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Principles of Engineering Thermodynamics, SI Edition John Reisel (University of Wisconsin, Milwaukee)

Principles of Engineering Thermodynamics, SI Edition By John Reisel (University of Wisconsin, Milwaukee)

Principles of Engineering Thermodynamics, SI Edition by John Reisel (University of Wisconsin, Milwaukee)

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Principles of Engineering Thermodynamics, SI Edition Summary

Principles of Engineering Thermodynamics, SI Edition by John Reisel (University of Wisconsin, Milwaukee)

Master the fundamentals of thermodynamics and learn how to apply these skills in engineering practice today with Reisel's PRINCIPLES OF ENGINEERING THERMODYNAMICS, SI, 2nd Edition. This edition's informal, first-person writing style helps make abstract concepts easier to understand. In addition to mastering fundamental principles and applications, you explore the impact of different system parameters on the performance of devices and processes. For example, you study how changing outlet pressure in a turbine changes the power produced or how the power requirement of a compressor varies with inlet temperature. This unique approach strengthens your understanding of how different components of thermodynamics interrelate, while demonstrating how you will use thermodynamics in your engineering career. You also learn to develop computer-based models of devices, processes and cycles as well as use internet-based programs and computer apps to find thermodynamic data, exactly like today's practicing engineers.

About John Reisel (University of Wisconsin, Milwaukee)

John R. Reisel serves as professor at University of Wisconsin, Milwaukee, where he teaches undergraduate courses in thermodynamics and graduate courses in advanced engineering thermodynamics. Dr. Reisel holds a Ph.D. from Purdue University. The author of many refereed articles published in peer-reviewed journals, Dr. Reisel is a member of the American Society for Engineering Education and a recipient of the UWM Distinguished Undergraduate Teaching Award. He is also a registered professional engineer in the state of Wisconsin.

Table of Contents

1. INTRODUCTION TO THERMODYNAMICS AND ENERGY. Basic Concepts: Systems, Processes, and Properties. An Introduction to Some Common Properties. Zeroth Law of Thermodynamics. Phases of Matter. Summary. 2. THE NATURE OF ENERGY. What is Energy? Types of Energy. Transport of Energy. Heat Transfer. Work Transfer. Energy Transfer via Mass Transfer. Analyzing Thermodynamics Systems and Processes. Platform for Performing Thermodynamics Analysis. Summary. 3. THERMODYNAMIC PROPERTIES AND EQUATIONS OF STATE. Phase Diagrams. The State Postulate. Internal Energy, Enthalpy and Specific Heats. Equations of State for Ideal Gases. Incompressible Substances. Property Determination for Water and Refrigerants. Summary. 4. THE FIRST LAW OF THERMODYNAMICS. Conservation of Mass. First Law of Thermodynamics in Open Systems. First Law of Thermodynamics in Closed Systems. Thermal Efficiency of Heat Engines, Refrigerators, and Heat Pumps. Summary. 5. INTRODUCTION TO THE SECOND LAW OF THERMODYNAMICS. The Nature of the Second Law of Thermodynamics. Summary of Some Uses of the Second Law. Classical Statements of the Second Law. Reversible and Irreversible Processes. A Thermodynamic Temperature Scale. Carnot Efficiencies. Perpetual Motion Machines. 6. ENTROPY. Entropy and the Clausius Inequality. Entropy Generation. Evaluating Changes in the Entropy of a System. The Entropy Balance. Isentropic Efficiencies. Consistency of Entropy Analyses. Entropy Generation and Irreversibility. Summary. 7. POWER CYCLES. Introduction. The Ideal Carnot Power Cycle. The Rankine Cycle. Gas (Air) Power Cycles and Air Standard Cycle analysis. Brayton Cycle. Otto Cycle. Diesel Cycle. Dual Cycle. Atkinson/Miller Cycle. Summary. 8. REFRIGERATION CYCLES. Introduction. The Vapor-Compression Refrigeration Cycle. Absorption Refrigeration. Reversed Brayton Refrigeration Cycle. Summary. 9. IDEAL GAS MIXTURES. Introduction. Defining the Composition of a Gas Mixture. Ideal Gas Mixtures. Solutions of Thermodynamics Problems Incorporating Ideal Gas Mixtures. Introduction to Real Gas Mixture Behavior. Summary. 10. PSYCHROMETRICS: THE STUDY OF ATMOSPHERIC AIR. Introduction. Basic Concepts and Terminology of Psychrometrics. Methods of Determining Humidity. Comfort Conditions. Cooling and Dehumidifying of Moist Air. Combining the Cooling and Dehumidifying Process with Refrigeration Cycles. Heating and Humidifying Air. Mixing of Moist Air Streams. Cooling Tower Applications. Summary. 11. COMBUSTION ANALYSIS. Introduction. The Components of the Combustion Process. A Brief Description of the Combustion Process. Balancing Combustion Reactions. Methods of Characterizing the Reactant Mixture. Determination of Reactants from Known Products. Enthalpy of a Compound and the Enthalpy of Formation. Further Description of the Combustion Process. Heat of Reaction. Adiabatic Flame Temperature. Entropy Balance for Combustion Processes. The Gibbs Function. Fuel Cells. Introduction to Chemical Equilibrium. The Water-Gas Shift Reaction and Rich Combustion. Summary and the Limitations of Combustion Analysis.

Additional information

NPB9780357111796
9780357111796
0357111796
Principles of Engineering Thermodynamics, SI Edition by John Reisel (University of Wisconsin, Milwaukee)
John Reisel (University of Wisconsin, Milwaukee)
New
Paperback
Cengage Learning, Inc
2021-02-22
576
N/A
Book picture is for illustrative purposes only, actual binding, cover or edition may vary.
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