CHAPTER 1 ANALYSIS OF DEVELOPMENT OF GLOBAL INDUSTRIAL ENERGY SAVING INDUSTRY FROM 2011 TO 2013
　　1.1 The European Union
　　　　1.1.1 Analysis of the EU legal system of industrial energy saving
　　　　1.1.2 Development enlightenment of EU industrial energy-saving regulations
　　1.2 The United States of America
　　　　1.2.1 Analysis of industrial energy-saving bill in the U.S.A.
　　　　1.2.2 Development enlightenment of industrial energy-saving bill in the U.S.A.
　　　　1.2.3 Development experience of industrial energy-saving bill in the U.S.A.
　　1.3 Japan
　　　　1.3.1 Analysis of Japanese energy-saving legal system
　　　　1.3.2 Development enlightenment of Japanese industrial energy-saving bill
　　　　1.3.3 Development experience of Japanese industrial energy-saving bill
CHAPTER 2 ANALYSIS OF DEVELOPMENT ENVIRONMENT OF CHINESE INDUSTRIAL ENERGY-SAVING INDUSTRY
　　2.1 Economic environment
　　　　2.1.1 Analysis of international macroeconomic operation
　　　　2.1.2 Chinese macroeconomic situation
　　　　2.1.3 Analysis of China’s economic development trends
　　2.2 Policy environment
　　　　2.2.1 Interpretation of energy-saving and emission reduction planning during the “Twelfth Five-Year” period
　　　　2.2.2 Interpretation of industrial energy-saving planning during the “Twelfth Five-Year” period
　　　　2.2.3 The state strengthen the promotion of advanced technology of industrial energy-saving and emission reduction
　　　　2.2.4 Industrial energy-saving products are included in the financial subsidies and promotion range
　　　　2.2.5 Interpretation of industrial energy-saving and green development special action program
　　2.3 Social environment
　　　　2.3.1 China’s energy situation is tense
　　　　2.3.2 Development of energy saving and emission reduction in China
　　　　2.3.3 Integration of informatization and industrialization effectively promote energy saving
　　　　2.3.4 China’s industrial low-carbon transformation is imperative
　　　　2.3.5 New industrialization focus on energy saving and environmental protection
CHAPTER 3 ANALYSIS OF DEVELOPMENT OF CHINESE INDUSTRIAL ENERGY SAVING INDUSTRY FROM 2011 TO 2012
　　3.1 Analysis of China’s industrial economic operation from 2010 to 2012
　　　　3.1.1 Analysis of China’s industrial economic operation in 2010
　　　　3.1.2 Analysis of China’s industrial economic operation in 2011
　　　　3.1.3 Analysis of China’s industrial economic operation in 2012
　　3.2 Summary of China’s industrial energy-saving industry from 2011 to 2012
　　　　3.2.1 The importance of industrial energy-saving and emission reduction
　　　　3.2.2 Review of the development of China’s industrial energy-saving industry
　　　　3.2.3 Operation status of China’s industrial energy-saving industry
　　　　3.2.4 Development of China’s industrial energy-saving industry in 2011
　　　　3.2.5 Development of China’s industrial energy-saving industry in 2012
　　3.3 Development of China’s industrial energy-saving market from 2011 to 2012
　　　　3.3.1 Industrial energy-saving market accelerated development
　　　　3.3.2 Solar thermal utilization helps industrial energy-saving
　　　　3.3.3 Analysis of application of cleaner production in the industrial energy saving
　　　　3.3.4 Information technology expands the scope of industrial energy-saving
　　3.4 Problems in the development of industrial energy-saving industry
　　　　3.4.1 Prominent problems in China’s industrial energy-saving
　　　　3.4.2 Restricting factors in the development of China’s industrial energy-saving
　　　　3.4.3 Drawbacks of industrial energy-saving management system
　　　　3.4.4 Talent shortage restricts the development of industrial energy-saving
　　3.5 Analysis of development strategies of industrial energy-saving industry
　　　　3.5.1 Recommendations to improve industrial energy-saving level
　　　　3.5.2 Strategies to accelerate the development of industrial energy-saving
　　　　3.5.3 Policy recommendations of the development of industrial energy-saving
