Survey of Methionine (Feed Grade) in China Edition(3)
Nowadays, feed grade methionine is mainly produced in Belgium, Japan, France, the US and so on, and four companies monopolize the production and technology in the world. Then what is the supply and demand situation in the world?
China is a great consumer of feed grade methionine, but there is no domestic feed grade methionine producer yet. All feed grade methionine needed relies on import. Will the domestic production of feed grade methionine be realized or not in the future? Since 2008, there were three important feed grade methionine projects in China, namely BlueStar methionine‘s project, Unis Chemical‘s methionine project and Dalian Sumitomo‘s methionine project. What are the details of the three projects?
Apart from monopoly of production and technology of feed grade methionine, the four foreign producers also control its price. But a breakthrough is coming - one of Chinese producers is going to sell its own methionine in 2010. Which producer is it? What is the potential opportunities for other foreign and Chinese investors?
The major consumption field of feed grade methonine is feed industry in China, accounting for 96.94% of total consumption in 2009. However, the consumption pattern changed little in 2009 compared with the past few years. What is the change? What is the future consumption trend of feed grade methionine in China?
The 2010 edition combines CCM’s 9-year expertise in market research of feed grade methionine.
What is covered in this report?
China is a great consumer of feed grade methionine, but there is no domestic feed grade methionine producer yet. All feed grade methionine needed relies on import. Will the domestic production of feed grade methionine be realized or not in the future? Since 2008, there were three important feed grade methionine projects in China, namely BlueStar methionine‘s project, Unis Chemical‘s methionine project and Dalian Sumitomo‘s methionine project. What are the details of the three projects?
Apart from monopoly of production and technology of feed grade methionine, the four foreign producers also control its price. But a breakthrough is coming - one of Chinese producers is going to sell its own methionine in 2010. Which producer is it? What is the potential opportunities for other foreign and Chinese investors?
The major consumption field of feed grade methonine is feed industry in China, accounting for 96.94% of total consumption in 2009. However, the consumption pattern changed little in 2009 compared with the past few years. What is the change? What is the future consumption trend of feed grade methionine in China?
The 2010 edition combines CCM’s 9-year expertise in market research of feed grade methionine.
What is covered in this report?
- With detailed description and smart analysis of China’s feed grade methionine industry, future investment opportunities may be found in the report or enlightened after reading the report.
- With introduction to production projects of feed grade methionine, a clear picture of competitive landscape within the industry is available especially for foreign investors.
- Future forecast on China’s feed grade methionine industry.
- The import and export analysis.
I Supply and demand situation of feed grade methionine in the world
II Production situation of feed grade methionine in China
II-1 Development history
II-2 Summary of feed grade methionine production
II-3 Feed grade methionine projects in China
II-3.1 Introduction of BlueStar’s feed grade methionine project
II-3.1.1 Overview of the BlueStar’s feed grade methionine project
II-3.1.2 Raw material supply of BlueStar’s feed grade methionine project
II-3.2 Introduction of Unis Chemical’s feed grade methionine project
II-3.2.1 Overview of Unis Chemical’s feed grade methionine project
II-3.2.2 Raw material supply of Unis Chemical’s feed grade methionine’s project
II-3.3 Introduction of Dalian Sumitomo’s feed grade methionine project
II-3.3.1 Overview of Dalian Sumitomo’s feed grade methionine project
II-3.3.2 Raw material supply of Dalian Sumitomo’s feed grade methionine project
II-3.4 Other methionine projects planned or under development in China
II-4 Current production technology
II-4.1 Introduction of cyanohydrin technology
II-4.2 Introduction of Tianjin Rhone-Planc’s technology
III Raw material situation in 2009
III-1 Methanethiol
III-1.1 Current production situation of methanethiol in China
