EBOOK - The CRC Handbook of Mechanical Engineering (Frank Kreith & D. Yogi Goswami)

The purpose of the second edition of the CRC Handbook of Mechanical Engineering  is to continue providing practicing engineers in industry, government, and academia with up-to-date information on the most important topics of modern mechanical engineering.
The book covers traditional topics such as thermodynamics, solid and fluid mechanics, heat and mass transfer, materials, controls, energy conversion, manufacturing and design, robotics, environmental engineering, economics and project management, patent law, and transportation. These topics were covered in the first edition, but they have been updated, new references have been added, and efforts have been made to provide information on computer technology related to the topics at the end of each chapter.
But in the 10 years since the first edition of this handbook was published, changes have taken place in engineering and technology and additional topics that were not treated in the first edition have come to  the fore. To bring the new edition up-to-date, chapters on topics such as nanotechnology, MEMS, electronic packaging, global climate change, electric and hybrid vehicles, and bioengineering have been added. Moreover, the editorial supervision for the second edition has been broadened by the addition of Yogi Goswami as co-editor.

In  a work of the size of the second edition of this handbook, it is unavoidable that certain errors or omissions may have occurred. Therefore, the editors appreciate the readers calling any of these shortcomings to their attention and every effort will be made to correct them. We also welcome continuous feedback from readers about topics that may have  been omitted and should be considered for inclusion in future editions of this work.
The editors would like to thank all the contributors, as well as the CRC staff, specially Helena Redshaw, Jessica Vakili, Cindy Carelli, and Susan Fox, for their assistance in the preparation of this handbook.