　　　　3.5.4 Specific measures to improve industrial energy-saving management system
CHAPTER 4 ANALYSIS OF ENERGY-SAVING OF IRON AND STEEL INDUSTRY FROM 2011 TO 2012
　　4.1 Development experiences of energy-saving of international iron and steel industry
　　　　4.1.1 Analysis of energy-saving technologies of foreign iron and steel industry
　　　　4.1.2 Experience of the energy-saving of Japanese iron and steel industry
　　4.2 Analysis of energy-saving conditions of China’s iron and steel industry from 2011 to 2012
　　　　4.2.1 Operation analysis of China’s iron and steel industry
　　　　4.2.2 Current situation of energy consumption of China’s iron and steel industry
　　　　4.2.3 Summary of energy-saving development of China’s iron and steel industry
　　　　4.2.4 Energy-saving situation of China’s iron and steel industry during the “Eleventh Five-Year” period
　　　　4.2.5 Energy-saving development trend of China’s iron and steel industry
　　　　4.2.6 Analysis of current energy saving conditions of China’s iron and steel enterprises
　　　　4.2.7 The influence of energy saving and emission reduction plan on the energy conservation of iron and steel industry
　　　　4.2.8 Energy-saving of the iron and steel industry faced with a new situation
　　4.3 Analysis of energy-saving mode of China’s iron and steel industry from 2011 to 2012
　　　　4.3.1 Energy performance contracting
　　　　4.3.2 Clean development mechanism
　　　　4.3.3 The use of secondary energy
　　　　4.3.4 Environmental transformation
　　　　4.3.5 Development of energy saving
　　4.4 Analysis of energy-saving technologies of iron and steel industry from 2011 to 2012
　　　　4.4.1 Overview of advanced energy-saving technology of the iron and steel industry
　　　　4.4.2 Analysis of energy-saving technology development of the iron and steel industry
　　　　4.4.3 China’s energy-saving technologies of iron and steel industry in 2012
　　　　4.4.4 The main problems of energy-saving technologies of the iron and steel industry
　　4.5 Analysis of the energy-saving problems in iron and steel Industry
　　　　4.5.1 The low level of development
　　　　4.5.2 Tremendous pressure on large crude steel production
　　　　4.5.3 More stringent of the new emission standards
　　　　4.5.4 Arduous task of pollutant emissions reduction
　　　　4.5.5 Strengthen the constraint index of energy-saving and low carbon
　　　　4.5.6 Challenge to promote energy-saving
　　4.6 Energy-saving development strategy of iron and steel industry
　　　　4.6.1 Analysis of energy-saving strategy of iron and steel industry
　　　　4.6.2 Energy-saving policy recommendations of iron and steel industry
　　　　4.6.3 Measures to promote the development of energy-saving of iron and steel industry
　　　　4.6.4 Strategy to expand energy-saving space of iron and steel industry
　　　　4.6.5 Method for iron and steel industry to achieve energy-saving and emission reduction
　　　　4.6.6 Analysis of energy-saving measures for the iron and steel industry
　　4.7 Outlook of energy-saving of iron and steel industry
　　　　4.7.1 Analysis of energy-saving potential of China’s iron and steel industry
　　　　4.7.2 Outlook of energy-saving of China’s iron and steel industry during the “Twelfth Five-Year” period
　　　　4.7.3 Analysis of energy-saving space of China’s iron and steel industry during the “Twelfth Five-Year” period
　　　　4.7.4 Important direction of energy saving for iron and steel industry in the future
CHAPTER 5 ANALYSIS OF ENERGY-SAVING OF NONFERROUS METALS INDUSTRY FROM 2011 TO 2012
　　5.1 Development review of energy-saving of China’s nonferrous metals industry from 2011 to 2012
　　　　5.1.1 Operation status of China’s nonferrous metals industry
　　　　5.1.2 Energy-saving status of China’s nonferrous metals industry during the “Eleventh Five-Year” period
　　　　5.1.3 Energy-saving situation of China’s nonferrous metals industry in 2011