III-1.2 Supply situation of methanethiol’s raw materials
III-1.2.1 Current production situation of methanol in China
III-1.2.2 Current production situation of hydrogen sulfide
III-1.2.3 Problems existing in domestic methanethiol industry
III-2 Acrolein
III-2.1 Current production situation of acrolein in China
III-3 Hydrogen cyanide
III-3.1 Current production situation of acrolein in China
III-4 Sulfuric acid
III-4.1 Current production situation of sulfuric acid in China
IV Price and influencing factors
IV-1 Current price of DLM and MHA in China
IV-2 Other influencing factors of DLM and MHA in 2009
V Import situation of feed grade methionine in 2007-Q1 2010
VI Consumption of methionine in China
VI -1 Market size and share of methionine in major end use segments
VI -2 Brief introduction to major downstream industries in China
VI -2.1 Feed industry
VI -2.2 Food and pharmaceutical industry
VI -3 Key factors and driven forces for the deveopment of methionine in China
VI -3.1 Governmental policies
VI -3.2 Population
VI -3.3 Meat, egg and milk consumption per capita
VI -3.4 Breeding
VI -3.4.1 Pig
VI -3.4.2 Poultry for eggs
VI -3.4.3 Poultry for meat
VI -3.5 China’s feed industry development
VII Future forecast on suply and demand China’s feed grade methionine by 2015
VII-1 Key factors influencing feed grade methionine’s supply and demand in China
VII-2 Forecast on feed grade methionine’s Supply and demand in China by 2015
VIII SWOT analysis and barrier for foreign company to invest on feed grade methionine in China
VIII-1 SWOT analysis of China’s feed grade methionine
VIII-1.1 SWOT analysis of BlueStar’s methionine project
VIII-1.2 SWOT analysis of Unis Chemical’s methionine project
VIII-1.3 SWOT analysis of Dalian Sumitomo methionine’s project
VIII-2 Barriers for foreign company to invest in feed grade methionine in China
IX Conclusion
X Profile
X-1 Current potential manufacturers
X-2 Current researchers
II Production situation of feed grade methionine in China
II-1 Development history
II-2 Summary of feed grade methionine production
II-3 Feed grade methionine projects in China
II-3.1 Introduction of BlueStar’s feed grade methionine project
II-3.1.1 Overview of the BlueStar’s feed grade methionine project
II-3.1.2 Raw material supply of BlueStar’s feed grade methionine project
II-3.2 Introduction of Unis Chemical’s feed grade methionine project
II-3.2.1 Overview of Unis Chemical’s feed grade methionine project
II-3.2.2 Raw material supply of Unis Chemical’s feed grade methionine’s project
II-3.3 Introduction of Dalian Sumitomo’s feed grade methionine project
II-3.3.1 Overview of Dalian Sumitomo’s feed grade methionine project
II-3.3.2 Raw material supply of Dalian Sumitomo’s feed grade methionine project
II-3.4 Other methionine projects planned or under development in China
II-4 Current production technology
II-4.1 Introduction of cyanohydrin technology
II-4.2 Introduction of Tianjin Rhone-Planc’s technology
III Raw material situation in 2009
III-1 Methanethiol
III-1.1 Current production situation of methanethiol in China
III-1.2 Supply situation of methanethiol’s raw materials
III-1.2.1 Current production situation of methanol in China
III-1.2.2 Current production situation of hydrogen sulfide
III-1.2.3 Problems existing in domestic methanethiol industry
III-2 Acrolein
III-2.1 Current production situation of acrolein in China
III-3 Hydrogen cyanide
III-3.1 Current production situation of acrolein in China
III-4 Sulfuric acid
III-4.1 Current production situation of sulfuric acid in China
IV Price and influencing factors
IV-1 Current price of DLM and MHA in China
IV-2 Other influencing factors of DLM and MHA in 2009
V Import situation of feed grade methionine in 2007-Q1 2010
VI Consumption of methionine in China
VI -1 Market size and share of methionine in major end use segments
VI -2 Brief introduction to major downstream industries in China
VI -2.1 Feed industry
VI -2.2 Food and pharmaceutical industry
VI -3 Key factors and driven forces for the deveopment of methionine in China
VI -3.1 Governmental policies
VI -3.2 Population
VI -3.3 Meat, egg and milk consumption per capita
VI -3.4 Breeding
VI -3.4.1 Pig
VI -3.4.2 Poultry for eggs
VI -3.4.3 Poultry for meat
VI -3.5 China’s feed industry development
VII Future forecast on suply and demand China’s feed grade methionine by 2015
VII-1 Key factors influencing feed grade methionine’s supply and demand in China