Chapter 1 Mechanics of Solids Bela I. Sandor
1.1  Introduction  Bela I. Sandor
1.2  Statics  Bela I. Sandor and Ryan Roloff
1.3  Dynamics  Stephen M. Birn and Bela I. Sandor
1.4  Vibrations  Bela I. Sandor and Stephen M. Birn
1.5 Mechanics of Materials Bela I. Sandor, Stephen M. Birn,
and Michael L. Brown
1.6  Structural  Integrit y and Durabilit y  Bela I. Sandor
1.7 Comprehensive Example of Using Mechanics of Solids
Methods  Bela I. Sandor
Chapter 2 Engineering Thermodynamics Michael J. Moran
2.1  Fundamentals  Michael J. Moran
2.2  Control V olume  Applications  Michael J. Moran
2.3  Proper t y  Relations and Data  Michael J. Moran
2.4  Combustion  Michael J. Moran
2.5  Exergy  Analysis  Michael J. Moran
2.6  V apor and Gas  Power  Cycles  Michael J. Moran
2.7 Guidelines for Improving Thermodynamic Effectiveness
Michael J. Moran
Chapter 3 Fluid Mechanics Frank Kreith
3.1  Fluid Statics  Stanley A. Berger
3.2  Equations of  Motion and  Potential Flow  Stanley A. Berger
3.3 Similitude: Dimensional Analysis and Data Correlation
Stuart W. Churchill
3.4  Hydraulics of  Pipe Systems  J. Paul Tullis and Blake P. Tullis
3.5  Open Channel Flow  Frank M. White
3.6  External  Incompressible Flows  Alan T. McDonald
3.7  Compressible Flow  Ajay Kumar and Jessica Todd
3.8  Multiphase Flow  John C. Chen
3.9 New-Newtonian Flows Thomas F. Irvine Jr. and
Massimo Capobianchi
3.10 Tribology, Lubrication, and Bearing Design Francis E.
Kennedy, E. Richard Booser, and Donald F. Wilcock
3.11  Pumps and  Fans  Robert F. Boehm
3.12  Liquid  Atomization and Spraying  Rolf D. Reitz
3.13 Flow Measurement Jungho Kim, Alan T. McDonald, and
Sherif A. Sherif
3.14  Pressure  Measurement  Jungho Kim
3.15  Micro/Nanotribology  Bharat Bhushan
Chapter 4 Heat and Mass Transfer Frank Kreith
4.1  Conduction  Heat  T ransfer  Robert F. Boehm
4.2 Convection Heat Transfer George D. Raithby,
K.G. Terry Hollands, and N.V. Suryanarayana
4.3  Radiation  Michael F. Modest
4.4  Phase-Change  Van P. Carey, John C. Chen, and Noam Lior
4.5  Heat Exchangers  Ramesh K. Shah and Kenneth J. Bell
4.6 Temperature and Heat Transfer Measurements
Robert J. Moffat and Jungho Kim
4.7  Mass  T ransfer  Anthony F. Mills
4.8 Applications Arthur E. Bergles, Anthony F. Mills,
Larry W. Swanson, and Vincent W. Antonetti
4.9 Non-Newtonian Fluids — Heat Transfer
Thomas F. Irvine, Jr. and Massimo Capobianchi
4.10 Bioheat Transfer Kenneth R. Diller, Jonathan W. Valvano,
and John A. Pearce
Chapter 5 Electrical Engineering Giorgio Rizzoni
5.1  Introduction  Giorgio Rizzoni
5.2  Fundamentals of  Electric  Circuits  Giorgio Rizzoni
5.3  Resistive  Network  Analysis  Giorgio Rizzoni
5.4  AC  Network  Analysis  Giorgio Rizzoni
5.5  AC  Power  Giorgio Rizzoni
5.6 Frequency Response, Filters, and Transient Analysis
Giorgio Rizzoni
5.7  Electronics  Giorgio Rizzoni
5.8  Power Electronics  Giorgio Rizzoni
5.9  Operational  Amplifiers  Giorgio Rizzoni
5.10  Digital  Circuits  Giorgio Rizzoni
5.11  Measurements and  Instrumentation  Giorgio Rizzoni
5.12  Electromechanical  Systems  Giorgio Rizzoni
Chapter 6 Mechanical System Controls Jan F. Kreider
6.1  Human–Machine  Interaction  Thomas B. Sheridan
6.2 The Need for Control of Mechanical Systems
Peter S. Curtiss
6.3  Control  System  Analysis  Peter S. Curtiss
6.4  Control  System  Design and  Application  Peter S. Curtiss
6.5 Advanced Control Topics Peter S. Curtiss, Jan Kreider,
Ronald M. Nelson, and Shou-Heng Huang
6.6 Control of Distributed Generation Technologies
Peter S. Curtiss and Jan F. Kreider
Chapter 7 Energy Resouces D. Yogi Goswami
7.1  Introduction  D. Yogi Goswami
7.2  T ypes of  Derived Energy  D. Yogi Goswami
7.3 Fossil Fuels Robert Reuther, Richard Bajura, and
Philip C. Crouse
7.4  Biomass Energy  Ralph P. Overend and Lynn L. Wright
7.5  Nuclear  Resources  James S. Tulenko
7.6  Solar Energy  Resources  D. Yogi Goswami
7.7  Wind Energy  Resources  Dale E. Berg
7.8  Geothermal Energy  Joel L. Renner and Marshall J. Reed
Chapter 8 Energy Conversion D. Yogi Goswami
8.1  Steam  Power Plant  John Kern
8.2  Gas  T urbines  Steven I. Freedman
8.3 Internal Combustion Engines David E. Klett and
Elsayed M. Afify
8.4  Hydraulic  T urbines  Roger E.A. Arndt
8.5  Stirling Engines  William B. Stine
