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China Industrial Energy Saving Industry Development Prospects and Investment Forecast Report, 2013-2017

China Industrial Energy Saving Industry Development Prospects and Investment Forecast Report, 2013-2017

China Industrial Energy Saving Industry Development Prospects and Investment Forecast Report, 2013-2017

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  • Table of Contents

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China Industrial Energy Saving Industry Development Prospects and Investment Forecast Report, 2013-2017

Chapter 1: Development Overview of Industrial Energy Saving Industry

1.1 Definition of Industrial Energy Saving Industry

1.1.1 Definition of Industrial Energy Saving Industry

1.1.2 Research Scope Definition of This Report

1.2 Analysis of Reconstructed Space of Energy Saving and Emission Reduction

1.2.1 Energy Consumption Volume and Consumption Structure

1.2.2 Analysis of Reconstructed Space of Energy Saving and Emission Reduction

1.2.3 Fiscal Expense Conditions for Energy Saving and Emission Reduction

1.2.4 Analysis of Pressure on Energy Saving and Emission Reduction

1.3 Analysis of Development and Energy Consumption of Energy-intensive Industry

1.3.1 Analysis of Development and Energy Consumption of Steel Industry

1.3.2 Analysis of Development and Energy Consumption of Chemical Industry

1.3.3 Analysis of Development and Energy Consumption of Electricity Industry

1.3.4 Analysis of Development and Energy Consumption of Cement Industry

1.3.5 Analysis of Development and Energy Consumption of Coal Industry

1.3.6 Analysis of Analysis of Development and Energy Consumption of Petrochemical Industry

1.3.7 Analysis of Development and Energy Consumption of Non-ferrous Metallurgy Industry

1.3.8 Analysis of Development and Energy Consumption of Other Energy-intensive Industries

1.4 Development Overview of Industrial Energy Saving Industry

1.4.1 Analysis of Development Environment of Industrial Energy Saving Industry

1.4.2 Analysis of Development Status of Industrial Energy Saving Industry

1.4.3 Analysis of Operational Models of Industrial Energy Saving Industry

(1) Operational Model of Energy Saving Service Industry

(2) Operational Model of Energy Saving Equipment Industry

1.4.4 Problems and Solutions to Industrial Energy Saving Industry

(1) Major Problems in Industrial Energy Saving Industry

(2) Development Strategic Suggestions for Industrial Energy Saving Industry

1.4.5 Development Prospects Forecast for Industrial Energy Saving Industry

1.5 Analysis of Specific Approaches and Key Technology Routines for Industrial Energy Saving

1.5.1 Analysis of Specific Approaches for Industrial Energy Saving

(1) Structure Adjustment for Industrial Inner Industries

(2) Inner Product Structure Adjustment for Sub-industries in the Industry

(3) Propel Technology Progress of Industrial Energy Saving

1.5.2 Analysis of Key Technology Routines for Industrial Energy Saving

(1) Comprehensive and Stepped Utilization of Thermal Energy

(2) Comprehensive and Stepped Utilization of Energy Resources

(3) Power Mechanical Energy Saving

(4) Recycling Utilization of Waste Heat/Waste Pressure and Flare Gas

(5) Power Electronics and Energy Saving

(6) FC (Fuel Cell) Technology

Chapter 2: Analysis of China Industrial Energy Saving Management System

2.1 Analysis of China Industrial Energy Saving Management System Status

2.1.1 Development Retrospect of Industrial Energy Saving Management System

2.1.2 Analysis of Industrial Energy Saving Management System Status

(1) Governmental Energy Saving Management Bureau

(2) Enterprise Energy Saving Management

(3) Intermediary Institutions

2.1.3 Major Problems in Industrial Energy Saving Management System

2.2 Analysis of Major Obstacles and Distinctiveness of Enterprise Energy Saving Management

2.2.1 Obstacles Analysis of Enterprise Energy Saving Management

2.2.2 Distinctiveness Analysis of Enterprise Energy Saving Management

2.2.3 Distinctiveness Problems on Current China Enterprise Energy Saving Management

(1) Market Environment Problems on Energy Saving Products

(2) Assessment Supervision Problems on Enterprise Energy Saving

(3) Problems on Energy Price and Price Structure

(4) Problems on Social Division of Labor and Credit System

(5) Impact of Traditional Culture and Problems on Luxury Consumption

2.3 Industrial Energy Saving Management System and Policies in Advanced Countries

2.3.1 Industrial Energy Saving Management Measures and Implementation Mechanism in Advanced Countries

2.3.2 Japan Industrial Energy Saving Management Measures and Institutions

