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Applied Thermodynamics by Onkar Singh Book Details
| Book Name | Applied Thermodynamics |
| Author | Onkar Singh |
| Category | Mechanical Engineering Books, Education Books |
| Book Language | English |
| Publisher | New Age International Publishers |
| Pages | 330 |
| ISBN | 9788122429169 |
| Country | India |
| Book Size | 4 MB |
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About Applied Thermodynamics by Onkar Singh Book
Applied thermodynamics refers to the practical application of thermodynamic principles and concepts to solve real-world engineering problems. It involves using the fundamental principles of thermodynamics to analyze, design, and optimize various systems and processes that involve energy transfer and conversion. Applied thermodynamics plays a crucial role in a wide range of industries, including mechanical engineering, chemical engineering, aerospace engineering, and more.
Key aspects and topics of applied thermodynamics include:
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Energy Conversion Systems: Analyzing and designing systems that convert one form of energy into another, such as engines (internal combustion engines, gas turbines), power plants (steam turbines), and renewable energy systems (solar cells, wind turbines).
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Heat Engines and Refrigeration: Studying the thermodynamics of heat engines (devices that convert heat into mechanical work) and refrigeration systems (devices that transfer heat from a low-temperature reservoir to a high-temperature one), including their efficiency and performance characteristics.
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Combustion Processes: Analyzing the thermodynamics of combustion reactions in engines and industrial processes, including combustion efficiency, fuel-air ratios, and emissions.
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Thermal Power Plants: Understanding the operation and performance of thermal power plants, such as coal-fired, natural gas, and nuclear power plants, and optimizing their efficiency and output.
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Refrigeration and Air Conditioning Systems: Designing and analyzing refrigeration and air conditioning systems for various applications, including residential, commercial, and industrial cooling.
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Energy Efficiency and Sustainability: Applying thermodynamics to improve energy efficiency, reduce waste, and promote sustainable practices in engineering systems.
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Thermal Analysis and Heat Transfer: Using thermodynamic principles to analyze heat transfer mechanisms (conduction, convection, radiation) and design heat exchangers, heat sinks, and thermal insulation.
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Thermodynamic Cycles: Analyzing and optimizing various thermodynamic cycles, such as the Rankine cycle (used in steam power plants), the Brayton cycle (used in gas turbines), and the vapor compression cycle (used in refrigeration systems).
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Exergy Analysis: Evaluating the quality of energy within a system by considering its exergy, which represents the potential to do useful work. Exergy analysis helps identify areas for improving system efficiency.
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Applications in Materials and Chemical Engineering: Applying thermodynamics to materials processing, phase transformations, chemical reactions, and chemical equilibrium.
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Renewable Energy: Utilizing thermodynamics to analyze and optimize renewable energy systems, such as solar thermal systems, geothermal systems, and biomass conversion.
Applied thermodynamics requires a deep understanding of the fundamental concepts of thermodynamics and their practical application to engineering systems. Engineers in various disciplines use applied thermodynamics to make informed decisions about system design, operation, and optimization, with the goal of achieving improved efficiency, performance, and sustainability.
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