Power Generation in China : Research, Policy and Management.

Intro -- Cover -- Table of Contents -- 1. The Significance and Content of Energy-Efficient Power Generation Scheduling -- 1.1 The significance of energy-efficient power generation scheduling -- 1.1.1 Energy-efficient power generation scheduling: to reduce coal consumption for power generation -- 1.1.2 Energy-efficient power generation scheduling: further optimization of power structure -- 1.1.3 Energy-efficient power generation scheduling: the way of reduction in air pollutants emissions -- 1.2 Primary approach of energy-efficient power generation scheduling -- 1.2.1 Related regulations on energy-efficient power generation scheduling -- 1.2.2 Sorting method of energy-efficient power generation scheduling -- 1.2.3 Basic procedure of energy-efficient power generation scheduling -- 1.3 Characteristics and impacts of energy-efficient power generation scheduling -- 1.3.1 Evolution of the power scheduling system in the PRC -- 1.3.2 Comparison of different generation dispatching modes -- 1.3.3 Impacts of energy-efficient power generation scheduling on the PRC's power system -- 2. Pilots Analysis of Energy-Efficient Power Generation Scheduling -- 2.1 Effect analysis in Guizhou province -- 2.1.1 Basic situation of Guizhou Power Grid -- 2.1.2 Measures adopted in Guizhou -- 2.1.3 Achievements of energy-efficient power generation scheduling in Guizhou -- 2.1.4 Existing problems and development trends of energy-efficient power generation scheduling in pilot areas in Guizhou -- 2.2 Effect analysis of energy-efficient power generation scheduling in Guangdong -- 2.2.1 Basic situation of Guangdong Power Grid -- 2.2.2 Measures adopted in Guangdong for EEPGS -- 2.2.3 Achievements of energy-efficient power generation scheduling in Guangdong -- 2.2.4 Existing problems and development trends of energy-efficient power generation scheduling in Guangdong.

2.3 Implementation situation of energy-efficient power generation scheduling of China Southern Power Grid -- 2.3.1 Basic situation of China Southern Power Grid -- 2.3.2 Measures adopted by China Southern Power Grid in energy-efficient scheduling -- 2.3.3 Achievements of energy-efficient scheduling in China Southern Power Grid -- 2.4 Effect analysis of energy-efficient power generation scheduling in Jiangsu province -- 2.4.1 Basic situation of Jiangsu Power Grid -- 2.4.2 Measures adopted for energy-efficient power generation scheduling in Jiangsu -- 2.4.3 Achievements of energy-efficient power generation scheduling in Jiangsu -- 2.4.4 Existing problems of energy-efficient power generation scheduling in Jiangsu -- 2.5 Effect analysis of energy-efficient power generation scheduling in Sichuan -- 2.5.1 Basic situation of Sichuan Power Grid -- 2.5.2 Measures adopted for energy-efficient power generation scheduling in Sichuan -- 2.5.3 Achievements of energy-efficient power generation scheduling in Sichuan -- 2.5.4 Existing problems of energy-efficient power generation scheduling in Sichuan -- 2.6 Effect analysis of energy-efficient power generation scheduling in Henan -- 2.6.1 Basic situation of Henan Power Grid -- 2.6.2 Measures adopted for energy-efficient power generation scheduling in Henan -- 2.6.3 Energy conservation and emission reduction results of Henan provincial power grid -- 2.7 Comparison analysis of energy-efficient scheduling in pilot areas -- 2.7.1 Pilot workplan -- 2.7.2 Sorting table of generation units -- 2.7.3 Economic compensation approach -- 2.7.4 Implementation specifications -- 2.7.5 Technical supporting system -- 2.7.6 Differential power quotas -- 2.7.7 Differential power pricing -- 2.7.8 Power generation right trading -- 2.7.9 Program of "Large Substitutes for Small".

2.7.10 Existing problems of energy-efficient power generation scheduling in pilot provinces -- 3. Management System of Energy-efficient Power Generation Scheduling -- 3.1 Business framework of energy-efficient power generation scheduling -- 3.1.1 Business content of energy conservation power generation -- 3.1.2 Business procedure of energy-efficient power generation scheduling -- 3.2 Constitution of energy-efficient power generation information system -- 3.2.1 Energy efficiency declaration system -- 3.2.2 Decision-making supporting system of energy-efficient power generation scheduling -- 3.2.3 Decision-making information supporting system of energy-efficient power generation scheduling -- 3.3 Inputs of energy-efficient power generation scheduling -- 3.3.1 Personnel safeguard for energy-efficient scheduling technology -- 3.3.2 Material safeguard for energy-efficient scheduling technology -- 3.3.3 Financial safeguard for energy-efficient scheduling technology -- 3.3.4 Technical training of energy-efficient scheduling -- 4. Power Market Reform and Energy-Efficient Power Generation Scheduling -- 4.1 Major measures for power regime reform in the PRC -- 4.1.1 Break monopoly of investment -- separate the government from corporate -- 4.1.2 Separation of power plant from power grid -- 4.1.3 Regional power market pilots -- 4.1.4 Direct power purchase by major users and bilateral transaction -- 4.1.5 Problems need to be further resolved -- 4.2 Experience and enlightenment from power market reform in foreign countries -- 4.2.1 International experience -- 4.2.2 Enlightenment of foreign power market reform -- 4.3 Energy-efficient power generation scheduling and power market transaction -- 4.3.1 Relation between energy-efficient scheduling and market mechanism -- 4.3.2 Particularity and feasibilities of the electricity market transaction.