　　　　5.1.4 Energy-saving situation of China’s nonferrous metals industry in 2012
　　5.2 Analysis of energy-saving policy of China’s nonferrous metals industry
　　　　5.2.1 The state focus on promoting energy-saving technologies of nonferrous metals
　　　　5.2.2 Interpretation of Guidance for Energy Conservation and Emission Reduction of Nonferrous Metals Industry
　　　　5.2.3 Energy-Saving Design Specification of Nonferrous Metal Processing Plant was released
　　5.3 Problems in and solutions of the energy-saving development of nonferrous metals industry
 　　　 5.3.1The main problems in energy-saving of non-ferrous industry
　　　　5.3.2 Recommendations to promote energy-saving of nonferrous metals industry
　　　　5.3.3 Energy-saving strategy of nonferrous metals industry
　　　　5.3.4 Energy-saving measures of nonferrous metals industry
　　5.4 Forecast of energy-saving prospect of nonferrous metals industry
　　　　5.4.1 Energy-saving target of nonferrous metals industry
　　　　5.4.2 Analysis of energy-saving potential of nonferrous metal industry
　　　　5.4.3 Renewable nonferrous metal industry will raise the threshold of energy-saving in the future
CHAPTER 6 ANALYSIS OF ENERGY-SAVING OF PETROCHEMICAL INDUSTRY FROM 2011 TO 2012
　　6.1 Overview of energy-saving development of petrochemical industry from 2011 to 2012
　　　　6.1.1 Analysis energy-saving conditions of petrochemical industry
　　　　6.1.2 Development of energy-saving of China’s petrochemical industry
　　　　6.1.3 Energy-saving progress of China’s petrochemical industry in 2011
　　　　6.1.4 Energy-saving progress of China’s petrochemical industry in 2012
　　　　6.1.5 Analysis of energy-saving diagnosis of petrochemical industry
　　　　6.1.6 Energy measurement boosts the energy-saving development of the petrochemical industry
　　6.2 Analysis of energy-saving policy of petrochemical industry from 2011 to 2012
　　　　6.2.1 The impact of the energy conservation plan for the petrochemical industry
　　　　6.2.2 Industrial Restructuring Catalogue prominent energy-saving requirements of petrochemical industry
　　　　6.2.3 Backbone petrochemical companies are included in the scope of energy-saving target assessment
　　　　6.2.4 Interpretation of catalog of energy-saving advanced and applicable technologies of petrochemical industry
　　　　6.2.5 China promote key energy-saving technologies of the petrochemical industry
　　6.3 Analysis of energy-saving technologies of petrochemical industry from 2011 to 2012
　　　　6.3.1 Process energy-saving technology
　　　　6.3.2 Thermal energy-saving technology
　　　　6.3.3 Electrical energy-saving technology
　　　　6.3.4 Information technology
　　　　6.3.5 Other energy-saving technologies
　　6.4 Problems in the energy-saving of petrochemical industry
　　　　6.4.1 Backward development methods
　　　　6.4.2 Facing international pressure
　　　　6.4.3 Lack of policy support
　　　　6.4.4 Weak energy foundation work
　　　　6.4.5 Lack of awareness of energy conservation
　　　　6.4.6 Urgent need of scientific and technological innovation
　　6.5 Analysis of energy-saving measures of the petrochemical industry
　　　　6.5.1 Energy-saving system construction approach
　　　　6.5.2 Structural energy-saving strategy
　　　　6.5.3 Energy-saving management strategies
　　　　6.5.4 Strengthen technological innovation
　　　　6.5.5 Innovative energy strategies
　　　　6.5.6 Specific energy-saving measures
　　6.6 Forecast of energy-saving prospect of petrochemical industry
　　　　6.6.1 Energy saving targets of China’s petrochemical industry during the “Twelfth Five-Year” period
　　　　6.6.2 Analysis of energy-saving potential of key areas of petrochemical industry
　　　　6.6.3 Analysis of energy-saving outlook of high-end petrochemical industry
CHAPTER 7 ANALYSIS OF ENERGY-SAVING OF BUILDING MATERIALS INDUSTRY FROM 2011 TO 2012
　　7.1 Summary of energy-saving development of building materials industry from 2011 to 2012
