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• catalog abstract "Electric power in OECD countries is mostly produced by large central generating stations, then transmitted along high voltage lines to local distribution systems that carry it to final consumers. Distributed generation plants are different. They produce power on an electricity consumer’s own site or at the local distribution substation and can supply power directly to the customer or to the local distribution network. Distributed generation technologies include engines, small turbines, fuel cells, and photovoltaic systems. Distributed generation technologies are already having a large impact, particularly for high- reliability applications, as a source of emergency capacity or as a way of deferring the expansion of a local network. In some markets, these plants are displacing more costly grid electricity. Globally, more capacity for distributed generation was ordered in 2000 than for nuclear power. This book provides a guide to energy policy makers on this growing phenomenon. It surveys the current situation and market status of distributed generation in selected OECD countries, including the impact of current energy policies.".
• catalog contributor b12552018.
• catalog contributor b12552019.
• catalog created "c2002.".
• catalog date "2002".
• catalog date "c2002.".
• catalog dateCopyrighted "c2002.".
• catalog description "Chapter 1 Introduction -- Chapter 2 Distributed Generation Technologies -- Chapter 3 Economics of Distributed Generation -- Chapter 4 Distributed generation in Japan, United States, Netherlands and the United Kingdom -- Chapter 5 Policy Issues -- Chapter 6 Future of Distributed Generation -- Chapter 7 Conclusions and Recommendations -- Annex I Comparing Energy Consumption and Emissions from On-site CHP and Conventional Heat and Power Generation -- List of Tables -- Table 1 Distributed Generation Technology Data -- Table 2 Indicative Costs for Various Distributed Generation Technologies -- Table 3 Capital Costs and Efficiencies of CHP technologies -- Table 4 European Union CHP 1998 -- Table 5 Cost of a one-hour power outage for different US businesses -- Table 6 Economics of Gas CHP in Japan -- Table 7 Cogeneration System Capacity by Sector and Generator Type (MW) -- Table 8 Comparison of Distributed Generation Issues in Japan, United States, the Netherlands, and United Kingdom -- Table 9 Estimates of "Embedded Benefit" to UK Embedded (Distributed) Generators ($/MWh) -- Table 10 New South Wales (Australia) Distribution Loss factors -- Table 11 Japanese NOx limits Applicable to Cogeneration Systems -- List of Figures -- Figure 1 Distributed Generation and Energy Storage in an Electricity Network -- Figure 2 Ratio of Industrial Natural Gas/Electricity Prices in Selected Countries -- Figure 3 Ratio of Household Natural Gas/Electricity Prices in Selected Countries -- Figure 4 Comparison of PV Costs/Output to Household Electricity Rates in Selected OECD Countries -- Figure 5 NOx Emissions from Distributed generation Technologies (kg/MWh) -- Figure 6 CO2 Emissions from Distributed Generation Technologies (kg/MWh)".
• catalog description "Electric power in OECD countries is mostly produced by large central generating stations, then transmitted along high voltage lines to local distribution systems that carry it to final consumers. Distributed generation plants are different. They produce power on an electricity consumer’s own site or at the local distribution substation and can supply power directly to the customer or to the local distribution network. Distributed generation technologies include engines, small turbines, fuel cells, and photovoltaic systems. Distributed generation technologies are already having a large impact, particularly for high- reliability applications, as a source of emergency capacity or as a way of deferring the expansion of a local network. In some markets, these plants are displacing more costly grid electricity. Globally, more capacity for distributed generation was ordered in 2000 than for nuclear power. This book provides a guide to energy policy makers on this growing phenomenon. It surveys the current situation and market status of distributed generation in selected OECD countries, including the impact of current energy policies.".
• catalog description "Includes bibliographical references (p. 119-125).".
• catalog extent "125 p. :".
• catalog hasFormat "Distributed generation in liberalised electricity markets.".
• catalog identifier "9264198024".
• catalog isFormatOf "Distributed generation in liberalised electricity markets.".
• catalog issued "2002".
• catalog issued "c2002.".
• catalog language "eng".
• catalog publisher "Paris, France : OECD/IEA,".
• catalog relation "Distributed generation in liberalised electricity markets.".
• catalog spatial "OECD countries.".
• catalog subject "Distributed generation of electric power OECD countries.".
• catalog subject "Electric power Economic aspects OECD countries.".
• catalog subject "Electricity Economic aspects OECD countries.".
• catalog subject "Energy consumption Economic aspects.".
• catalog subject "Energy policy Economic aspects.".
• catalog subject "HD9685.O742 D57 2002".
• catalog subject "Power resources Economic aspects.".
• catalog tableOfContents "Chapter 1 Introduction -- Chapter 2 Distributed Generation Technologies -- Chapter 3 Economics of Distributed Generation -- Chapter 4 Distributed generation in Japan, United States, Netherlands and the United Kingdom -- Chapter 5 Policy Issues -- Chapter 6 Future of Distributed Generation -- Chapter 7 Conclusions and Recommendations -- Annex I Comparing Energy Consumption and Emissions from On-site CHP and Conventional Heat and Power Generation -- List of Tables -- Table 1 Distributed Generation Technology Data -- Table 2 Indicative Costs for Various Distributed Generation Technologies -- Table 3 Capital Costs and Efficiencies of CHP technologies -- Table 4 European Union CHP 1998 -- Table 5 Cost of a one-hour power outage for different US businesses -- Table 6 Economics of Gas CHP in Japan -- Table 7 Cogeneration System Capacity by Sector and Generator Type (MW) -- Table 8 Comparison of Distributed Generation Issues in Japan, United States, the Netherlands, and United Kingdom -- Table 9 Estimates of "Embedded Benefit" to UK Embedded (Distributed) Generators ($/MWh) -- Table 10 New South Wales (Australia) Distribution Loss factors -- Table 11 Japanese NOx limits Applicable to Cogeneration Systems -- List of Figures -- Figure 1 Distributed Generation and Energy Storage in an Electricity Network -- Figure 2 Ratio of Industrial Natural Gas/Electricity Prices in Selected Countries -- Figure 3 Ratio of Household Natural Gas/Electricity Prices in Selected Countries -- Figure 4 Comparison of PV Costs/Output to Household Electricity Rates in Selected OECD Countries -- Figure 5 NOx Emissions from Distributed generation Technologies (kg/MWh) -- Figure 6 CO2 Emissions from Distributed Generation Technologies (kg/MWh)".
• catalog title "Distributed generation in liberalised electricity markets.".
• catalog type "text".