(1) Major Institutions

(2) Related Laws and Documents

(3) Major Measures and Implementation Institutions

(4) Operational Mechanism of Japan Energy Saving Center

2.4 Improving Policies and Suggestions for China Industrial Energy Saving Management System

2.4.1 Constructing National Energy Saving Center

2.4.2 Strengthening to Construct Energy Saving Centers of Provincial Governments and Industry Associations

2.4.3 Strengthen to Construct Enterprise Energy Saving Management System

Chapter 3: Development of China Energy Saving Service Industry and Application Analysis of Energy Management Contracting

3.1 Development Analysis of Energy Saving Service Industry

3.1.1 Analysis of Life Cycle of Energy Saving Service Industry

3.1.2 Analysis of Development Scale of Energy Saving Service Industry

3.1.3 Challenges Energy Saving Service Industry Facing

3.1.4 Five-force Model Analysis of Energy Saving Service Industry

(1) Competitors within Industry

(2) Supplier Bargaining Capability

(3) Customer Bargaining Capability

(4) Potential Competitors

(5) Threats from Substitutes

3.1.5 Analysis of Market Potentials of Energy Saving Service Industry

(1) Unit Consumption of GDP and Energy Saving Market Potentials

(2) Energy Utilization Efficiency and Energy Saving Market Potentials

(3) Analysis of Major Electric Equipment’s Energy Saving Potentials

3.2 Development Analysis of EMC

3.2.1 Basic Types of EMC

(1) Shared Savings

(2) Guaranteed Savings

(3) Chauffage

3.2.2 Policies Related to EMC

(1) Notice on Further Promoting “Energy Management Contracting” Mechanism

(2) Views of State Council on Speeding up the Implementation of Energy Management Contracting for Promoting Development of Energy Saving Service Industry

(3) General Technology Principles for Energy Management Contracting (National Standard)

(4) Interim Management Measures on Financial Incentive Fund for Energy Management Contracting

(5) Notice on Further Strengthening the Supervision and Inspection of Energy Management Contracting Projects

3.2.3 Analysis of Development Scale of EMC

3.2.4 Development Conditions of EMC in Key Regions

(1) Development Conditions of EMC in Shanghai

(2) Development Conditions of EMC in Beijing

(3) Development Conditions of EMC in Guangdong

3.2.5 Analysis of Development Key Factors of EMC

3.2.6 Future Promotion Prospects and Opportunities of EMC

3.3 Application Analysis of EMC in Industry Fields

3.3.1 Application Field Structure of EMC

3.3.2 Application Analysis of EMC in Industry Fields

(1) Application Conditions of EMC in Steel Industry

(2) Application Conditions of EMC in Chemical Industry

(3) Application Conditions of EMC in Electricity Industry

(4) Application Conditions of EMC in Cement Industry

(5) Application Conditions of EMC in Coal Industry

(6) Application Conditions of EMC in Petrochemical Industry

(7) Application Conditions of EMC in Non-ferrous Metallurgy Industry

(8) Application Conditions of EMC in Other Energy-intensive Industries

Chapter 4: Analysis of China Electromechanical System Energy Saving Market

4.1 Overview of Electromechanical System Energy Saving Market

4.1.1 Development Status and Prospects of Electromechanical Industry

4.1.2 Policies Related to Electromechanical System Energy Saving

4.1.3 Energy Consumption Conditions and Energy Saving Potentials of Electromechanical System

4.1.4 Energy Saving Routines and Utilization Occasion of Electromechanical System

(1) Features and Utilization Occasion of Frequency Conversion Motor

(2) Features and Utilization Occasion of Energy-efficient Motor

(3) Features and Utilization Occasion of Static Var Compensator (SVC)

4.1.5 Key Reforming Fields and Methods of Electromechanical System Energy Saving

4.1.6 Application Conditions of Electromechanical System Energy Saving Projects

4.1.7 Analysis of Key Electromechanical System Energy Saving Enterprises

4.1.8 Development Prospects of Electromechanical System Energy Saving Market

4.2 Analysis of Frequency Conversion Motor Energy Saving Market

4.2.1 Necessity of Energy Saving for Frequency Conversion Motor

4.2.2 Features of Energy Saving for Frequency Conversion Motor

4.2.3 Economic Features of Energy Saving for Frequency Conversion Motor

4.2.4 Market Potential of Energy Saving for Frequency Conversion Motor

4.2.5 Driven Factors of Frequency Conversion Motor Energy Saving Market

(1) Striking Slowdown in Frequency Converter

(2) Short Investment Return Period for Frequency Conversion Motor

(3) Target Responsibility System of Energy Saving and Reduction Promoting Electromechanical Energy Saving

