Heat Transfer Problems 369(10)
7.5 Optimum Thickness of Insulation 379(6)
7.6 Summary 385(1)
7.7 Problems 385(8)
8 Double Pipe Heat Exchangers 393(52)
8.1 The Double Pipe Heat Exchanger 393(9)
8.2 Analysis of Double Pipe Heat 402(18)
Exchangers
8.3 Effectiveness-NTU Analysis 420(7)
8.4 Design Considerations 427(8)
8.5 Summary 435(1)
8.6 Show and Tell 435(1)
8.7 Problems 436(9)
9 Shell and Tube Heat Exchangers 445(50)
9.1 The Shell and Tube Heat Exchanger 445(7)
9.2 Analysis of Shell and Tube Exchangers 452(14)
9.3 Effectiveness-NTU Analysis 466(7)
9.4 Increased Heat Recovery 473(4)
9.5 Design Considerations 477(7)
9.6 Optimum Outlet Temperature Analysis 484(4)
9.7 Show and Tell 488(1)
9.8 Problems 489(6)
10 Plate and Frame and Cross Flow Heat 495(38)
Exchangers
10.1 The Plate and Frame Heat Exchanger 495(3)
10.2 Analysis of Plate and Frame Heat 498(16)
Exchangers
10.3 Cross Flow Heat Exchangers 514(16)
10.4 Summary 530(1)
10.5 Show and Tell 530(1)
10.6 Problems 530(3)
11 Project Descriptions 533
Appendix Tables 601(26)
Bibliography 627(2)
Index 629