　　　　7.1.1 Significance of energy-saving of building materials industrial to the national economy
　　　　7.1.2 Analysis of energy-saving policy environment of building materials industry
　　　　7.1.3 Energy-saving of building materials industry has made significant progress
　　　　7.1.4 Energy-saving status of China’s building materials industry in 2012
　　　　7.1.5 Analysis of energy-saving technologies of the building materials industry
　　7.2 Analysis energy-saving of cement industry from 2011 to 2012
　　　　7.2.1 Energy-saving background
　　　　7.2.2 Energy-saving situation
　　　　7.2.3 Ways and potential of energy-saving
　　　　7.2.4 Energy-saving suggestions
　　　　7.2.5 energy-saving trends
　　7.3 Analysis of energy-saving in other areas of the building materials industry from 2011 to 2012
　　　　7.3.1 Doors and windows industry
　　　　7.3.2 Domestic glass
　　　　7.3.3 Glass curtain wall
　　7.4 Analysis of energy-saving strategy of building materials industry
　　　　7.4.1 Proposals to promote the energy-saving of building materials industry
　　　　7.4.2 Approach of energy conservation and emission reduction of building materials industry
　　　　7.4.3 Specific measures for energy-saving of building materials industry
　　7.5 Forecast of energy-saving prospects of building materials industry
　　　　7.5.1 Energy-saving targets of China’s building materials industry during the “Twelfth Five-Year” period
　　　　7.5.2 Analysis of energy-saving potential of China’s building materials industry
　　　　7.5.3 Outlook of the new energy-saving products of building materials industry
CHAPTER 8 ANALYSIS OF ENERGY-SAVING OF ELECTRIC POWER INDUSTRY IN CHINA FROM 2011 TO 2012
 　　8.1Summary of energy-saving development of China’s power industry from 2011 to 2012
　　　　8.1.1 The importance of energy-saving of electric power industry
　　　　8.1.2 Situation of energy-saving of China’s electric power industry
　　　　8.1.3 Analysis of energy-saving policy environment of electric power industry
　　　　8.1.4 The implementation of energy-saving standards for electric power industry
　　　　8.1.5 Energy-saving status of electric power industry in China’s major regions
　　　　8.1.6 Analysis of energy-saving conditions of smart grid
　　　　8.1.7 Repository project helps energy-saving of electric power industry
　　　　8.1.8 Analysis of the behavior of energy-saving subject in China’s electric power industry
　　8.2 Analysis of energy-saving conditions of China’s electric power industry from 2010 to 2012
　　　　8.2.1 Analysis of energy-saving conditions of China’s electric power industry in 2010
　　　　8.2.2 Analysis of energy-saving conditions of China’s electric power industry in 2011
　　　　8.2.3 Analysis of energy-saving conditions of China’s electric power industry in 2012
　　8.3 Important operating mechanism for energy-saving of electric power industry: DSM
　　　　8.3.1 Overall analysis
　　　　8.3.2 Analysis of results
　　　　8.3.3 Regional case study
　　　　8.3.4 Enterprise case study
　　8.4 Analysis of key energy-saving technologies of electric power industry from 2011 to 2012
　　　　8.4.1 The transformation of existing plants
　　　　8.4.2 Clean coal power generation technology
　　　　8.4.3 CHP / CCHP
　　　　8.4.4 Non-fossil energy power generation technology
　　　　8.4.5 Smart grid technology
　　8.5 Analysis of problems in energy-saving of the electric power industry
　　　　8.5.1 Problems in policy standards
　　　　8.5.2 Energy-saving intensity needs to be strengthened
　　　　8.5.3 Inadequate market means
　　　　8.5.4 Energy structural constraints
　　　　8.5.5 Facilities backward
　　8.6 Analysis of energy-saving strategy of electric power industry
　　　　8.6.1 Suggestions to promote energy-saving of China’s electric power industry
　　　　8.6.2 Policy measures for energy-saving of China's power industry
　　　　8.6.3 Analysis of key strategies of energy-saving in electric power industry
　　　　8.6.4 Establish full range of energy-saving mechanism of electric power industry
