Корично изображение Електронна книга

Handbook of sustainable energy /

Други автори: Lee, W. H., Cho, V. G.
Формат: Електронна книга
Език: English
Публикувано: New York : Nova Science Publishers, ℗♭2010.
Серия: Energy science, engineering and technology series.
Предмети:
Renewable energy sources > Handbooks, manuals, etc.
Energy development > Handbooks, manuals, etc.
Sustainable development > Handbooks, manuals, etc.
TECHNOLOGY & ENGINEERING > Power Resources > General.
BUSINESS & ECONOMICS > Industries > Energy.
SCIENCE > Energy.
Energy development.
Renewable energy sources.
Sustainable development.
Electronic books.
Handbooks and manuals.
Онлайн достъп: http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=339866
Подобни документи: Print version:: Handbook of sustainable energy.
Съдържание:
  • ""HANDBOOK OF SUSTAINABLE ENERGY""; ""HANDBOOK OF SUSTAINABLE ENERGY""; ""LIBRARY OF CONGRESS CATALOGING-IN-PUBLICATION DATA""; ""CONTENTS""; ""PREFACE""; ""Chapter 1: DESIGN OF A STAND-ALONE POWER SYSTEM USING RENEWABLE ENERGY SOURCES AND LONG-TERM HYDROGEN STORAGE""; ""1. System Objectives""; ""1.1. Introduction""; ""2. Description and Mathematical Models for System Units""; ""2.1. System Description""; ""2.1.1. Photovoltaic System""; ""2.1.2. Wind Generators""; ""2.1.3. Batteries""; ""2.1.4. Electrolyzers""; ""2.1.5. Hydrogen Storage""; ""2.1.6. Fuel Cells""
  • ""2.1.7. Power Electronic Converters""""2.2. Mathematical Models""; ""2.2.1. Photovoltaic System (PV-System)""; ""2.2.2. Wind Generator""; ""2.2.3. Lead-Acid accumulator (Battery)""; ""2.2.4. Polymer Electrolyte Membrane (PEM) Electrolyzer""; ""2.2.5. Medium Pressure Hydrogen Storage (H2-Storage)""; ""2.2.6. PEM Fuel Cell""; ""2.3. Description of Operating Strategies""; ""2.3.1. Main Power Flows""; ""2.3.2. Power Management Strategies""; ""2.3.3. Parametric Sensitivity Studies""; ""3. Integration â€? System Architecture""; ""3.1. System Architecture""; ""3.2. Basic Technical Data""
  • ""3.3. Actual System Integration""""3.3.1. Electrical System""; ""3.3.2 Electrochemical System and Power Backup""; ""3.4. Monitoring and Control""; ""3.5. Technical Challenges (Protocol Integration)""; ""3.6. Automated Procedure""; ""4. Optimization""; ""4.1. Operating Decisions in the Integrated Power System""; ""4.2. Conventional and Optimization-Based Engineering Design""; ""4.3. The Optimization Problem Formulation Sequence""; ""4.3.1. Model Development""; ""4.3.2. Design Variables""; ""4.3.3. Objective Function""; ""4.3.4. Constraints""; ""4.3.5. Optimization Methods""
  • ""4.4. Example of Optimization Problem Formulation for the Integrated PowerSystem""""4.4.1. Problem Formulation""; ""4.4.2. Design Variables and Constraints""; ""4.4.3. Objective Function""; ""4.4.4. Optimization Method""; ""4. Epilogue""; ""References""; ""Chapter 2: BIORESOURCE-BASED ENERGYFOR SUSTAINABLE SOCIETIES""; ""Abstract""; ""1. Sustainable Energy and Sustainable Societies""; ""2. Indicators of Ecosystem Complexity and Sustainable Energy Consumption""; ""2.1. Assessment of Sustainable Energy Using Life-Cycle Assessment""; ""2.2. Indicators of Energy Sustainability""
  • ""2.2.1. Energy Choices Based on the Energy Return Ratio""""2.2.2. Environmental and Social Metrics""; ""2.2.2.1. Land Conversion""; ""2.2.2.2. Fossil Carbon Emissions""; ""2.2.2.3. Chemical Pollution From Energy Production and Use""; ""3. Renewable Energy Resources:Indigenous Communities and Rural Societies""; ""3.1. Biomass""; ""3.2. Wind""; ""3.3. Solar""; ""3.4. LCA Indicators for Fossil Fuels and Renewable Energy Resources""; ""4. Social and Cultural Factors in the Consideration of Energy Resource Selection""; ""4.1. Sustainable Societies Do not Equate to Sustainable Energy Production""

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