Introduction to Energy Systems

Introduction to Energy Systems

An in-depth introduction to applications and analysis of energy systems, covering both renewable and traditional types of energy systems

In Introduction to Energy Systems, the content is uniquely designed to cover comprehensive descriptions and assessments of all the key types of energy sources, including fossil fuels-based, nuclear, and renewable energy systems, with a special focus on their design, analysis and assessment, technical and operational aspects, and applications. As a comprehensive resource, the work also introduces many topics not typically covered in other energy system textbooks, such as system design and assessment through exergy, environmental impact assessment of energy systems, and life cycle assessment. From a theory standpoint, the book provides context on the importance of energy and the issues related to energy we face in our world today, with close attention paid to key environmental and sustainability issues. Furthermore, the book includes illustrative examples and problems, and case studies. To aid in seamless reader comprehension, helpful questions and problems are included at the end of each chapter.

Sample topics covered in Introduction to Energy Systems include:

• Fundamental concepts and thermodynamic principles, traditional and innovative systems, and detailed applications in renewable energy systems, including solar, wind, geothermal, biomass, hydro, and marine energies
• Different types of fuels used in energy systems today, discussions of their combustion characteristics with a clear analysis of each one, and analyses and assessments through energy and exergy approaches
• Industrial ecology and life cycle assessment, with the intention of clearly assessing the environmental impacts of energy systems
• How to write balance equations for mass, energy, entropy and exergy, calculate the required capacities, and find the energy and exergy efficiencies and/or energetic and exegetics coefficient of performance values

Introduction to Energy Systems serves as a valuable learning resource for both undergraduate and graduate students studying courses, such as Introduction to Energy Systems, Energy System Design, Renewable Energy, Energy & Sustainability, and Fundamentals of Renewable Energy.

Auteur

Ibrahim Dincer is a Professor of Mechanical Engineering at the Ontario Tech. University in Oshawa, Ontario, Canada, where he teaches courses on Energy Systems, Heat Transfer, and Thermodynamics. He is a leading researcher in sustainable energy technologies, and his achievements have been recognized through numerous teachings, research, and service awards. Dogan Erdemir is a senior researcher at the Clean Energy Research Laboratory at Ontario Tech. University in Canada. He is an expert on renewable energy systems, hydrogen technologies from production to utilization, ammonia energy technologies, sustainable energy systems, and energy storage techniques.

Texte du rabat

Introduction to Energy Systems An in-depth introduction to applications and analysis of energy systems, covering both renewable and traditional types of energy systems In Introduction to Energy Systems, the content is uniquely designed to cover comprehensive descriptions and assessments of all the key types of energy sources, including fossil fuels-based, nuclear, and renewable energy systems, with a special focus on their design, analysis and assessment, technical and operational aspects, and applications. As a comprehensive resource, the work also introduces many topics not typically covered in other energy system textbooks, such as system design and assessment through exergy, environmental impact assessment of energy systems, and life cycle assessment. From a theory standpoint, the book provides context on the importance of energy and the issues related to energy we face in our world today, with close attention paid to key environmental and sustainability issues. Furthermore, the book includes illustrative examples and problems, and case studies. To aid in seamless reader comprehension, helpful questions and problems are included at the end of each chapter. Sample topics covered in Introduction to Energy Systems include: Fundamental concepts and thermodynamic principles, traditional and innovative systems, and detailed applications in renewable energy systems, including solar, wind, geothermal, biomass, hydro, and marine energies Different types of fuels used in energy systems today, discussions of their combustion characteristics with a clear analysis of each one, and analyses and assessments through energy and exergy approaches Industrial ecology and life cycle assessment, with the intention of clearly assessing the environmental impacts of energy systems How to write balance equations for mass, energy, entropy and exergy, calculate the required capacities, and find the energy and exergy efficiencies and/or energetic and exegetics coefficient of performance values Introduction to Energy Systems serves as a valuable learning resource for both undergraduate and graduate students studying courses, such as Introduction to Energy Systems, Energy System Design, Renewable Energy, Energy & Sustainability, and Fundamentals of Renewable Energy.

Contenu

Preface xi

Nomenclature xiii

About the Companion Website xvii

1 Energy and Environment Perspectives 1

1.1 Introduction 1

1.2 Importance of Energy 3

1.3 Energy Issues 4

1.4 Environmental Issues 5

1.5 Smart Solutions 8

1.6 3S Concept 10

1.7 Role of Engineering 11

1.8 Life Cycle Assessment 12

1.9 Industrial Ecology 17

1.10 Energy Labeling 18

1.11 Closing Remarks 22

2 Energy Sources and Sustainability 25

2.1 Introduction 25

2.2 Three Key Points 27

2.3 Five Major Economic Drivers 28

2.4 Historical Perspectives 29

2.5 Exponential Growth in Energy Dynamics 30

2.6 Energy Intensity 36

2.7 Dimensions of Sustainability 39

2.8 Sustainable Development 45

2.9 Closing Remarks 51

3 System Analysis 55

3.1 Introduction 55

3.2 Zeroth and Third Laws of Thermodynamics 58

3.3 First Law of Thermodynamics 59

3.4 Second Law of Thermodynamics 59

3.5 Six-Step in System Analysis 60

3.6 Closed Systems 61

3.7 Open Systems 68

3.8 Performance Assessment 77

3.9 Closing Remarks 82

4 Fuels and Combustion 85

4.1 Introduction 85

4.2 Fossil Fuels 87

4.3 Impacts of Fossil Fuels 92

4.4 Combustion of Fuels 96

4.5 Thermodynamic Analysis of Combustion 103

4.6 Closing Remarks 112

5 Nuclear Energy 117

5.1 Introduction 117

5.2 Historical Perspectives 119

5.3 Types of Nuclear Energy 121

5.4 Types of Nuclear Radiation and Potential Effects 123

5.5 Nuclear Fuels and Production 124

5.6 Types of Nuclear Reactors 128

5.7 Nuclear Power Production 133

5.8 Small Modular Reactors and Their Utilization 142

5.9 Nuclear Cogeneration 143

5.10 Nuclear Hydrogen Production 147

5.11 Integrated Nuclear Energy Systems for Communities 153

5.12 Closing Remarks 160

6 Solar Energy 165

6.1 Introduction 165

6.2 Atmospheric and Direct Solar Radiation 168

6.3 Solar Energy Applications 176

6.4 Solar Thermal Systems 179

6.5 Solar PV Systems 194

6.6 Photovoltaic Thermal Hybrid Solar Panels (PVTs) 198

6.7 Closing Remarks 202

7 Wind Energy 209

7.1 Introduction 209

7.2 Historical Development of Wind Energy 212

7.3 Wind Effect and Global Wind Patterns 212

7.4 Wind Power 214

7.5 Classification of Wind Turbines 216

7.6 Horizontal-Axis Wind Turbines 217

7.7 Vertical-Axis Wind Turbines 227

7.8 Offshore and Onshore Types of Wind Energy 230

7.9 Case Studies 231

7.10 Energy and Exergy Maps for Wind Energy Systems 237

7.11 Closing Remarks 241

8 Geothermal Energy 245

8.1 Introduction 245

8.2 Geothermal Resources 248

8.3 Advantag…