　　　　8.6.5 Play regulatory role of tariff policy
　　8.7 Forecast of energy-saving prospect of China’s power industry
　　　　8.7.1 The situation of energy-saving of China’s power industry
　　　　8.7.2 Energy-saving targets of China’s electric power industry
　　　　8.7.3 Analysis of energy-saving potential of China’s power industry
　　　　8.7.4 Outlook of energy-saving of China’s power industry during the “Twelfth Five-Year” period
CHAPTER 9 ANALYSIS OF ENERGY-SAVING OF COAL INDUSTRY IN CHINA FROM 2011 TO 2012
　　9.1 Comprehensive analysis of energy-saving of China’s coal industry from 2011 to 2012
　　　　9.1.1 Energy-saving features of coal industry
　　　　9.1.2 Analysis of energy-saving of China’s coal industry during the “Eleventh Five-Year” period
　　　　9.1.3 Energy-saving status of China’s coal industry in 2012
　　　　9.1.4 Sustainable development of energy-saving of China’s coal industry
　　　　9.1.5 Analysis of the importance of energy-saving policy in the coal industry
　　9.2 Analysis of energy-saving technology of coal industry from 2011 to 2012
　　　　9.2.1 Application status of energy-saving technology of China’s coal industry
　　　　9.2.2 Technology roadmap of energy saving and emission reduction of China’s coal industry
　　　　9.2.3 Clean coal technology helps the energy-saving of coal industry
　　9.3 Problems in the energy-saving of coal industry
　　　　9.3.1 Standard institutional problems
　　　　9.3.2 Industry management problems
　　　　9.3.3 Insufficient capital investment
　　　　9.3.4 Energy-saving awareness needs to be raised
　　　　9.3.5 Low resource utilization
　　　　9.3.6 Energy contribution rate to be improved
　　　　9.3.7 Reasons of lack of energy-saving motivation
　　9.4 Analysis of energy-saving policy of the coal industry
　　　　9.4.1 Proposal for the energy-saving of coal industry
　　　　9.4.2 Countermeasures for coal industry to promote the development of energy-saving
　　　　9.4.3 Analysis of approach of energy-saving of the coal industry
　　　　9.4.4 Specific measures of energy-saving in the coal industry
　　　　9.4.5 Proposals for the rapid development of energy-saving of coal enterprise
　　9.5 Forecast of energy-saving prospect of coal industry
　　　　9.5.1 Analysis of energy-saving potential of China’s coal industry during the “Twelfth Five-Year” period
　　　　9.5.2 Analysis of energy-saving space of China’s coal industry
　　　　9.5.3 Prospects of energy-saving of China’s coal industry
CHAPTER 10 ANALYSIS OF ENERGY-SAVING OF MACHINERY INDUSTRY FROM 2011 TO 2012
　　10.1 Overall development status of energy-saving of machinery industry from 2011 to 2012
　　　　10.1.1 Great significant of energy-saving of machinery industry
　　　　10.1.2 Energy-saving development status of machinery industry
　　　　10.1.3 Difficulties faced by energy-saving of mechanical industry
　　　　10.1.4 Problems and countermeasures of energy-saving of machinery industry
　　10.2 Analysis of energy-saving of engineering machinery industry from 2011 to 2012
　　　　10.2.1 Analysis of energy construction status of engineering machinery industry
　　　　10.2.2 Status of energy-saving products of engineering machinery enterprises
　　　　10.2.3 Prospect of energy-saving technologies of engineering machinery industry
　　10.3 Analysis of the energy-saving in other segments of machinery industry from 2011 to 2012
　　　　10.3.1 Packaging machinery
　　　　10.3.2 Textile machinery
　　　　10.3.3 Agricultural machinery
　　　　10.3.4 Road machinery
　　　　10.3.5 Mining machinery
　　10.4 Analysis of heat treatment energy-saving technology of machinery manufacturing industry from 2011 to 2012
　　　　10.4.1 Production situation of heat treatment
　　　　10.4.2 Position of heat treatment in energy-saving of the machinery manufacturing industry
　　　　10.4.3 Outstanding effect of heat treatment energy-saving in machinery industry
　　　　10.4.4 Analysis of the development of petroleum machinery heat treatment technology