8.6  Advanced  Fossil  Fuel  Power  Systems  Anthony F. Armor
8.7  Energy Storage  Chand K. Jotshi and D. Yogi Goswami
8.8  Nuclear  Power  Roberto Pagano and James S. Tulenko
8.9  Nuclear  Fusion  Thomas E. Shannon
© 2005 by CRC Press LLC
8.10  Solar Thermal Energy  Conversion  D. Yogi Goswami
8.11  Wind Energy  Conversion  Dale E. Berg
8.12 Energy Conversion of the Geothermal Resource
Carl J. Bliem and Gregory L. Mines
8.13 Direct Energy Conversion Kitt C. Reinhardt,
D. Yogi Goswami, Mysore L. Ramalingam, Jean-Pierre Fleurial,
and William D. Jackson
8.14 Ocean Energy Technology Desikan Bharathan and
Federica Zangrando
8.15  Combined-Cycle  Power Plants  Alex Lezuo
Chapter 9 Air-Conditioning and Refrigeration
Herbert A. Ingley and Shan K. Wang
9.1  Introduction  Shan K. Wang
9.2  Psychrometrics  Shan K. Wang
9.3  Air-Conditioning  Processes and  Cycles  Shan K. Wang
9.4  Refrigerants and  Refrigeration  Cycles  Shan K. Wang
9.5 Outdoor Design Conditions and Indoor Design Criteria
Shan K. Wang
9.6 Principles of Load Calculations Ari Rabl and
Peter S. Curtiss
9.7  Air  Handling  Units and  Packaged  Units  Shan K. Wang
9.8 Refrigeration Components and Evaporative Coolers
Shan K. Wang
9.9  Water  Systems  Herbert A. Ingley and Shan K. Wang
9.10  Heating  Systems  Shan K. Wang
9.11  Refrigeration  Systems  Herbert A. Ingley and Shan K. Wang
9.12  Thermal Storage  Systems  Shan K. Wang
9.13  Air  System Basics  Shan K. Wang
9.14  Absorption  System  Shan K. Wang
9.15  Air-Conditioning  Systems and Selection  Shan K. Wang
9.16 Desiccant Dehumidification and Air-Conditioning
Zalman Lavan
Chapter 10 Transportation Frank Kreith
10.1  T ranspor tation Planning  Michael D. Meyer
10.2 Design of Transportation Facilities John Leonard II and
Michael D. Meyer
10.3 Operations  and Environmental Impacts Michael D. Meyer,
Paul W. Shuldiner, and Kenneth B. Black
10.4  T ranspor tation  Systems  Paul Schonfeld
10.5 Alternative Fuels for Motor Vehicles Paul Norton and
Wendy Clark
10.6  Electric and  Hybrid  V ehicles  Iqbal Husain
10.7  Intelligent  T ranspor tation  Systems  Sumit Ghosh
Chapter 11 Engineering Design Ashok V. Kumar
11.1  Introduction  Ashok V. Kumar
11.2  Elements of  the Design  Process  Nam P. Suh
11.3  Design  T ools  Ashok V. Kumar
11.4  Structural Design  Criteria  Nagaraj K. Arakere
11.5  Design Optimization  Nam Ho Kim
Chapter 12 Materials Bhuvenesh C. Goswami
12.1  Metals  Victor A. Greenhut
12.2  Polymers  James D. Idol and Richard L. Lehman
12.3  Adhesives  Richard L. Lehman
12.4  Wood  Daniel J. Strange
12.5  Por tland Cement  Concrete  Steven H. Kosmatka
12.6 Composites Bhuvenesh C. Goswami, Weiping Wang,
R. Allan Ridilla, Mathew B. Buczek, Richard L. Lehman, and
Daniel J. Strange
12.7 Ceramics and Glass Richard L. Lehman, Daniel J. Strange,
and William F. Fischer, III
Chapter 13 Modern Manufacturing Scott Smith
13.1  Introduction  Scott Smith
13.2 Unit Manufacturing and Assembly Processes Robert E.
Schafrik, Steven Y. Liang, Trevor D. Howes, John Webster,
Ioan Marinescu, Scott Smith, K. P. Rajurkar, W. M. Wang,
Talyan Altan, Weiping Wang, Alan Ridilla, Matthew Buczek,
S. H. Cho, Ira Pence, Toskiaki Yamaguchi, Yashitsugu
Taketomi, and Carl J. Kempf
13.3 Essential Elements in Manufacturing Processes and
Equipment John Fildes, Yoram Koren, M. Tomizuka, and Kam Lau
13.4 Design and Analysis Tools in Manufacturing David C.
Anderson, Tien-Chien Chang, Hank Grant, Tien-I. Liu,
J. M. A. Tanchoco, Andrew C. Lee, and Su-Hsia Yang
13.5  Rapid  Protot yping  Takeo Nakagawa
13.6 Underlying Paradigms in Manufacturing Systems and
Enterprise  Management for the 21st Centur y  H. E. Cook
and Chris Wang
13.7 Electronics Manufacturing: Processes, Optimization,
and  Control  Roop L. Mahajan
Chapter 14 Robotics Frank Lewis
14.1  Introduction  Frank Lewis
14.2  Commercial  Robot  Manipulators  John M. Fitzgerald
14.3  Robot  Configurations  Ian D. Walker
14.4 End Effectors and Tooling Mark R. Cutkosky and
Peter McCormick
14.5  Sensors and  Actuators  Kok-Meng Lee
14.6 Robot Programming Languages — Robot Systems
Stephen Wood
14.7  Robot Dynamics and  Control  Frank L. Lewis
14.8  Planning and  Intelligent  Control  Chen Zhou
14.9  Design of  Robotic  Systems  Kok-Meng Lee
