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Thermodynamics. Concepts and Applications. Edition No. 2

  • ID: 4750799
  • Book
  • February 2020
  • Region: Global
  • 854 Pages
  • Cambridge University Press
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Fully revised to match the more traditional sequence of course materials, this full-color second edition presents the basic principles and methods of thermodynamics using a clear and engaging style and a wealth of end-of-chapter problems. It includes five new chapters on topics such as mixtures, psychrometry, chemical equilibrium, and combustion, and discussion of the Second Law of Thermodynamics has been expanded and divided into two chapters, allowing instructors to introduce the topic using either the cycle analysis in Chapter 6 or the definition of entropy in Chapter 7. Online ancillaries including a password-protected solutions manual, figures in electronic format, prepared PowerPoint lecture slides, and instructional videos are available.
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Conversion factors; Preface; Acknowledgements;
1. Beginnings;
2. Thermodynamic properties, property relationships, and processes;
3. Conservation of mass;
4. Energy and energy transfer;
5. First law of thermodynamics;
6. Second law of thermodynamics and some of its consequences;
7. Entropy and availability;
8. Thermal-fluid analysis of steady-flow devices;
9. Systems for power production, propulsion, and heating and cooling;
10. Ideal-gas mixtures;
11. Air-vapor mixtures;
12. Reacting systems;
13. Chemical and phase equilibrium; Appendix A. Timeline; Appendix B. Thermodynamic properties of H2O; Appendix C. Thermodynamic and thermo-physical properties of air; Appendix D. Thermodynamic properties of ideal gases and carbon; Appendix E. Various thermodynamic data; Appendix F. Thermo-physical properties of selected gases at 1 atm; Appendix G. Thermo-physical properties of selected liquids; Appendix H. Thermo-physical properties of hydrocarbon fuels; Appendix I. Psychrometric charts; Answers to selected problems; Index.
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Stephen R. Turns Pennsylvania State University.

Stephen R. Turns is Professor Emeritus of mechanical engineering at The Pennsylvania State University. His research interests include combustion-generated air pollution, other combustion-related topics, and engineering education pedagogy. Turns was the recipient of the 2009 ASEE Mechanical Engineering Division Ralph Coats Roe Award and has been the recipient of several teaching awards at Penn State. He is the author of An Introduction to Combustion: Concepts and Applications (3rd edition, 2011), also appearing in Chinese, Korean, and Portuguese, and of Thermal-Fluid Sciences: An Integrated Approach (2008). Turns is a fellow of the American Society of Mechanical Engineering (ASME).
Laura L. Pauley Pennsylvania State University.

Laura L. Pauley is Professor of mechanical engineering at the Pennsylvania State University. She teaches courses in the thermal sciences and conducts research in engineering education and computational fluid dynamics. Pauley has worked on grants focusing on aspects of engineering education including classroom experiments, presentation skills, and the climate for women in engineering. She has also initiated efforts in curriculum reform and experimental case studies for required courses in mechanical engineering. She is the recipient of Undergraduate Program Leadership Award (2003) and was selected as the first Arthur L. Glenn Professor of Engineering Education. Pauley is a fellow of the American Society of Mechanical Engineering (ASME).
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