　　　　10.4.5 Problems in and countermeasures of heat energy energy-saving
　　10.5 Forecast of energy-saving prospects of machinery industry
　　　　10.5.1 Energy saving and environmental protection will become the development trend of machinery industry
　　　　10.5.2 Energy-saving target of China’s machinery industry
　　　　10.5.3 Energy-saving plan of China’s machinery industry during the “Twelfth Five-Year” period
CHAPTER 11 ANALYSIS OF ENERGY-SAVING IN OTHER INDUSTRIAL AREAS FROM 2011 TO 2012
　　11.1 Light industry
　　　　11.1.1 Energy-saving situation of China’s light industry during the “Eleventh Five-Year” period
　　　　11.1.2 Analysis of energy-saving conditions of light industry
　　　　11.1.3 Analysis of energy-saving investment of light industry
　　　　11.1.4 Analysis of energy-saving conditions of textile industry
　　　　11.1.5 Analysis of energy-saving conditions of papermaking industry
　　　　11.1.6 Energy conservation and emission reduction targets of China’s light industry during the “Twelfth Five-Year” period
　　11.2 Electronic information industry
　　　　11.2.1 Situation of energy consumption of electronic information industry
　　　　11.2.2 Interpretation of the new energy-saving standard of electronic information industry
　　　　11.2.3 The main problem in energy-saving of electronic information industry
　　　　11.2.4 Energy saving and emission reduction measures for China’s electronic information industry
CHAPTER 12 ANALYSIS OF DEVELOPMENT OF INDUSTRIAL ENERGY-SAVING INDUSTRY IN MAIN REGIONS OF CHINA FROM 2011 TO 2012
　　12.1 Shanghai
　　　　12.1.1 Development review
　　　　12.1.2 Operation status
　　　　12.1.3 Main problem
　　　　12.1.4 Development trend
　　　　12.1.5 Development plan
　　12.2 Heilongjiang Province
　　　　12.2.1 Development review
　　　　12.2.2 Development status
　　　　12.2.3 Technology roadmap
　　　　12.2.4 Development plan
　　12.3 Hebei Province
　　　　12.3.1 Development review
　　　　12.3.2 Operation status
　　　　12.3.3 Problems
　　　　12.3.4 Development plan
　　12.4 Shaanxi Province
　　　　12.4.1 Energy utilization
　　　　12.4.2 Development review
　　　　12.4.3 Operation status
　　　　12.4.4 Problems
　　　　12.4.5 Current situation
　　　　12.4.6 Development plan
　　12.5 Gansu Province
　　　　12.5.1 Development review
　　　　12.5.2 Operation status
　　　　12.5.3 Problems
　　　　12.5.4 Current situation
　　　　12.5.5 Development plan
　　12.6 Guizhou Province
　　　　12.6.1 Development review
　　　　12.6.2 Operation status
　　　　12.6.3 Development plan
　　12.7 Jiangxi Province
　　　　12.7.1 Development review
　　　　12.7.2 Operation status
　　　　12.7.3 Current situation
　　　　12.7.4 Development plan
　　12.8 Guangxi Province
　　　　12.8.1 Development status
　　　　12.8.2 Regional situation
　　　　12.8.3 Influence factors
　　　　12.8.4 Problems
　　　　12.8.5 Development proposals
　　12.9 Other regions
　　　　12.9.1 Jilin Province
　　　　12.9.2 Shandong Province
　　　　12.9.3 Anhui Province
　　　　12.9.4 Qinghai Province
　　　　12.9.5 Sichuan Province
　　　　12.9.6 Chongqing
CHAPTER 13 ANALSYSIS OF DEVELOPMENT OF ENERGY PERFORMANCE CONTRACTING IN CHINA FROM 2011 TO 2012
　　13.1 Comprehensive analysis of China’s energy performance contracting
　　　　13.1.1 Summary of the development of energy performance contracting
　　　　13.1.2 Characteristics of the development of energy performance contracting
　　　　13.1.3 Energy performance contracting boost industrial energy efficiency
　　　　13.1.4 Financial subsidies situation of energy performance contracting
　　　　13.1.5 Analysis of outputs benefit of energy performance contracting
　　　　13.1.6 Analysis of energy-saving technology of energy performance contracting
　　　　13.1.7 Success factors and experience of energy performance contracting mechanism
　　13.2 Analysis of applications of energy performance contracting in China from 2011 to 2012
　　　　13.2.1 Thermal power industry
　　　　13.2.2 Chlor-alkali industry
　　　　13.2.3 Communication industry