14.10 Robot Manufacturing Applications John W. Priest and
G. T. Stevens, Jr.
14.11 Industrial Material Handling and Process Applications
of  Robots  John M. Fitzgerald
14.12  Mobile,  Flexible-Link,  and  Parallel-Link  Robots  Kai Liu
Chapter 15 MEMS Technology Mohamed Gad-el-Hak
15.1  Introduction  Mohamed Gad-el-Hak
15.2 MEMS Technology and Its Applications
Mohamed Gad-el-Hak
15.3 Microscale Manufacturing Processes Marc J. Madou and
Hong Zhou
15.4  MEMS Packaging  Liang-Yu Chen and Phillip J. Zulueta
15.5 Reliability and MEMS Srihari Rajgopal, Christian A. Zorman,
Darrin J. Young, and Mehran Mehregany
15.6  Fluid Flow in  Microdevices  Mohamed Gad-el-Hak
15.7 Solid Mechanics of Microdevices Fernando Bitsie, C. Channy
Wong, Andrew D. Oliver, and David W. Plummer
Chapter 16 Environmental Engineering
Ari Rabl and Jan F. Kreider
16.1  Introduction  Ari Rabl and Jan F. Kreider
16.2 Benchmarks and Reference Conditions Ari Rabl, Nevis
Cook, Ronald R. Hewitt Cohen, and Tissa Illangasekare
16.3 Sources of Pollution and Regulations Jan F. Kreider, Nevis
Cook, Tissa Illangasekare, and Ronald R. Hewitt Cohen
16.4 Regulations and Emission Standards Nevis Cook,
Ronald R. Hewitt Cohen, and Jan F. Kreider
16.5 Mitigation of Water and Air Pollution Jan F. Kreider,
Nevis Cook, and Ronald R. Hewitt Cohen
16.6 Environmental Modeling Paolo Zannetti, Tissa
Illangasekare, Ronald R. Hewitt Cohen, Nevis Cook, Ari Rabl,
and Peter S. Curtiss
16.7  Global Climate Change  John Firor
Chapter 17 Engineering Economics and Project Management
Chan S. Park and Donald D. Tippett
17.1  Engineering Economic Decisions  Chan S. Park
17.2  Establishing Economic Equivalence  Chan S. Park
17.3  Measures of   Project Worth  Chan S. Park
17.4  Cash Flow  Projections  Chan S. Park
17.5  Sensitivit y and Risk  Analysis  Chan S. Park
17.6  Design Economics  Chan S. Park
17.7  Project  Management  Donald D. Tippett
Chapter 18 Nanotechnology Sergey Edward Lyshevski
18.1  Introduction  Sergey Edward Lyshevski
18.2 Applications of Engineering Biomimetics in Nanomachines
Protot yping  Sergey Edward Lyshevski .
18.3 Nanomachines Synthesis and Classification
Sergey Edward Lyshevski
18.4 Synthesis, Design and Analysis of Nanomachines
Sergey Edward Lyshevski
18.5 Synchronous Reluctance Nanomachines
Sergey Edward Lyshevski
18.6 Permanent-Magnet Synchronous Nanomachines
Sergey Edward Lyshevski
18.7  Induction  Nanomachines  Sergey Edward Lyshevski
18.8  Conclusions  Sergey Edward Lyshevski
Chapter 19 Mathematics William F. Ames and George Cain
19.1  T ables
19.2  Linear  Algebra and  Matrices  George Cain
19.3  V ector  Algebra and Calculus  George Cain
19.4  Difference Equations  William F. Ames
19.5  Differential Equations  William F. Ames
19.6  Integral Equations  William F. Ames
19.7  Approximation  Methods  William F. Ames
19.8  Integral  T ransforms  William F. Ames
19.9  Calculus of  V ariations  William F. Ames
19.10  Optimization  Methods  George Cain
19.11  Engineering Statistics  Y. L. Tong
19.12  Numerical  Methods  William F. Ames
19.13 Experimental Uncertainty Analysis W.G. Steele and
H.W. Coleman
19.14  Chaos  R. L. Kautz
19.15  Fuzzy Sets and  Fuzzy Logic  Dan M. Frangopol
Chapter 20 Patent Law and Miscellaneous Topics Frank Kreith
20.1 Patents and Other Intellectual Property
Thomas H. Young
20.2  Product Liabilit y and Safet y  George A. Peters
20.3 Biomechanics B. Johan Ivarsson, Jeff R. Crandall,
Gregory W. Hall, and Walter D. Pilkey
20.4 Mechanical Engineering Codes and Standards
Michael Merker
20.5  Optics  Roland Winston and Walter T. Welford
20.6  Water Desalination  Noam Lior
20.7  Noise  Control  Malcolm J. Crocker
20.8 Lighting Technology Barbara Atkinson, Andrea Denver,
Robert Clear, and James E. McMahon
Appendices Paul Norton
A.  Proper ties of   Gases and  V apors
B.  Proper ties of   Liquids
C.  Proper ties of   Solids
D.  Gases and  V apors
E.  Miscellaneous

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The purpose of the second edition of the CRC Handbook of Mechanical Engineering  is to continue providing practicing engineers in industry, government, and academia with up-to-date information on the most important topics of modern mechanical engineering.