4.2.6 Analysis of Frequency Conversion Motor Energy Saving Equipment Market

(1) Analysis of High-voltage Converter (HVC) Market

1) Market Scale and Growth of HVC

2) Market Demand Structure of HVC

3) Market Competitive Landscape of HVC

4) Market Profit Level of HVC

5) Market Prospects Forecast for HVC

4.3 Analysis of Energy-efficient Motor Market

4.3.1 Energy Efficiency and Investment Return of Energy-efficient Motor

(1) Hierarchical Classification of Energy-efficient Motor

(2) Analysis of Energy Efficiency of Energy-efficient Motor

(3) Investment Return of Energy-efficient Motor

4.3.2 Analysis of Promotion Policies for Energy-efficient Motor

4.3.3 Analysis of Promotion Status for Energy-efficient Motor

4.3.4 Analysis of Market Demand for Energy-efficient Motor

4.3.5 Market Competition Conditions for Energy-efficient Motor

4.3.6 Analysis of Technology Development for Energy-efficient Motor

4.4 Analysis of Energy Saving Reconstructed Market of SVC

4.4.1 Choice Selection for SVC in Electromechanical System

4.4.2 Economic Features Analysis of Energy Saving Reconstruction SVC in Electromechanical System

4.4.3 Application Conditions of Energy Saving Reconstruction SVC in Electromechanical System

4.4.4 Key Enterprises for Energy Saving Reconstruction SVC in Electromechanical System

4.4.5 Analysis of Energy Reconstructed Equipment Market SVC in Electromechanical System

(1) Market Scale of SVC Industry

(2) Application Demand of SVC Industry

(3) Market Competition of SVC Industry

(4) Development Trend of SVC Industry

(5) Market Prospects for SVC Industry

Chapter 5: Analysis of China Industrial Waste Heat Utilization Market

5.1 Overview of Industrial Waste Heat Utilization Market

5.1.1 Distribution of Industrial Waste Heat Resources

5.1.2 Main Approaches to Utilize Waste Heat Resources

(1) Utilization Approaches of Waste Heat at High and Medium-temperature

(2) Utilization Approaches of Waste Heat at Low-temperature

5.1.3 Supporting Policies for Industrial Waste Heat Utilization

5.1.4 Waste Heat Utilization in Main Industries

5.2 Analysis of High and Medium-temperature Waste Heat Utilization Market

5.2.1 Overall Development Conditions of Waste Heat Power Generation

5.2.2 Main Problems in Waste Heat Power Generation

5.2.3 Development Prospects Forecast for Waste Heat Power Generation

5.2.4 Waste Heat Power Generation Development and Waste Heat Boiler Demand in Field Segments

(1) Analysis of Waste Heat Utilization and Waste Heat Boiler Demand in Steel Industry

1) Distribution Conditions of Waste Heat Resources in Steel Industry

2) Utilization Conditions of Waste Heat Power Generation in Steel Industry

3) Market Capacity of Waste Heat Boiler in Steel Industry

1. Market Capacity of Oxygen Converter Waste Heat Boiler

2. Market Capacity of Sintering Machine Waste Heat Boiler

(2) Analysis of Waste Heat Utilization and Waste Heat Boiler Demand in Cement Industry

1) Distribution Conditions of Waste Heat Resources in Cement Industry

2) Utilization Conditions of Waste Heat Power Generation in Cement Industry

3) Market Demand of Waste Heat Boiler in Cement Industry

(3) Analysis of Waste Heat Utilization and Waste Heat Boiler Demand in Coking Industry

1) Distribution Conditions of Waste Heat Resources in Coking Industry

2) Utilization Conditions of Waste Heat Power Generation in Coking Industry

3) Market Capacity of Waste Heat Boiler in Coking Industry

(4) Analysis of Waste Heat Utilization and Waste Heat Boiler Demand in Non-ferrous Metallurgy Industry

1) Distribution Conditions of Waste Heat Resources in Non-ferrous Metallurgy Industry