　　　　13.2.4 Ground source heat pumps industry
　　13.3 Risks in Chinese energy performance contracting project
　　　　13.3.1 Feasibility risk
　　　　13.3.2 Customer risk
　　　　13.3.3 Operation mode risk
　　　　13.3.4 Financing risk
　　　　13.3.5 Energy-saving quantity predicted risk
　　　　13.3.6 Market risk
　　　　13.3.7 Construction risk
　　　　13.3.8 Energy-saving technology risk
　　　　13.3.9 Investment income risk
　　13.4 Problems in the development of energy performance contracting in China
　　　　13.4.1 Development difficulties of energy performance contracting
　　　　13.4.2 Restricting factor in the development of energy performance contracting
　　　　13.4.3 Measurement technology becomes an obstacle to the development of energy performance contracting
　　13.5 Development strategy of energy performance contracting in China
　　　　13.5.1 Policy recommendations for the development of energy performance contracting
　　　　13.5.2 Proposal to accelerate the promotion of energy performance contracting
　　　　13.5.3 Measures for the development of energy performance contracting
　　　　13.5.4 Risk prevention measures of energy performance contracting project
CHAPTER 14 ANALYSIS OF DEVELOPMENT OF INDUSTRIAL WASTE HEAT UTILIZATION FROM 2011 TO 2012
　　14.1 Review of the development of industrial waste heat utilization from 2011 to 2012
　　　　14.1.1 Characteristics of industrial waste heat resource
　　　　14.1.2 Overview of industrial waste heat and pressure project
　　　　14.1.3 Competition situation of waste heat and pressure utilization market
　　　　14.1.4 Analysis of concentration of waste heat utilization market
　　　　14.1.5 Waste heat utilization market needs policy support
　　14.2 Analysis of key application areas of China’s industrial waste heat utilization from 2011 to 2012
　　　　14.2.1 Steel industry
　　　　14.2.2 Cement Industry
　　　　14.2.3 Glass industry
　　14.3 Analysis of industrial waste heat utilization technology from 2011 to 2012
　　　　14.3.1 Heat exchange technology
　　　　14.3.2 Thermal power conversion technology
　　　　14.3.3 Cooling and heating technology
　　　　14.3.4 Low temperature industrial waste heat power generation technology
　　14.4 Prospects of industrial waste heat utilization
　　　　14.4.1 Outlook of China’s cogeneration industry during the “Twelfth Five-Year” period
　　　　14.4.2 Analysis of the future needs of cogeneration industry
　　　　14.4.3 Analysis of the prospects of industrial waste heat utilization market
CHAPTER 15 ANALYSIS OF DEVELOPMENT OF INDUSTRIAL EQUIPMENT ENERGY-SAVING IN CHINA FROM 2011 TO 2012
　　15.1 Energy-saving of industrial boiler
　　　　15.1.1 The energy consumption situation of industrial boilers
　　　　15.1.2 Analysis of energy-saving of coal-fired industrial boilers
　　　　15.1.3 Current development of industrial boiler energy-saving market
　　　　15.1.4 Analysis of energy-saving measures of industrial boilers
　　　　15.1.5 Forecast of industrial boilers energy-saving market during the “Twelfth Five-Year” period
　　15.2 Energy-saving of motor system
　　　　15.2.1 Comprehensive development status of energy-saving of motor system
　　　　15.2.2 The rapid development factors of moter energy-saving industry
　　　　15.2.3 Analysis of energy-saving prospects of motor system
　　　　15.2.4 Prediction of energy-saving space of motor system in the future
　　15.3 Energy-saving of internal combustion engine
　　　　15.3.1 Energy-saving requirements of internal combustion engines improved in China
　　　　15.3.2 Interpretation of “Suggestions on the Strengthening of Energy Conservation and Emission Reduction of the Internal Combustion Engine”
　　　　15.3.3 Overview of innovation of energy-saving products of traditional internal combustion engine
　　　　15.3.4 Analysis of energy-saving potential of the internal combustion engine
CHAPTER 16 ANALYSIS OF FINANCIAL CONDITION OF KEY ENTERPRISES OF CHINESE INDUSTRIAL ENERGY-SAVING INDUSTRY FROM 2010 TO 2012
