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Engineering Thermodynamics by R.K. Rajput Book Details
| Book Name | Engineering Thermodynamics |
| Author | R.K. Rajput |
| Category | Mechanical Engineering Books, Education Books |
| Book Language | English |
| Publisher | Laxmi Publications |
| Pages | 966 |
| ISBN | 9780763782726 |
| Country | India |
| Book Size | 12 MB |
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About Engineering Thermodynamics by R.K. Rajput Book
Engineering thermodynamics is a branch of science and engineering that deals with the study of energy transfer and conversion, particularly as it relates to mechanical and thermal systems. It provides fundamental principles and tools for understanding and analyzing various engineering processes involving heat, work, and energy interactions. Engineering thermodynamics plays a crucial role in the design, analysis, and optimization of a wide range of systems and devices, including engines, power plants, refrigeration systems, and more.
Key concepts and topics within engineering thermodynamics include:
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Laws of Thermodynamics: The foundational principles that govern energy and its transformations in physical systems. These laws include:
- Zeroth Law of Thermodynamics: Defines temperature and thermal equilibrium.
- First Law of Thermodynamics: States the conservation of energy principle, often referred to as the law of energy conservation.
- Second Law of Thermodynamics: Describes the direction of energy flow and introduces concepts like entropy and the impossibility of certain processes.
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Thermodynamic Processes: Descriptions and analyses of how systems change from one state to another. These processes can be classified as isothermal, isobaric, isochoric, adiabatic, and more.
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Properties of Substances: Thermodynamic properties like pressure, temperature, volume, and internal energy are critical for analyzing and predicting system behavior.
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Work and Heat Transfer: Understanding the mechanisms of energy transfer as work and heat between a system and its surroundings. This includes discussions of boundary work, shaft work, and various modes of heat transfer.
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Thermodynamic Cycles: Repeated processes that return a system to its initial state. Examples include the Carnot cycle, Rankine cycle, Otto cycle, and Brayton cycle.
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Mixtures and Phase Equilibrium: Analysis of mixtures and solutions, including the concepts of partial pressures, fugacity, and chemical potential. Understanding phase transitions and equilibrium conditions is also crucial.
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Chemical Reactions and Equilibrium: Applying thermodynamics to chemical reactions and determining reaction equilibrium conditions.
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Entropy and Second Law Analysis: Exploring the concept of entropy as a measure of energy dispersal and disorder. Utilizing the second law of thermodynamics to analyze the efficiency and irreversibility of processes.
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Availability and Exergy: Evaluating the maximum useful work that can be obtained from a given energy source or system. Introducing exergy as a measure of a system's potential to perform useful work.
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Applications: Applying thermodynamic principles to engineering applications such as power generation, refrigeration, heating, air conditioning, and various industrial processes.
Engineering thermodynamics provides a solid theoretical foundation for engineers to analyze and design systems that involve energy transfer and conversion. It enables engineers to make informed decisions about efficiency, performance, and sustainability in a wide range of practical scenarios.
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