2) Utilization Conditions of Waste Heat Power Generation in Non-ferrous Metallurgy Industry

3) Market Demand of Waste Heat Boiler in Non-ferrous Metallurgy Industry

(5) Analysis of Waste Heat Utilization and Waste Heat Boiler Demand in Chemical Industry

1) Distribution Conditions of Waste Heat Resources in Chemical Industry

2) Utilization Conditions of Waste Heat Power Generation in Chemical Industry

3) Market Demand of Waste Heat Boiler in Chemical Industry

(6) Analysis of Waste Heat Utilization and Waste Heat Boiler Demand in Glass Industry

1) Distribution Conditions of Waste Heat Resources in Glass Industry

2) Utilization Conditions of Waste Heat Power Generation in Glass Industry

3) Market Demand of Waste Heat Boiler in Glass Industry

(7) Analysis of Waste Heat Utilization and Waste Heat Boiler Demand in Paper Making s Industry

(8) Analysis of Waste Heat Utilization and Waste Heat Boiler Demand in Gas Turbine Plant

5.2.5 Analysis of High and Medium-temperature Waste Heat Utilization Equipment Market

(1) Output Scale of Waste Heat Boiler Industry

(2) Income Scale of Waste Heat Boiler Industry

(3) Competitive Landscape of Waste Heat Boiler Industry

(4) Technology Development of Waste Heat Boiler Industry

5.3 Analysis of Low-temperature Waste Heat Utilization Equipment Market

5.3.1 Analysis of Development Conditions of Heat Pump

5.3.2 Analysis of Market Scale of Heat Pump

5.3.3 Analysis of Market Segmentation of Heat Pump

(1) Analysis of Air Source Heat Pump Market

(2) Analysis of Ground Source Heat Pump Market

(3) Analysis of Sewage Source Heat Pump Market

5.3.4 Analysis of Competition of Heat Pump Market

5.3.5 Analysis of Development of Heat Pump Market

5.3.6 Analysis of Heat Pump Sales Channels

Chapter 6: Analysis of China Grid Energy Saving Market

6.1 Development Analysis of Grid Industry

6.1.1 Policies Related to Development of Grid Industry

6.1.2 Overall Development Information of Grid Industry

6.1.3 Analysis of Investment Conditions of Grid Industry

6.1.4 Market Segments Construction of Grid Industry

(1) Smart Grid Construction

(2) Urban Electric Power Distribution Network Construction

(3) Rural Power Grid Construction

6.2 Analysis of Grid Line Loss and Energy Saving Measures

6.2.1 Analysis of Grid Line Loss Status and Causes

(1) Analysis of Grid Line Loss Status

(2) Analysis of Grid Line Loss Causes

6.2.2 Analysis of Damage of Grid Line Loss

(1) Emitting Heat – Prominent Reason to Line Loss

(2) Line Loss in Power Distribution System Contributing to A big Waste of Energy

6.2.3 Measures for Reducing Loss of Transformer

(1) Adjusting Operational Voltage Rationally

(2) Balanced Three Phase Load

(3) Promoting Energy-saving Transformer

(4) Conducting Reactive Compensation

6.2.4 Measures for Reducing Line Loss

(1) Well Selecting Cross-section of Conductor

(2) Well Layout Network Structure

6.2.5 Difficulty in Reconstructing Energy Saving of Current Power Distribution Network

6.3 Analysis of Energy-saving Transformer

6.3.1 Analysis of Investment Economy of Amorphous Metal Transformer

(1) No-load Loss Comparison between Amorphous Metal Transformer and Transformer Grain Oriented Silicon Steel

(2) Analysis of Cost Comparison between Amorphous Metal Transformer and Transformer Grain Oriented Silicon Steel

(3) Total Owning Cost (TOC) Comparison between Amorphous Metal Transformer and Transformer Grain Oriented Silicon Steel

6.3.2 Analysis of Promotion Policies for High-efficient and Energy Saving Transformer

6.3.3 Development Analysis of Amorphous Metal Transformer Industry

(1) Development Analysis of Amorphous Alloy Strip Industry

(2) Development Analysis of International Amorphous Metal Transformer Industry

(3) Development Analysis of Domestic Amorphous Metal Transformer Industry

6.3.4 Demand Analysis of Amorphous Metal Transformer in Key Fields

(1) Demand Analysis of Stock Power Distribution Transformer in Reconstruction Field