The book covers traditional topics such as thermodynamics, solid and fluid mechanics, heat and mass transfer, materials, controls, energy conversion, manufacturing and design, robotics, environmental engineering, economics and project management, patent law, and transportation. These topics were covered in the first edition, but they have been updated, new references have been added, and efforts have been made to provide information on computer technology related to the topics at the end of each chapter.
But in the 10 years since the first edition of this handbook was published, changes have taken place in engineering and technology and additional topics that were not treated in the first edition have come to  the fore. To bring the new edition up-to-date, chapters on topics such as nanotechnology, MEMS, electronic packaging, global climate change, electric and hybrid vehicles, and bioengineering have been added. Moreover, the editorial supervision for the second edition has been broadened by the addition of Yogi Goswami as co-editor.

In  a work of the size of the second edition of this handbook, it is unavoidable that certain errors or omissions may have occurred. Therefore, the editors appreciate the readers calling any of these shortcomings to their attention and every effort will be made to correct them. We also welcome continuous feedback from readers about topics that may have  been omitted and should be considered for inclusion in future editions of this work.
The editors would like to thank all the contributors, as well as the CRC staff, specially Helena Redshaw, Jessica Vakili, Cindy Carelli, and Susan Fox, for their assistance in the preparation of this handbook.

Chapter 1 Mechanics of Solids Bela I. Sandor
1.1  Introduction  Bela I. Sandor
1.2  Statics  Bela I. Sandor and Ryan Roloff
1.3  Dynamics  Stephen M. Birn and Bela I. Sandor
1.4  Vibrations  Bela I. Sandor and Stephen M. Birn
1.5 Mechanics of Materials Bela I. Sandor, Stephen M. Birn,
and Michael L. Brown
1.6  Structural  Integrit y and Durabilit y  Bela I. Sandor
1.7 Comprehensive Example of Using Mechanics of Solids
Methods  Bela I. Sandor
Chapter 2 Engineering Thermodynamics Michael J. Moran
2.1  Fundamentals  Michael J. Moran
2.2  Control V olume  Applications  Michael J. Moran
2.3  Proper t y  Relations and Data  Michael J. Moran
2.4  Combustion  Michael J. Moran
2.5  Exergy  Analysis  Michael J. Moran
2.6  V apor and Gas  Power  Cycles  Michael J. Moran
2.7 Guidelines for Improving Thermodynamic Effectiveness
Michael J. Moran
Chapter 3 Fluid Mechanics Frank Kreith
3.1  Fluid Statics  Stanley A. Berger
3.2  Equations of  Motion and  Potential Flow  Stanley A. Berger
3.3 Similitude: Dimensional Analysis and Data Correlation
Stuart W. Churchill
3.4  Hydraulics of  Pipe Systems  J. Paul Tullis and Blake P. Tullis
3.5  Open Channel Flow  Frank M. White
3.6  External  Incompressible Flows  Alan T. McDonald
3.7  Compressible Flow  Ajay Kumar and Jessica Todd
3.8  Multiphase Flow  John C. Chen
3.9 New-Newtonian Flows Thomas F. Irvine Jr. and
Massimo Capobianchi
3.10 Tribology, Lubrication, and Bearing Design Francis E.
Kennedy, E. Richard Booser, and Donald F. Wilcock
3.11  Pumps and  Fans  Robert F. Boehm
3.12  Liquid  Atomization and Spraying  Rolf D. Reitz
3.13 Flow Measurement Jungho Kim, Alan T. McDonald, and
Sherif A. Sherif
3.14  Pressure  Measurement  Jungho Kim
3.15  Micro/Nanotribology  Bharat Bhushan
Chapter 4 Heat and Mass Transfer Frank Kreith
4.1  Conduction  Heat  T ransfer  Robert F. Boehm
4.2 Convection Heat Transfer George D. Raithby,
