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단행본Progres in Green Energy

Green Energy: Basic Concepts and Fundamentals

발행사항
New York : Springer, 2011
형태사항
xvi,286p. : ill.(some col.) ; 24cm
소장정보
위치등록번호청구기호 / 출력상태반납예정일
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Green Energy: Basic Concepts and Fundamentals addresses the need for diversity within energy systems. It focuses on the theme of energy diversity with local resources, and the integration and optimisation of conventional and alternative energy systems. The book provides a summary of the state-of-art knowledge and technology for future energy systems, covering topics such as:

? green energy carriers;

? emission control, reduction, and abatement;

? energy conversation and management; and

? energy environment interaction.

This first book in the Progress in Green Energy series will be of value to energy researchers, technology developers and professionals from policy makers to engineers, as well as to advanced undergraduate and postgraduates studying in the field.



The first in a series exploring the evolution of green energy systems for sustainable development and energy security, this book covers energy diversity with local resources and the integration and optimization of conventional and alternative energy systems.



The Progress in Green Energy series explores the evolution of green energy systems for sustainable development and energy security. It focuses on the development of new technologies which enable the provision of energy with minimal negative effects on society and the environment. Progress in Green Energy is a monograph series, which aims to provide up-to-date information for researchers, engineers, and advanced students.

The dominance or monopoly of a single energy system can provide a cumulative impact on a particular aspect of the environment, leading eventually to permanent damage or even catastrophe. Green Energy: Basic Concepts and Fundamentals addresses the need for diversity within energy systems. Although every energy system, including renewables and alternative fuels, has its own unique adverse impact, the impact need not be additive and cumulative. By using a diverse range of energy systems which exploit local energy resources, the energy need can be met without any negative impact beyond the tolerance limit of the environment. Additionally, energy diversity can withstand the fluctuations and disturbances in energy need, benefiting social and economic health in the process.

Green Energy: Basic Concepts and Fundamentals focuses on the theme of energy diversity with local resources, and the integration and optimisation of conventional and alternative energy systems. The book provides a summary of the state-of-art knowledge and technology for future energy systems, covering topics such as:

? green energy carriers;

? emission control, reduction, and abatement;

? energy conversation and management; and

? energy environment interaction.

This first book in the Progress in Green Energy series will be of value to energy researchers, technology developers and professionals from policy makers to engineers, as well as to advanced undergraduate and postgraduates studying in the field.



New feature

The Progress in Green Energy series explores the evolution of green energy systems for sustainable development and energy security. It focuses on the development of new technologies which enable the provision of energy with minimal negative effects on society and the environment. Progress in Green Energy is a monograph series, which aims to provide up-to-date information for researchers, engineers, and advanced students.

The dominance or monopoly of a single energy system can provide a cumulative impact on a particular aspect of the environment, leading eventually to permanent damage or even catastrophe. Green Energy: Basic Concepts and Fundamentals addresses the need for diversity within energy systems. Although every energy system, including renewables and alternative fuels, has its own unique adverse impact, the impact need not be additive and cumulative. By using a diverse range of energy systems which exploit local energy resources, the energy need can be met without any negative impact beyond the tolerance limit of the environment. Additionally, energy diversity can withstand the fluctuations and disturbances in energy need, benefiting social and economic health in the process.

Green Energy: Basic Concepts and Fundamentals focuses on the theme of energy diversity with local resources, and the integration and optimisation of conventional and alternative energy systems. The book provides a summary of the state-of-art knowledge and technology for future energy systems, covering topics such as:

? green energy carriers;

? emission control, reduction, and abatement;

? energy conversation and management; and

? energy environment interaction.

This first book in the Progress in Green Energy series will be of value to energy researchers, technology developers and professionals from policy makers to engineers, as well as to advanced undergraduate and postgraduates studying in the field.



목차
1. Green Energy for Sustainability and Energy Security 1.1 Introduction 1.2 Energy Systems: Their Composition 1.3 Energy Systems: Their Adverse Impacts 1.4 Energy Systems: The Dilemma 1.5 Green Energy and Sustainability: The Target and Solution 1.6 Diversification and Localization of Energy Systems: A Means to Sustainability and energy Security 1.7 Summary and Outlook References 2. Exergy Analysis of Green Energy Systems 2.1 Introduction 2.2 Green Energy and Sustianable Development 2.3 Why Use Exergy Analysis? 2.4 Energy and Exergy Analysis 2.5 Case Study 1: Exergy Analysis of Solar Ponds 2.6 Case Study 2: Exergy Analysis of Wind Energy Systems 2.7 Closing Remarks References 3. Wind Speed Distribution - A Theoretical Approach to Probability Density Function 3.1 Introduction 3.2 Analysis of the Wind Speed Data 3.3 Empirical and Continuous Wind Speed Distribution Functions 3.4 Maximum Entropy Principle - A Theoretical Approach 3.5 MEP-based Wind Speed Distribution 3.6 MEP-type Wind Speed Distribution 3.7 Summary and Outlook References 4. Co-combustion and Gasification of Coal and Cattle Biomass: a Review of Research and Experimentation 4.1 Introduction 4.2 Background Information 4.3 Energy Conversion of Cattle Biomass 4.4 Summary 4.5 Notation Acknowledgments References 5. Polymer Electrolyte Fuel Cell Modeling - a Pore-scale Perspective 5.1 Introduction 5.2 Pore-scale Modeling 5.3 Microstructure Reconstruction 5.4 Two-phase Transport in the PEFCCL and GDL 5.5 Evaluation of Capillary Pressure-Saturation Relation 5.6 Evaluation of Relative Permeability-Saturation Relation 5.7 Effect of Liquid Water on CL and GDL Performance 5.8 Summary and Outlook Acknowledgments References 6. Nanostructured Hydrides for Solid State Hydrogen Storage for Vehicular Applications 6.1 Introduction 6.2 Thermodynamics 6.3 Nanoprocessing of Solid State Hydrides by Ball Milling 6.4 High Capacity Hydrides 6.5 Summary and Conclusions References