Textbook

Alternative Energy Systems

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This new text presents an engineering-oriented discussion of alternative energy sources and uses by one of the best-known names in this growing field. The author presents the key concepts concisely with strong supporting examples and technical content. Extensive use of illustrations and photos helps motivate students to learn the material.

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Table of Contents

1. Energy in the United States.

1.1 Energy and Power.

1.2 Energy Usage and Standard of Living.

1.3 A Historical Perspective of Energy Usage in the United States.

1.4 United States Energy Usage in 2007.

1.5 Worldwide Energy Use.

1.6 Efficiencies.

1.7 Closure.

Review Questions.

References.

2. Fundamentals of Turbomachinery.

2.1 Definition of a Turbomachine.

2.2 Turbomachine Classifications.

2.3 Turbomachine Aanalysis.

2.4 Example Problems.

2.5 Closure.

Review Questions.

Exercises.

References.

3. Hydropower.

3.1 Introduction.

3.2 Examples of Hydroelectric Dams.

3.3 Hydraulic Analysis.

3.4 Turbine Specific Speed Considerations.

3.5 Energy Transfer in Turbines.

3.6 Closure.

Review Questions.

Exercises.

References.

4. Wind Energy.

4.1 Introduction.

4.2 Fundamental Concepts.

4.3 Wind Energy Resources.

4.4 Wind Turbine Operation.

4.5 Commercial Wind Turbine Examples.

4.6 Closure.

Review Questions.

Exercises.

References.

5. Combustion Turbines.

5.1 Introduction.

5.2 The Combustion Turbine.

5.3 The Air-Standard Brayton Cycle.

5.4 Actual Gas Turbine Cycle Analysis.

5.5 Combustion Turbine Cycle Variations.

5.6 Examples of Commercially Available Combustion Turbines.

5.7 Closure.

Review Questions.

Exercises.

References.

6. Solar Energy Fundamentals.

6.1 Introduction.

6.2 Radiation Heat Transfer Review.

6.3 Sun Path Description and Calculation.

6.4 Sun Path Development Using Mathcad.

6.5 The Solar Energy Database.

6.6 Closure.

Review Questions.

Exercises.

References.

7. Active Solar Thermal Applications.

7.1 Introduction.

7.2 Flat-Plate Collector Fundamentals.

7.3 Solar Collector and Weather Data.

7.4 The f -Chart Method.

7.5 Other Solar Thermal Systems.

7.6 Closure.

Review Questions.

Exercises.

References.

Appendix A.

8. Passive Solar Energy.

8.1 Fundamental Concepts of Passive Solar Energy.

8.2 Quantifying Passive Solar Features.

8.3 The First-Level Method or Rules of Thumb.

8.4 The Second-Level Method (LCR Method).

8.5 Daylighting.

8.6 Passive Solar Software.

8.7 Closure.

Review Questions.

Exercises.

References.

Appendix A.

9. Photovoltaic Systems.

9.1 Introduction.

9.2 Photovoltaic Cell Fundamentals.

9.3 Photovoltaic Components.

9.4 Photovoltaic Systems.

9.5 Closure.

Review Questions.

Exercises.

References.

10. Fuel Cells.

10.1 Introduction.

10.2 Fuel Cell Fundamentals.

10.3 Fuel Cell Thermodynamics Fundamentals.

10.4 Fuel Cell Types.

10.5 Fuel Cell Availability.

10.6 Closure.

Review Questions.

Exercises.

References.

11. Combined Heat and Power (CHP) Systems.

11.1 Introduction.

11.2 CHP System Fundamentals.

11.3 CHP System Economics and Operation.

11.4 Economic Assessment of CHP Suitability.

11.5 CHP System Example.

11.6 Closure.

Review Questions.

Exercises.

References.

12. Biomass.

12.1 Introduction.

12.2 Biomass Availability.

12.3 Biomass Fundamentals.

12.4 Biomass Characteristics.

12.5 Biomass Based Fuels and Products

12.6 Municipal Solid Waste (MSW).

12.7 Closure.

Review Questions.

Exercises.

References.

13. Geothermal Energy.

13.1 Introduction.

13.2 Geothermal Resources.

13.3 Geothermal Energy Systems.

13.4 Geothermal Examples.

13.5 Ground-Source Heat Pumps.

13.6 Closure.

Review Questions.

Exercises.

References.

14. Ocean Energy.

14.1 Introduction.

14.2 Ocean Thermal Energy Conversion (OTEC).

14.3 Tidal Energy

14.4 Wave Energy.

14.5 Closure.

Review Questions.

Exercises.

References.

15. Nuclear Energy.

15.1 Introduction.

15.2 Fundamentals of Nuclear Energy.

15.3 Nuclear Power.

15.4 Fusion Power.

15.5 Closure.

Review Questions.

Exercises.

References.

Hallmark Features

This text is suitable for use at the senior or beginning graduate level for students in mechanical engineering or in energy-engineering related fields.Familiarity with the basic concepts of fluid mechanics, thermodynamics and, heat transfer are presumed in the development of the topics, but maturity in these subjects is not needed in order to understand the developments.

Hodge presents the topics to encompass both alternative energy sources and alternative uses of existing energy sources because the solution to the current energy dilemma will contain features of both.

An instructor's solutions manual will be available in July of 2009.