K.G. Terry Hollands, and N.V. Suryanarayana
4.3  Radiation  Michael F. Modest
4.4  Phase-Change  Van P. Carey, John C. Chen, and Noam Lior
4.5  Heat Exchangers  Ramesh K. Shah and Kenneth J. Bell
4.6 Temperature and Heat Transfer Measurements
Robert J. Moffat and Jungho Kim
4.7  Mass  T ransfer  Anthony F. Mills
4.8 Applications Arthur E. Bergles, Anthony F. Mills,
Larry W. Swanson, and Vincent W. Antonetti
4.9 Non-Newtonian Fluids — Heat Transfer
Thomas F. Irvine, Jr. and Massimo Capobianchi
4.10 Bioheat Transfer Kenneth R. Diller, Jonathan W. Valvano,
and John A. Pearce
Chapter 5 Electrical Engineering Giorgio Rizzoni
5.1  Introduction  Giorgio Rizzoni
5.2  Fundamentals of  Electric  Circuits  Giorgio Rizzoni
5.3  Resistive  Network  Analysis  Giorgio Rizzoni
5.4  AC  Network  Analysis  Giorgio Rizzoni
5.5  AC  Power  Giorgio Rizzoni
5.6 Frequency Response, Filters, and Transient Analysis
Giorgio Rizzoni
5.7  Electronics  Giorgio Rizzoni
5.8  Power Electronics  Giorgio Rizzoni
5.9  Operational  Amplifiers  Giorgio Rizzoni
5.10  Digital  Circuits  Giorgio Rizzoni
5.11  Measurements and  Instrumentation  Giorgio Rizzoni
5.12  Electromechanical  Systems  Giorgio Rizzoni
Chapter 6 Mechanical System Controls Jan F. Kreider
6.1  Human–Machine  Interaction  Thomas B. Sheridan
6.2 The Need for Control of Mechanical Systems
Peter S. Curtiss
6.3  Control  System  Analysis  Peter S. Curtiss
6.4  Control  System  Design and  Application  Peter S. Curtiss
6.5 Advanced Control Topics Peter S. Curtiss, Jan Kreider,
Ronald M. Nelson, and Shou-Heng Huang
6.6 Control of Distributed Generation Technologies
Peter S. Curtiss and Jan F. Kreider
Chapter 7 Energy Resouces D. Yogi Goswami
7.1  Introduction  D. Yogi Goswami
7.2  T ypes of  Derived Energy  D. Yogi Goswami
7.3 Fossil Fuels Robert Reuther, Richard Bajura, and
Philip C. Crouse
7.4  Biomass Energy  Ralph P. Overend and Lynn L. Wright
7.5  Nuclear  Resources  James S. Tulenko
7.6  Solar Energy  Resources  D. Yogi Goswami
7.7  Wind Energy  Resources  Dale E. Berg
7.8  Geothermal Energy  Joel L. Renner and Marshall J. Reed
Chapter 8 Energy Conversion D. Yogi Goswami
8.1  Steam  Power Plant  John Kern
8.2  Gas  T urbines  Steven I. Freedman
8.3 Internal Combustion Engines David E. Klett and
Elsayed M. Afify
8.4  Hydraulic  T urbines  Roger E.A. Arndt
8.5  Stirling Engines  William B. Stine
8.6  Advanced  Fossil  Fuel  Power  Systems  Anthony F. Armor
8.7  Energy Storage  Chand K. Jotshi and D. Yogi Goswami
8.8  Nuclear  Power  Roberto Pagano and James S. Tulenko
8.9  Nuclear  Fusion  Thomas E. Shannon
© 2005 by CRC Press LLC
8.10  Solar Thermal Energy  Conversion  D. Yogi Goswami
8.11  Wind Energy  Conversion  Dale E. Berg
8.12 Energy Conversion of the Geothermal Resource
Carl J. Bliem and Gregory L. Mines
8.13 Direct Energy Conversion Kitt C. Reinhardt,
D. Yogi Goswami, Mysore L. Ramalingam, Jean-Pierre Fleurial,
and William D. Jackson
8.14 Ocean Energy Technology Desikan Bharathan and
Federica Zangrando
8.15  Combined-Cycle  Power Plants  Alex Lezuo
Chapter 9 Air-Conditioning and Refrigeration
Herbert A. Ingley and Shan K. Wang
9.1  Introduction  Shan K. Wang
9.2  Psychrometrics  Shan K. Wang
9.3  Air-Conditioning  Processes and  Cycles  Shan K. Wang
9.4  Refrigerants and  Refrigeration  Cycles  Shan K. Wang
9.5 Outdoor Design Conditions and Indoor Design Criteria
Shan K. Wang
9.6 Principles of Load Calculations Ari Rabl and
Peter S. Curtiss
9.7  Air  Handling  Units and  Packaged  Units  Shan K. Wang
9.8 Refrigeration Components and Evaporative Coolers