(2) Demand Analysis of New Distribution Transformer Field

(3) Demand Analysis of Amorphous Metal Transformer in Wind Power Field

(4) Demand Analysis of Amorphous Metal Transformer in Photovoltaic Field

6.3.5 Sensibility Analysis of Amorphous Metal Transformer Market Scale

6.3.6 Analysis of Amorphous Metal Transformer Market Competition

6.3.7 Analysis of Technology Development of Amorphous Metal Transformer

Reporting core values

The most distinctive characteristics of this report is forward-looking and timeliness. Through analyzing forward-looking characteristic of abundant first-hand market data, we deeply and objectively dissect China current industrial energy saving industry’s overall market capacity, competitive landscape and market demand. Furthermore, based on future development tracks and years’ practice experience of industrial energy saving industry, we conduct prudent analysis and forecast for industrial energy saving industry’s future development trend.

Main Contents of report

In order to tackle climate change needs, the government proposed the carbon dioxide discharge of China per unit GDP in 2020 should lower to 40% and 45% of the goal in 2005, while currently the China industrial energy consumption accounts for 70% of the total energy consumption. For the sake of achieving the goal, the government has released a series of policies to promote the achievement of China energy saving and emission reduction goal.

With the promotion of policies, China energy saving industry develops very rapidly. During the period of "Eleventh Five-year" Plan period, the total output value of energy saving industry continues to increase, with an annual growth of more than 60%. At the end of “Eleventh Five-year” Plan period, the total output value of energy saving service industry was 83.629 billion Yuan. Accompanied by the implementation of energy saving and emission reduction policies, the motor system energy efficiency market, the industrial waste heat utilization market, the distribution grid energy saving market and coal-fired industrial boiler (kiln) energy saving market have developed rapidly.

Driven both by policies proposed in the “Twelfth Five-year” Plan period and economic benefits, industrial energy saving industry will usher in a great development opportunity period. In terms of policies, in September 2011, the State Council issued a Comprehensive Sheme on Eergy Sving and Emission Reduction During the “Twelfth Five-year” Plan, which clearly defines the goal and meaning, priorities, and advancement ways of China energy saving and emission reduction work in the next 5 years. It highlights the State has attached great importance to energy saving and emission reduction work; in terms of economic benefits, China energy prices keeps going up, and the dependence on foreign countries is greatly increased, therefore, under such equal circumstances, the economic benefits of energy saving become more and more obvious.

With Forward’s long-term tracking and collecting market data of industrial energy saving industry, we roundly and accurately analyze the industry structure system for you from the view of mastering the whole industry. This report mainly focuses on analyzing the development background of China industrial energy saving industry; the management system of industrial energy saving; the market situation of energy saving market; the market situation of motor energy saving; the market situation of industrial waste heat utilization market; the market situation of distribution grid energy saving market; the market situation of coal-fired industrial boiler (kiln) energy saving market; the development situation of industrial energy saving industry in high energy consumption regions; the leading corporations’ operational conditions in industrial energy saving industry; as well as the investment/financing and credit of industrial energy saving industry. Meanwhile, with comprehensive and specific first-hand market data over the past 5 years, Forward helps you to grasp the market and development trends of industrial energy saving industry, so as to win advantages from competition!

The most distinctive characteristics of this report is forward-looking and timeliness. Through analyzing forward-looking characteristic of abundant first-hand market data, we deeply and objectively dissect China current industrial energy saving industry’s overall market capacity, competitive landscape and market demand. Furthermore, based on future development tracks and years’ practice experience of industrial energy saving industry, we conduct prudent analysis and forecast for industrial energy saving industry’s future development trend. This report helps energy saving service enterprises, energy saving equipment manufacturing enterprises and investment enterprises to precisely grasp current latest developments of the industry. Afterwards, they can make wise operating decisions and define enterprises’ development directions.

Here, we would like to express our sincere gratitude to State Information Center, Bureau of Statistics of China, International Information Research Institute, Chinese Academy of International Trade and Economic Cooperation, Tsinghua University Library, Development Research Center of the State Council and Beijing Essence Forward Research Center, for their great support when we conduct this report!

Notice: All the market data, especially corporations' ranking data in the report, only for business reference. Please do not take the data for enterprise publicity. Thank you! Or Forward shall not take any responsibility for any consequences!

Qianzhan Business Information Co., Ltd. Industry Research Center
Research Team of Industrial Energy Saving Industry

 

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