Free PDF Download: Thermal Design and Optimization by Bejan, Moran and Tsatsaronis - The Ultimate Resource for Engineers
Thermal Design and Optimization: A Comprehensive Guide by Bejan, Moran and Tsatsaronis (Free PDF Download)
If you are looking for a book that covers the latest methodologies for the design of thermal systems, you should check out Thermal Design and Optimization by Bejan, Moran and Tsatsaronis. This book offers a lucid introduction to thermodynamics, heat transfer, fluid mechanics, engineering economics, system simulation, and optimization techniques as they are applied to thermal system design. You will learn how to use exergy analysis, entropy generation minimization, and thermoeconomics to achieve improved efficiency, cost effectiveness, and sustainability in various applications.
Thermal Design And Optimization Bejan Moran Tsatsaronis Pdf Free Download.63
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In this article, we will give you a brief overview of the main topics covered in the book and show you how to download it for free in PDF format.
Introduction to Thermal System Design
The first chapter of the book introduces the basic concepts and principles of thermal system design, such as design objectives, design variables, constraints, performance criteria, optimization methods, and design tools. It also discusses the role of thermodynamics in thermal system design and presents some examples of thermal systems.
Thermodynamics, Modeling, and Design Analysis
The second chapter reviews the fundamentals of thermodynamics, such as the first and second laws, properties of pure substances and mixtures, thermodynamic cycles, and reversible and irreversible processes. It also explains how to model thermal systems using energy and mass balances, state equations, and process diagrams. It then shows how to perform design analysis using energy efficiency, exergy efficiency, entropy generation rate, and irreversibility rate as performance measures.
Exergy Analysis
The third chapter introduces the concept of exergy as a measure of the quality or usefulness of energy. It derives the general exergy balance equation for open and closed systems and shows how to calculate the exergy of various forms of energy and matter. It also discusses the sources and types of exergy destruction in thermal systems and how to reduce them using entropy generation minimization techniques.
Heat Transfer, Modeling, and Design Analysis
The fourth chapter reviews the fundamentals of heat transfer, such as the modes of heat transfer (conduction, convection, radiation), heat transfer coefficients, heat exchangers, fins, and thermal insulation. It also explains how to model heat transfer processes using thermal resistances, thermal networks, and numerical methods. It then shows how to perform design analysis using heat transfer effectiveness, heat transfer rate, heat duty, pressure drop, pumping power, and overall cost as performance measures.
Applications with Heat and Fluid Flow
The fifth chapter presents some applications of thermal system design that involve heat and fluid flow, such as power plants, refrigeration systems, heat pumps, air conditioning systems, and cooling towers. It illustrates how to model, analyze, and optimize these systems using thermodynamic, heat transfer, and fluid mechanics principles. It also introduces some advanced topics, such as pinch analysis, combined heat and power systems, and absorption refrigeration systems.
Applications with Thermodynamics and Heat and Fluid Flow
The sixth chapter presents some applications of thermal system design that involve both thermodynamics and heat and fluid flow, such as combustion systems, gas turbines, steam turbines, jet engines, rocket engines, and fuel cells. It explains how to model, analyze, and optimize these systems using thermodynamic cycles, chemical reactions, combustion analysis, and exergy analysis. It also introduces some advanced topics, such as cogeneration systems, combined cycles, and hybrid systems.
Economic Analysis
The seventh chapter introduces the concepts and methods of economic analysis for thermal system design, such as interest rates, present worth, annual worth, rate of return, payback period, life cycle cost, and cost-benefit analysis. It also discusses the effects of inflation, taxes, depreciation, and uncertainty on economic evaluation. It then shows how to perform economic analysis for different types of projects, such as single alternatives, mutually exclusive alternatives, and independent alternatives.
Thermoeconomic Analysis and Evaluation
The eighth chapter introduces the concepts and methods of thermoeconomic analysis for thermal system design, which combines thermodynamics and economics to evaluate the performance and cost of thermal systems. It explains how to define thermoeconomic variables, such as exergy cost, exergy revenue, exergy loss, and exergy profit. It also explains how to perform thermoeconomic analysis using different approaches, such as the specific exergy costing method, the functional diagram method, and the structural theory method.
Thermoeconomic Optimization
The ninth chapter introduces the concepts and methods of thermoeconomic optimization for thermal system design, which combines thermodynamics, economics, and optimization techniques to find the optimal design of thermal systems. It explains how to formulate thermoeconomic optimization problems using objective functions, design variables, constraints, and sensitivity analysis. It also explains how to solve thermoeconomic optimization problems using different methods, such as mathematical programming, heuristic algorithms, and artificial intelligence techniques.
Appendices
The appendices provide some useful information and data for thermal system design, such as thermodynamic properties of pure substances and mixtures, heat transfer correlations and data, fluid mechanics correlations and data, economic factors and data, and software tools and resources.
Conclusion
In this article, we have given you a brief overview of the main topics covered in the book Thermal Design and Optimization by Bejan, Moran and Tsatsaronis. This book is a comprehensive and rigorous introduction to thermal system design from a contemporary perspective that emphasizes engineering economics, system simulation, and optimization methods. The book covers the fundamentals of thermodynamics, heat transfer, and fluid mechanics as well as the applications of thermal system design in various fields. The book also introduces the methods of exergy analysis, entropy generation minimization, and thermoeconomics as tools for improving the efficiency, cost effectiveness, and sustainability of thermal systems. The book is suitable for engineering students, practicing engineers, and technical managers who want to learn the latest methodologies for the design of thermal systems.
If you are interested in reading this book, you can download it for free in PDF format from the link below. We hope you find this book useful and informative.
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