Shan K. Wang
9.9  Water  Systems  Herbert A. Ingley and Shan K. Wang
9.10  Heating  Systems  Shan K. Wang
9.11  Refrigeration  Systems  Herbert A. Ingley and Shan K. Wang
9.12  Thermal Storage  Systems  Shan K. Wang
9.13  Air  System Basics  Shan K. Wang
9.14  Absorption  System  Shan K. Wang
9.15  Air-Conditioning  Systems and Selection  Shan K. Wang
9.16 Desiccant Dehumidification and Air-Conditioning
Zalman Lavan
Chapter 10 Transportation Frank Kreith
10.1  T ranspor tation Planning  Michael D. Meyer
10.2 Design of Transportation Facilities John Leonard II and
Michael D. Meyer
10.3 Operations  and Environmental Impacts Michael D. Meyer,
Paul W. Shuldiner, and Kenneth B. Black
10.4  T ranspor tation  Systems  Paul Schonfeld
10.5 Alternative Fuels for Motor Vehicles Paul Norton and
Wendy Clark
10.6  Electric and  Hybrid  V ehicles  Iqbal Husain
10.7  Intelligent  T ranspor tation  Systems  Sumit Ghosh
Chapter 11 Engineering Design Ashok V. Kumar
11.1  Introduction  Ashok V. Kumar
11.2  Elements of  the Design  Process  Nam P. Suh
11.3  Design  T ools  Ashok V. Kumar
11.4  Structural Design  Criteria  Nagaraj K. Arakere
11.5  Design Optimization  Nam Ho Kim
Chapter 12 Materials Bhuvenesh C. Goswami
12.1  Metals  Victor A. Greenhut
12.2  Polymers  James D. Idol and Richard L. Lehman
12.3  Adhesives  Richard L. Lehman
12.4  Wood  Daniel J. Strange
12.5  Por tland Cement  Concrete  Steven H. Kosmatka
12.6 Composites Bhuvenesh C. Goswami, Weiping Wang,
R. Allan Ridilla, Mathew B. Buczek, Richard L. Lehman, and
Daniel J. Strange
12.7 Ceramics and Glass Richard L. Lehman, Daniel J. Strange,
and William F. Fischer, III
Chapter 13 Modern Manufacturing Scott Smith
13.1  Introduction  Scott Smith
13.2 Unit Manufacturing and Assembly Processes Robert E.
Schafrik, Steven Y. Liang, Trevor D. Howes, John Webster,
Ioan Marinescu, Scott Smith, K. P. Rajurkar, W. M. Wang,
Talyan Altan, Weiping Wang, Alan Ridilla, Matthew Buczek,
S. H. Cho, Ira Pence, Toskiaki Yamaguchi, Yashitsugu
Taketomi, and Carl J. Kempf
13.3 Essential Elements in Manufacturing Processes and
Equipment John Fildes, Yoram Koren, M. Tomizuka, and Kam Lau
13.4 Design and Analysis Tools in Manufacturing David C.
Anderson, Tien-Chien Chang, Hank Grant, Tien-I. Liu,
J. M. A. Tanchoco, Andrew C. Lee, and Su-Hsia Yang
13.5  Rapid  Protot yping  Takeo Nakagawa
13.6 Underlying Paradigms in Manufacturing Systems and
Enterprise  Management for the 21st Centur y  H. E. Cook
and Chris Wang
13.7 Electronics Manufacturing: Processes, Optimization,
and  Control  Roop L. Mahajan
Chapter 14 Robotics Frank Lewis
14.1  Introduction  Frank Lewis
14.2  Commercial  Robot  Manipulators  John M. Fitzgerald
14.3  Robot  Configurations  Ian D. Walker
14.4 End Effectors and Tooling Mark R. Cutkosky and
Peter McCormick
14.5  Sensors and  Actuators  Kok-Meng Lee
14.6 Robot Programming Languages — Robot Systems
Stephen Wood
14.7  Robot Dynamics and  Control  Frank L. Lewis
14.8  Planning and  Intelligent  Control  Chen Zhou
14.9  Design of  Robotic  Systems  Kok-Meng Lee
14.10 Robot Manufacturing Applications John W. Priest and
G. T. Stevens, Jr.
14.11 Industrial Material Handling and Process Applications
of  Robots  John M. Fitzgerald
14.12  Mobile,  Flexible-Link,  and  Parallel-Link  Robots  Kai Liu
Chapter 15 MEMS Technology Mohamed Gad-el-Hak
15.1  Introduction  Mohamed Gad-el-Hak
15.2 MEMS Technology and Its Applications
Mohamed Gad-el-Hak
15.3 Microscale Manufacturing Processes Marc J. Madou and
Hong Zhou
15.4  MEMS Packaging  Liang-Yu Chen and Phillip J. Zulueta