4.3.3 Comparison and analysis of transaction mode -- 4.3.4 Diversification and multi-level of power transaction -- 4.3.5 Transaction mode based on energy conservation -- 4.3 Regulatory policy construction of energy-efficient power generation scheduling -- 4.3.1 Regulatory on information dissemination -- 4.3.2 Regulatory on coal consumption index -- 4.3.3 Regulatory on priority of renewable resource and its quotas -- 4.3.4 Regulatory on "Large Substitutes Small" program and power generation right trading -- 4.3.5 Regulatory on direct power purchase by major users -- 5. Interaction between Power Price and Energy-Efficient Power Generation Scheduling -- 5.1 Constitution of electricity tariff system in the PRC -- 5.1.1 Power on-grid tariff -- 5.1.2 Power transmission and distribution price -- 5.1.3 Electricity sale price -- 5.2 Function analysis of power price system to energy conservation -- 5.2.1 Benefits of energy conservation from power generation price -- 5.2.2 Contribution to energy conservation by power transmission and distributionpricing system -- 5.3 Impacts of EEPGS on on-grid power price -- 5.3.1 Impacts on on-grid power tariff of decommissioned units and new units -- 5.3.2 Impacts on on-grid power tariff by energy-efficient scheduling sorting -- 5.4 Impact of EEPGS on cost of power plant and power purchaseprice -- 5.4.1 Change of grid investment cost -- 5.4.2 Change of safety management cost -- 5.4.3 Change of power purchase cost of grid -- 5.4.4 Change of power purchase tariff for power grid -- 6. Energy-Efficient Power Generation Scheduling and Environmental Protection -- 6.1 Laws and regulations related to energy conservation -- 6.2 Adjustment of pollutants emission standard for thermal powerplants in the PRC -- 6.3 Energy-efficient scheduling to environmental-protectionscheduling.

6.3.1 Necessity of extension to energy-efficient environmental-protection powergeneration scheduling -- 6.3.2 Design of energy-efficient environmental-protection power generationscheduling program -- 6.3.3 Case studies of energy-efficient environmental-protection power generationscheduling -- 7. Energy-Efficient Environmental-ProtectionScheduling and Its Cost Efficiency Analysis -- 7.2 Efficiency analysis of energy-efficient power generationscheduling in the PRC -- 7.2.1 Research method -- 7.2.2 Module construction -- 7.2.3 Data source and primary analysis -- 7.2.4 Efficiency measurement and analysis -- 7.2.5 Conclusion -- 7.3 Regulatory cost evaluation of thermal power plants in thePRC -- 7.3.1 Research significance -- 7.3.2 Description of environmental regulatory cost evaluation method -- 7.3.3 Data source and description -- 7.3.4 Calculation and analysis of regulatory cost -- 7.3.5 Conclusion and policy suggestion -- 7.4 Regional scope and effect analysis of thermal power plantdispatching -- 7.4.1 Performance analysis method based on slacks-based efficiency measure -- 7.4.2 Performance evaluation based on slacks-based efficiency measure -- 7.4.3 Data source and description -- 7.4.5 Data processing and analysis -- 7.4.6 Conclusion and policy recommendation -- 8. Policy Suggestion to Improve Energy-Efficient Power Generation Scheduling -- 8.1 Strengthen management and regulatory of energy-efficientpower generation scheduling -- 8.2 Establish market mechanism for energy-efficient powergeneration scheduling -- 8.3 Promote development of energy-efficient power generationby using economic approach -- 8.4 Policy suggestions on actively promoting power reform in astable manner -- References.

This timely book examines the reform of China's vast power generation network and its future energy efficiency and environmental policies. Coal being used for power generation accounts for 54% of China's sulphur dioxide emissions. In 2009, electricity generation consumed 50gce more coal than the international advanced level, which means 180 million tons of standard coal equivalent was over consumed in that year (3681.2 billion kWh). In 2009, the line loss rate of the PRC's power grid reached 6.49%, which is 1% higher than the world's advanced level. More than 30 billion KWh of electricity was lost, equal to 10.2 million tons of coal. These are huge losses. In order to improve China's energy efficiency and reduce pollution, the Office of State Council issued the hugely significant Regulation on Energy Conservation Power Generation Dispatching. Five Chinese provinces piloted the new regulations and this fascinating book examines these pilot studies and the subsequent reforms. The effects of these regulations are now being felt across China's vast network of power generators. The book offers in-depth analysis alongside several significant conclusions and policy suggestions that will enable China to make significant reductions in energy consumption and help cut emissions. (Series: China Global Environment).

Description based on publisher supplied metadata and other sources.

Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.