China Denitration Industry Report, 2009-2010
Along with the economic development, China’s NOx emission increased from 5 million tons in the 1980s to 24 million tons in 2009. In order to control the NOx emission, the Ministry of Environmental Protection of PRC required, in 2009, that the thermal power units of key areas must be installed with denitration devices. It is estimated that, from 2010 to 2014, the annual market capacity of China’s thermal power denitration averages RMB11.5 billion, of which the average annual denitration market capacity of Beijing-Tianjin-Hebei region, Yangtze Delta Area, and Pearl River Delta Area is RMB4 billion, RMB3.7 billion, and RMB1.3 billion respectively.
The main technologies of China’s denitration industry are introduced from abroad, such as America’ s B&W, Germany’s Lurgi and FBE, Japan’s Mitsubishi and Hitachi, Italy’s TKC, etc. At present, Chinese manufacturers which provide denitration project include CPI Yuanda Environmental-Protection Engineering Co., Ltd, Fujian Longking Co., Ltd, Dong Fang Boiler Group, Harbin Boiler Company, Beijing Guodian Longyuan Environmental Engineering Co., Ltd., etc.
Based on the requirements of installing denitration devices for thermal power units issued by the Ministry of Environmental Protection of PRC, the report investigates the market capacity of thermal power denitration and SCR denitration catalyst, and analyzes the supply situation and major enterprises.
The main technologies of China’s denitration industry are introduced from abroad, such as America’ s B&W, Germany’s Lurgi and FBE, Japan’s Mitsubishi and Hitachi, Italy’s TKC, etc. At present, Chinese manufacturers which provide denitration project include CPI Yuanda Environmental-Protection Engineering Co., Ltd, Fujian Longking Co., Ltd, Dong Fang Boiler Group, Harbin Boiler Company, Beijing Guodian Longyuan Environmental Engineering Co., Ltd., etc.
Based on the requirements of installing denitration devices for thermal power units issued by the Ministry of Environmental Protection of PRC, the report investigates the market capacity of thermal power denitration and SCR denitration catalyst, and analyzes the supply situation and major enterprises.
1 NOX EMISSION & CONTROL METHODS
1.1 NOx Emission
1.2 Source
1.3 Control Method of Thermal Power NOx
1.4 SCR Denitration Process & Principles
1.4.1 Process
1.4.2 Principles
1.4.3 Catalyst
2 POLICIES ON NOX CONTROL
2.1 Requirements on Thermal Power Denitration Installation
2.2 Emission Standard of Air Pollutants for Thermal Power Plants
2.2.1 Shortcomings
2.2.2 New Standards to be Issued Soon
3 MARKET CAPACITIES OF THERMAL POWER DENITRATION AND SCR DENITRATION CATALYST
3.1 Market Capacity of Thermal Power Denitration
3.1.1 Hypothesis
3.1.2 Analysis
3.2 Market Capacity of SCR Denitration Catalyst
3.2.1 Hypothesis
3.2.2 Market Capacity
4 SUPPLY ANALYSES OF THERMAL POWER DENITRATION AND SCR DENITRATION CATALYST
4.1 Supply Analysis of Thermal Power Denitration
4.1.1 Technology Source
4.1.2 Major Enterprises
4.1.3 Barrier to Entry
4.2 Supply Analysis of SCR Denitration Catalyst
4.2.1 Technology Source
4.2.2 Major Enterprises
4.2.3 Barrier to Entry
4.2.4 Two Problems
5 KEY ENTERPRISE ANALYSIS OF THERMAL POWER DENITRATION INDUSTRY
5.1 CPI Yuanda Environmental-Protection Engineering
5.1.1 Profile
5.1.2 R&D
5.1.3 Operation
5.2 Fujian Longking
5.2.1 Profile
5.2.2 R&D