VII-2 Forecast on feed grade methionine’s Supply and demand in China by 2015
VIII SWOT analysis and barrier for foreign company to invest on feed grade methionine in China
VIII-1 SWOT analysis of China’s feed grade methionine
VIII-1.1 SWOT analysis of BlueStar’s methionine project
VIII-1.2 SWOT analysis of Unis Chemical’s methionine project
VIII-1.3 SWOT analysis of Dalian Sumitomo methionine’s project
VIII-2 Barriers for foreign company to invest in feed grade methionine in China
IX Conclusion
X Profile
X-1 Current potential manufacturers
X-2 Current researchers
LIST OF TABLES
Table II-3.1.1.1 Major information of BlueStar’s feed grade methionine site, May 2010
Table II-3.1.1.2 Key companies located in NCIP and their major products
Table II-3.2.1.1 Major information of Unis Chemical’s feed grade methionine site, May 2010
Table II-3.2.1.2 Main constructions in Unis Chemical’s feed grade methionine site
Table II-3.2.2.1 Raw material supply for Unis Chemical’s feed grade methionine project
Table II-3.3.1.1 Major information of Dalian Sumitomo‘s feed grade methionine site, May 2010
Table II-3.3.1.2 Major facilities for Dalian Sumitomo’s feed grade methionine project
Table II-3.4.1 Other feed grade methionine projects planed or under development in China, May 2010
Table II-3.4.2 Basic information of Sichuan Hebang’s feed grade methionine project
Table II-3.4.3 Basic information of Shandong Qiaochang’s feed grade methionine project
Table III-1.1.1 Previous producers of methanethiol in China
Table III-1.2.1.1 Supply and demand of methanol in China, 2005-2009, ‘000 tonnes
Table III-2.1.1 Information of Acrolein producers in China, 2009
Table III-3.1.1 Major producers of HCN by acrylonitrile pathway in China, 2009
Table III-3.1.2 Major producers of HCN by natural gas pathway in China, 2009
Table III-3.1.3 Major producers of HCN by light oil cracking method in China, 2009
Table III-4.1.1 Production situation of different sulfuric acid production pathways in China, 2005-2009, ‘000 tonnes
Table III-4.1.2 Situation of sulfur in China, 2005-2009, ‘000 tonnes
Table V-1 Import quantity and unit price of DLM in China, 2007-Q1 2010 (Quantity: kg, Unit price: USD/kg)
Table V-2 Import quantity and unit price of MHA in China, 2007-Q1 2010 (Quantity: kg, Unit price: USD/kg)
Table V-3 Import situation of DLM importers in China, Q1 2010 (Quantity: kg, Unit price: USD/kg)
Table V-4 Import situation of DLM importers in China, 2009 (Quantity: kg, Unit price: USD/kg)
Table V-5 Import situation of DLM importers in China, 2008 (Quantity: kg, Unit price: USD/kg)
Table V-6 Import situation of DLM importers in China, 2007 (Quantity: kg, Unit price: USD/kg)
Table V-7 Import situation of MHA importers in China, Q1 2010 (Quantity: kg, Unit price: USD/kg)
Table V-8 Import situation of MHA importers in China, 2009 (Quantity: kg, Unit price: USD/kg)
Table V-9 Import situation of MHA importers in China, 2008 (Quantity: kg, Unit price: USD/kg)
Table V-10 Import situation of MHA importers in China, 2007 (Quantity: kg, Unit price: USD/kg)
Table V-11 Import origins of Chinese DLM, Q1 2010 (Quantity: kg, Unit price: USD/kg)
Table V-120 Import origins of Chinese DLM, 2009 (Quantity: kg, Unit price: USD/kg)
Table V-13 Import origins of Chinese DLM, 2008 (Quantity: kg, Unit price: USD/kg)
Table V-14 Import origins of Chinese DLM, 2007 (Quantity: kg, Unit price: USD/kg)
Table V-15 Import origins of Chinese MHA, Q1 2010 (Quantity: kg, Unit price: USD/kg)
Table V-16 Import origins of Chinese MHA, 2009 (Quantity: kg, Unit price: USD/kg)
Table V-17 Import origins of Chinese MHA, 2008(Quantity: kg, Unit price: USD/kg)
Table V-18 Import origins of Chinese MHA, 2007(Quantity: kg, Unit price: USD/kg)
Table VI-1.1 Consumption structure of feed grade methionine in China, 2005-2009, tonne
Table VI-1.2 Consumption structure of feed grade methionine in China, 2009, tonne)
Table VI-2.1.1 Methionine consumption share in feed industry in China, 2005-2009, tonne
Table VI-2.1.2 Methionine consumption share in different feeds in China, 2009, tonne
Table VI-2.1.3 Comparison of DLM and MHA
Table VI-2.1.4 Feed grade methionine consumption in some feed companies, 2009, tonne
Table VI-2.2.1 DLM’s consumption in food and pharmaceutical industry, 2007-2009, tonne
Table VI-2.2.2 DLM’s end users in food and pharmaceutical industry, 2009, tonne)
Table VI-3.3.1 Per capita consumption of meat, eggs and milk, 2005-2009, kg/a
Table VI-3.4.1 Production situation of animal products in China, 2005-2009, ‘000 tonnes