15.5 Reliability and MEMS Srihari Rajgopal, Christian A. Zorman,
Darrin J. Young, and Mehran Mehregany
15.6  Fluid Flow in  Microdevices  Mohamed Gad-el-Hak
15.7 Solid Mechanics of Microdevices Fernando Bitsie, C. Channy
Wong, Andrew D. Oliver, and David W. Plummer
Chapter 16 Environmental Engineering
Ari Rabl and Jan F. Kreider
16.1  Introduction  Ari Rabl and Jan F. Kreider
16.2 Benchmarks and Reference Conditions Ari Rabl, Nevis
Cook, Ronald R. Hewitt Cohen, and Tissa Illangasekare
16.3 Sources of Pollution and Regulations Jan F. Kreider, Nevis
Cook, Tissa Illangasekare, and Ronald R. Hewitt Cohen
16.4 Regulations and Emission Standards Nevis Cook,
Ronald R. Hewitt Cohen, and Jan F. Kreider
16.5 Mitigation of Water and Air Pollution Jan F. Kreider,
Nevis Cook, and Ronald R. Hewitt Cohen
16.6 Environmental Modeling Paolo Zannetti, Tissa
Illangasekare, Ronald R. Hewitt Cohen, Nevis Cook, Ari Rabl,
and Peter S. Curtiss
16.7  Global Climate Change  John Firor
Chapter 17 Engineering Economics and Project Management
Chan S. Park and Donald D. Tippett
17.1  Engineering Economic Decisions  Chan S. Park
17.2  Establishing Economic Equivalence  Chan S. Park
17.3  Measures of   Project Worth  Chan S. Park
17.4  Cash Flow  Projections  Chan S. Park
17.5  Sensitivit y and Risk  Analysis  Chan S. Park
17.6  Design Economics  Chan S. Park
17.7  Project  Management  Donald D. Tippett
Chapter 18 Nanotechnology Sergey Edward Lyshevski
18.1  Introduction  Sergey Edward Lyshevski
18.2 Applications of Engineering Biomimetics in Nanomachines
Protot yping  Sergey Edward Lyshevski .
18.3 Nanomachines Synthesis and Classification
Sergey Edward Lyshevski
18.4 Synthesis, Design and Analysis of Nanomachines
Sergey Edward Lyshevski
18.5 Synchronous Reluctance Nanomachines
Sergey Edward Lyshevski
18.6 Permanent-Magnet Synchronous Nanomachines
Sergey Edward Lyshevski
18.7  Induction  Nanomachines  Sergey Edward Lyshevski
18.8  Conclusions  Sergey Edward Lyshevski
Chapter 19 Mathematics William F. Ames and George Cain
19.1  T ables
19.2  Linear  Algebra and  Matrices  George Cain
19.3  V ector  Algebra and Calculus  George Cain
19.4  Difference Equations  William F. Ames
19.5  Differential Equations  William F. Ames
19.6  Integral Equations  William F. Ames
19.7  Approximation  Methods  William F. Ames
19.8  Integral  T ransforms  William F. Ames
19.9  Calculus of  V ariations  William F. Ames
19.10  Optimization  Methods  George Cain
19.11  Engineering Statistics  Y. L. Tong
19.12  Numerical  Methods  William F. Ames
19.13 Experimental Uncertainty Analysis W.G. Steele and
H.W. Coleman
19.14  Chaos  R. L. Kautz
19.15  Fuzzy Sets and  Fuzzy Logic  Dan M. Frangopol
Chapter 20 Patent Law and Miscellaneous Topics Frank Kreith
20.1 Patents and Other Intellectual Property
Thomas H. Young
20.2  Product Liabilit y and Safet y  George A. Peters
20.3 Biomechanics B. Johan Ivarsson, Jeff R. Crandall,
Gregory W. Hall, and Walter D. Pilkey
20.4 Mechanical Engineering Codes and Standards
Michael Merker
20.5  Optics  Roland Winston and Walter T. Welford
20.6  Water Desalination  Noam Lior
20.7  Noise  Control  Malcolm J. Crocker
20.8 Lighting Technology Barbara Atkinson, Andrea Denver,
Robert Clear, and James E. McMahon
Appendices Paul Norton
A.  Proper ties of   Gases and  V apors
B.  Proper ties of   Liquids
C.  Proper ties of   Solids
D.  Gases and  V apors
E.  Miscellaneous

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Chuyên mục: C. Bài giảng C. Bài giảng chuyên ngành Cơ khí - Chế tạo máy (Mechanical & Manufacturing Engineering) C. Bài giảng kỹ thuật