5.2.3 Operation
5.3 Beijing Guodian Longyuan Environmental Engineering
5.3.1 Profile
5.3.2 R&D
5.3.3 Operation
5.4 Datang Environmental Technologies & Engineering
5.4.1 Profile
5.4.2 R&D
5.4.3 Operation
5.4.4 Latest Advances
5.5 SIDEC
5.5.1 Profile
5.5.2 Competitive Edge
5.5.3 Performance
5.6 GCL Engineering
5.6.1 Profile
5.6.2 R&D
5.6.3 Performance
5.6.4 Latest Advances
5.7 Shandong SanRong Environmental Protection Engineering
5.7.1 Profile
5.7.2 R&D
5.7.3 Performance
5.8 Beijing SPC Environment Protection Tech
5.8.1 Profile
5.8.2 R&D
5.9 Chengdu Dongfang KWH Environmental Protection Catalysts (DKC)
5.9.1 Profile
5.9.2 R&D
5.9.3 Performance
5.10 Jiangsu Longyuan Catalyst
5.10.1 Profile
5.10.2 R&D
5.10.3 Performance
5.11 Zhongtian Environmental Protection Industrial Group
5.11.1 Profile
5.11.2 Technology Source
6 DEVELOPMENT CHARACTERISTICS AND INVESTMENT OPPORTUNITY
6.1 Layout of Denitration Industry Patterns
6.1.1 Initial Stage
6.1.2 Future
6.2 Investment Opportunity
6.2.1 Thermal Power Denitration Industry
6.2.2 SCR Denitration Catalyst Industry
1.1 NOx Emission
1.2 Source
1.3 Control Method of Thermal Power NOx
1.4 SCR Denitration Process & Principles
1.4.1 Process
1.4.2 Principles
1.4.3 Catalyst
2 POLICIES ON NOX CONTROL
2.1 Requirements on Thermal Power Denitration Installation
2.2 Emission Standard of Air Pollutants for Thermal Power Plants
2.2.1 Shortcomings
2.2.2 New Standards to be Issued Soon
3 MARKET CAPACITIES OF THERMAL POWER DENITRATION AND SCR DENITRATION CATALYST
3.1 Market Capacity of Thermal Power Denitration
3.1.1 Hypothesis
3.1.2 Analysis
3.2 Market Capacity of SCR Denitration Catalyst
3.2.1 Hypothesis
3.2.2 Market Capacity
4 SUPPLY ANALYSES OF THERMAL POWER DENITRATION AND SCR DENITRATION CATALYST
4.1 Supply Analysis of Thermal Power Denitration
4.1.1 Technology Source
4.1.2 Major Enterprises
4.1.3 Barrier to Entry
4.2 Supply Analysis of SCR Denitration Catalyst
4.2.1 Technology Source
4.2.2 Major Enterprises
4.2.3 Barrier to Entry
4.2.4 Two Problems
5 KEY ENTERPRISE ANALYSIS OF THERMAL POWER DENITRATION INDUSTRY
5.1 CPI Yuanda Environmental-Protection Engineering
5.1.1 Profile
5.1.2 R&D
5.1.3 Operation
5.2 Fujian Longking
5.2.1 Profile
5.2.2 R&D
5.2.3 Operation
5.3 Beijing Guodian Longyuan Environmental Engineering
5.3.1 Profile
5.3.2 R&D
5.3.3 Operation
5.4 Datang Environmental Technologies & Engineering
5.4.1 Profile
5.4.2 R&D
5.4.3 Operation
5.4.4 Latest Advances
5.5 SIDEC
5.5.1 Profile
5.5.2 Competitive Edge
5.5.3 Performance
5.6 GCL Engineering
5.6.1 Profile
5.6.2 R&D
5.6.3 Performance
5.6.4 Latest Advances
5.7 Shandong SanRong Environmental Protection Engineering
5.7.1 Profile
5.7.2 R&D
5.7.3 Performance
5.8 Beijing SPC Environment Protection Tech
5.8.1 Profile
5.8.2 R&D
5.9 Chengdu Dongfang KWH Environmental Protection Catalysts (DKC)
5.9.1 Profile
5.9.2 R&D
5.9.3 Performance
5.10 Jiangsu Longyuan Catalyst
5.10.1 Profile
5.10.2 R&D
5.10.3 Performance
5.11 Zhongtian Environmental Protection Industrial Group
5.11.1 Profile
5.11.2 Technology Source
6 DEVELOPMENT CHARACTERISTICS AND INVESTMENT OPPORTUNITY
6.1 Layout of Denitration Industry Patterns
6.1.1 Initial Stage
6.1.2 Future
6.2 Investment Opportunity
6.2.1 Thermal Power Denitration Industry
6.2.2 SCR Denitration Catalyst Industry
SELECTED CHARTS
China NOx Emission Increase Trend, 2005-2030
China Thermal Power NOx Emission Increase Trend, 2007-2020