　　16.1 Hangzhou Boiler Group Co., Ltd.
　　　　16.1.1 Company profile
　　　　16.1.2 Main business
　　　　16.1.3 Operating status of Hangzhou Boiler Group Co., Ltd. in 2010
　　　　16.1.4 Operating status of Hangzhou Boiler Group Co., Ltd. in 2011
　　　　16.1.5 Operating status of Hangzhou Boiler Group Co., Ltd. in 2012
　　　　16.1.6 Development planning
　　16.2 Wuxi Huaguang Boiler Co., Ltd.
　　　　16.2.1 Company profile
　　　　16.2.2 Operating status of Wuxi Huaguang Boiler Co., Ltd. in 2010
　　　　16.2.3 Operating status of Wuxi Huaguang Boiler Co., Ltd. in 2011
　　　　16.2.4 Operating status of Wuxi Huaguang Boiler Co., Ltd. in 2012
　　　　16.2.5 Current development
　　16.3 Tianli Environmental Engineering Co., Ltd.
　　　　16.3.1 Company profile
　　　　16.3.2 Operating status of Tianli Environmental Engineering Co., Ltd. in 2010
　　　　16.3.3 Operating status of Tianli Environmental Engineering Co., Ltd. in 2011
　　　　16.3.4 Operating status of Tianli Environmental Engineering Co., Ltd. in 2012
　　　　16.3.5 Development strategy
　　16.4 Suzhou Hailu Heavy Industry Co., Ltd.
　　　　16.4.1 Company profile
　　　　16.4.2 Operating status of Suzhou Hailu Heavy Industry Co., Ltd. in 2010
　　　　16.4.3 Operating status of Suzhou Hailu Heavy Industry Co., Ltd. in 2011
　　　　16.4.4 Operating status of Suzhou Hailu Heavy Industry Co., Ltd. in 2012
　　　　16.4.5 Development planning
　　16.5 Hiconics Drive Technology Co., Ltd.
　　　　16.5.1 Company profile
　　　　16.5.2 Operating status of Hiconics Drive Technology Co., Ltd. in 2010
　　　　16.5.3 Operating status of Hiconics Drive Technology Co., Ltd. in 2011
　　　　16.5.4 Operating status of Hiconics Drive Technology Co., Ltd. in 2012
　　16.6 Sinoma Energy Conservation Ltd.
　　　　16.6.1 Company profile
　　　　16.6.2 Main business
　　　　16.6.3 Operating status of Sinoma Energy Conservation Ltd. in 2010
　　　　16.6.4 Operating status of Sinoma Energy Conservation Ltd. in 2011
　　　　16.6.5 Operating status of Sinoma Energy Conservation Ltd. in 2012
　　　　16.6.6 Distribution of project
　　16.7 Dalian East New Energy Development Co., Ltd.
　　　　16.7.1 Company profile
　　　　16.7.2 Main business
　　　　16.7.3 Operating status of East New Energy in 2010
　　　　16.7.4 Operating status of East New Energy in 2011
　　　　16.7.5 Operating status of East New Energy in 2012
　　16.8 Top Resource Conservation Engineering Co., Ltd.
　　　　16.8.1 Company profile
　　　　16.8.2 Main business
　　　　16.8.3 Operating status of Top Resource Conservation Engineering Co., Ltd. in 2010
　　　　16.8.4 Operating status of Top Resource Conservation Engineering Co., Ltd. in 2011
　　　　16.8.5 Operating status of Top Resource Conservation Engineering Co., Ltd. in 2012
　　　　16.8.6 Business news
　　　　16.8.7 Development goals
　　16.9 Guangzhou Zhiguang Electric Co., Ltd.
　　　　16.9.1 Company profile
　　　　16.9.2 Main business
　　　　16.9.3 Operating status of Zhiguang in 2010
　　　　16.9.4 Operating status of Zhiguang in 2011
　　　　16.9.5 Operating status of Zhiguang in 2012
　　　　16.9.6 Development model
　　16.10 Financial comparative analysis of listed companies
　　　　16.10.1 Analysis of profitability
　　　　16.10.2 Analysis of growth capacity
　　　　16.10.3 Analysis of operating capacity
　　　　16.10.4 Analysis of solvency
CHAPTER 17 INVESTMENT ANALYSIS AND PROSPECT FORECAST OF INDUSTRIAL ENERGY-SAVING INDUSTRY
　　17.1 Analysis of investment and financing potential of industrial energy-saving industry
　　　　17.1.1 Investment and financing situation of industrial energy-saving industry
　　　　17.1.2 Analysis of investment and financing opportunities of industrial energy-saving industry
　　　　17.1.3 Key areas of industrial energy-saving industry is facing investment opportunities
　　　　17.1.4 Capital operation proposal for industrial energy-saving enterprise
　　17.2 Analysis of prospect of industrial energy-saving industry
　　　　17.2.1 Prospects of China’s industrial energy-saving industry during the “Twelfth Five-Year” period
　　　　17.2.2 China’s industrial energy conservation and emission reduction targets in 2013
　　　　17.2.3 Forecast and analysis of China’s industrial energy-saving industry from 2013 to 2017
　　　　17.2.4 Forecast for the future of industrial energy-saving segments
　　17.3 China’s industrial energy-saving development planning during the “Twelfth Five-Year” period
　　　　17.3.1 Current situation
　　　　17.3.2 Development ideas
　　　　17.3.3 Energy conservation plan of key industries
　　　　17.3.4 Key energy conservation projects
　　　　17.3.5 Safeguards
APPENDIX
Appendix 1: “Twelfth Five-Year Planning” of Energy Conservation and Emission Reduction
Appendix 2: Suggestions on Further Strengthening the Industrial Energy Conservation Works
Appendix 3: Notice on Strengthening the Selection, Evaluation and Promotion Work of Industrial Energy Saving Advanced Technology
Appendix 4: Guidance on Energy Conservation and Emission Reduction of Nonferrous Metals Industry
Appendix 5: Plan to Promote Energy Conservation Work of the Building Materials Industry
Appendix 6: Guidance on Further Strengthening of Energy Conservation and Emission Reduction Work of Communications Industry
Appendix 7: Suggestions on the Strengthening of Industrial Energy Conservation and Emission Reduction of Internal Combustion Engine
Appendix 8: Industrial Energy Conservation and Green Development Special Action Plan in 2013