Description

Book Synopsis

A concise treatment of the fundamentals of thermodynamics is presented in this book. In particular, emphasis is placed on discussions of the second law, a unique feature of thermodynamics, which states the limitations of converting thermal energy into mechanical energy. The entropy function that permits the loss in the potential of a real thermodynamic process to be assessed, the maximum possible work in a process, and irreversibility and equilibrium are deduced from the law through physical and intuitive considerations. They are applicable in mitigating waste heat and are useful for solving energy, power, propulsion and climate-related issues.

The treatment is not restricted to properties and functions of ideal gases. The ideal gas assumption is invoked as a limiting case. Reversible paths between equilibrium states are obtained using reversible heat engines and reversible heat pumps between environment and systems to determine the entropy changes and the maximum work. The co

Table of Contents

1. Fundamental Concepts. 2. Equation of State. 3. First Law of Thermodynamics. 4. Second Law of Thermodynamics. 5. Entropy. 6. Reversible Work, Availability and Irreversibility. 7. Thermodynamic State Functions. 8. Thermodynamic Coefficients and Specific Heats. 9. Thermodynamic Equilibrium. 10. Equilibrium of Species in a Chemically Reacting System. 11. Statistical Thermodynamics.

Fundamentals of Thermodynamics

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    A Hardback by John H. S. Lee, K. Ramamurthi

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      Publisher: Taylor & Francis Ltd
      Publication Date: 1/27/2022 12:00:00 AM
      ISBN13: 9781032123127, 978-1032123127
      ISBN10: 1032123125
      Also in:
      Mathematics Applied mathematics Technology, Engineering & Agriculture Energy technology and engineering Industrial chemistry and chemical engineering

      Description

      Book Synopsis

      A concise treatment of the fundamentals of thermodynamics is presented in this book. In particular, emphasis is placed on discussions of the second law, a unique feature of thermodynamics, which states the limitations of converting thermal energy into mechanical energy. The entropy function that permits the loss in the potential of a real thermodynamic process to be assessed, the maximum possible work in a process, and irreversibility and equilibrium are deduced from the law through physical and intuitive considerations. They are applicable in mitigating waste heat and are useful for solving energy, power, propulsion and climate-related issues.

      The treatment is not restricted to properties and functions of ideal gases. The ideal gas assumption is invoked as a limiting case. Reversible paths between equilibrium states are obtained using reversible heat engines and reversible heat pumps between environment and systems to determine the entropy changes and the maximum work. The co

      Table of Contents

      1. Fundamental Concepts. 2. Equation of State. 3. First Law of Thermodynamics. 4. Second Law of Thermodynamics. 5. Entropy. 6. Reversible Work, Availability and Irreversibility. 7. Thermodynamic State Functions. 8. Thermodynamic Coefficients and Specific Heats. 9. Thermodynamic Equilibrium. 10. Equilibrium of Species in a Chemically Reacting System. 11. Statistical Thermodynamics.

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