Low Nitrogen Combustion Technology Vs. Flue Gas Denitration Technology
SCR Denitration Process of Typical Thermal Power Plant
Principles of SCR Denitration
Related Policies to Denitration, 2009
Thermal Power Installed Capacity and Proportion by Region, 2009
Denitration Status of Thermal Power Units, 2009
Denitration Market Capacity of Thermal Power Units in Service, 2010-2014
Denitration Market Capacity of New Thermal Power Units, 2010-2014
Denitration Market Capacity of Thermal Power, 2010-2014
SCR Denitration Catalyst Market Capacity of Service Thermal Power Units, 2010-2014
SCR Denitration Catalyst Market Capacity of New Thermal Power Units, 2010-2014
SCR Denitration Catalyst Market Capacity of Thermal Power, 2010-2014
Major Chinese Enterprises with General Contracting of Denitration Projects and Their Technology Source, 2010
Major Enterprises and Output Capacity of SCR Denitration Catalyst in China
Capacity and Operation Time of Part of Power Plant Units with Supply of Denitration Catalysts from CPI Yuanda Environmental-Protection Engineering
Profit Estimation of CPI Yuanda Environmental-Protection Engineering, 2010-2012
Business Structure of Fujian Longking, 2010
Desulfurization Projects of Beijing Guodian Longyuan Environmental Engineering, 2007-2010
SCR Denitration Projects of Datang Environmental Technologies & Engineering
SCR Denitration Projects of SIDEC
Denitration Projects of GCL Engineering
Desulfurization Projects under Construction of Shandong SanRong Environmental Protection Engineering
SCR Denitration Catalyst Sales Performance of Jiangsu Longyuan Catalyst
Evolution Map of Denitration Enterprises
China NOx Emission Increase Trend, 2005-2030
China Thermal Power NOx Emission Increase Trend, 2007-2020
Low Nitrogen Combustion Technology Vs. Flue Gas Denitration Technology
SCR Denitration Process of Typical Thermal Power Plant
Principles of SCR Denitration
Related Policies to Denitration, 2009
Thermal Power Installed Capacity and Proportion by Region, 2009
Denitration Status of Thermal Power Units, 2009
Denitration Market Capacity of Thermal Power Units in Service, 2010-2014
Denitration Market Capacity of New Thermal Power Units, 2010-2014
Denitration Market Capacity of Thermal Power, 2010-2014
SCR Denitration Catalyst Market Capacity of Service Thermal Power Units, 2010-2014
SCR Denitration Catalyst Market Capacity of New Thermal Power Units, 2010-2014
SCR Denitration Catalyst Market Capacity of Thermal Power, 2010-2014
Major Chinese Enterprises with General Contracting of Denitration Projects and Their Technology Source, 2010
Major Enterprises and Output Capacity of SCR Denitration Catalyst in China
Capacity and Operation Time of Part of Power Plant Units with Supply of Denitration Catalysts from CPI Yuanda Environmental-Protection Engineering
Profit Estimation of CPI Yuanda Environmental-Protection Engineering, 2010-2012
Business Structure of Fujian Longking, 2010
Desulfurization Projects of Beijing Guodian Longyuan Environmental Engineering, 2007-2010
SCR Denitration Projects of Datang Environmental Technologies & Engineering
SCR Denitration Projects of SIDEC
Denitration Projects of GCL Engineering
Desulfurization Projects under Construction of Shandong SanRong Environmental Protection Engineering
SCR Denitration Catalyst Sales Performance of Jiangsu Longyuan Catalyst
Evolution Map of Denitration Enterprises