Table VI-3.4.2 Growth rate of animal products in China, 2005-2009
Table VI-3.4.3 Quantity of animals in China, 2005-2009, ‘000
Table VI-3.5.1 Output of feed in China, 2000-2009, ‘000 tonnes
Table VI-3.5.2 Output of different feeds in China, 2005-2009, ‘000 tonnes
Table VI-3.5.3 Production situation of formula feed in China, 2005-2009, ‘000 tonnes
Table VI-3.5.4 Production situation of Concentrate feed in China, 2005-2009, ‘000 tonnes
Table VI-3.5.5 Production situation of premixed feed in China, 2005-2009, ‘000 tonnes)
Table II-3.1.1.1 Major information of BlueStar’s feed grade methionine site, May 2010
Table II-3.1.1.2 Key companies located in NCIP and their major products
Table II-3.2.1.1 Major information of Unis Chemical’s feed grade methionine site, May 2010
Table II-3.2.1.2 Main constructions in Unis Chemical’s feed grade methionine site
Table II-3.2.2.1 Raw material supply for Unis Chemical’s feed grade methionine project
Table II-3.3.1.1 Major information of Dalian Sumitomo‘s feed grade methionine site, May 2010
Table II-3.3.1.2 Major facilities for Dalian Sumitomo’s feed grade methionine project
Table II-3.4.1 Other feed grade methionine projects planed or under development in China, May 2010
Table II-3.4.2 Basic information of Sichuan Hebang’s feed grade methionine project
Table II-3.4.3 Basic information of Shandong Qiaochang’s feed grade methionine project
Table III-1.1.1 Previous producers of methanethiol in China
Table III-1.2.1.1 Supply and demand of methanol in China, 2005-2009, ‘000 tonnes
Table III-2.1.1 Information of Acrolein producers in China, 2009
Table III-3.1.1 Major producers of HCN by acrylonitrile pathway in China, 2009
Table III-3.1.2 Major producers of HCN by natural gas pathway in China, 2009
Table III-3.1.3 Major producers of HCN by light oil cracking method in China, 2009
Table III-4.1.1 Production situation of different sulfuric acid production pathways in China, 2005-2009, ‘000 tonnes
Table III-4.1.2 Situation of sulfur in China, 2005-2009, ‘000 tonnes
Table V-1 Import quantity and unit price of DLM in China, 2007-Q1 2010 (Quantity: kg, Unit price: USD/kg)
Table V-2 Import quantity and unit price of MHA in China, 2007-Q1 2010 (Quantity: kg, Unit price: USD/kg)
Table V-3 Import situation of DLM importers in China, Q1 2010 (Quantity: kg, Unit price: USD/kg)
Table V-4 Import situation of DLM importers in China, 2009 (Quantity: kg, Unit price: USD/kg)
Table V-5 Import situation of DLM importers in China, 2008 (Quantity: kg, Unit price: USD/kg)
Table V-6 Import situation of DLM importers in China, 2007 (Quantity: kg, Unit price: USD/kg)
Table V-7 Import situation of MHA importers in China, Q1 2010 (Quantity: kg, Unit price: USD/kg)
Table V-8 Import situation of MHA importers in China, 2009 (Quantity: kg, Unit price: USD/kg)
Table V-9 Import situation of MHA importers in China, 2008 (Quantity: kg, Unit price: USD/kg)
Table V-10 Import situation of MHA importers in China, 2007 (Quantity: kg, Unit price: USD/kg)
Table V-11 Import origins of Chinese DLM, Q1 2010 (Quantity: kg, Unit price: USD/kg)
Table V-120 Import origins of Chinese DLM, 2009 (Quantity: kg, Unit price: USD/kg)
Table V-13 Import origins of Chinese DLM, 2008 (Quantity: kg, Unit price: USD/kg)
Table V-14 Import origins of Chinese DLM, 2007 (Quantity: kg, Unit price: USD/kg)
Table V-15 Import origins of Chinese MHA, Q1 2010 (Quantity: kg, Unit price: USD/kg)
Table V-16 Import origins of Chinese MHA, 2009 (Quantity: kg, Unit price: USD/kg)
Table V-17 Import origins of Chinese MHA, 2008(Quantity: kg, Unit price: USD/kg)
Table V-18 Import origins of Chinese MHA, 2007(Quantity: kg, Unit price: USD/kg)
Table VI-1.1 Consumption structure of feed grade methionine in China, 2005-2009, tonne
Table VI-1.2 Consumption structure of feed grade methionine in China, 2009, tonne)
Table VI-2.1.1 Methionine consumption share in feed industry in China, 2005-2009, tonne
Table VI-2.1.2 Methionine consumption share in different feeds in China, 2009, tonne
Table VI-2.1.3 Comparison of DLM and MHA
Table VI-2.1.4 Feed grade methionine consumption in some feed companies, 2009, tonne
Table VI-2.2.1 DLM’s consumption in food and pharmaceutical industry, 2007-2009, tonne
Table VI-2.2.2 DLM’s end users in food and pharmaceutical industry, 2009, tonne)
Table VI-3.3.1 Per capita consumption of meat, eggs and milk, 2005-2009, kg/a
Table VI-3.4.1 Production situation of animal products in China, 2005-2009, ‘000 tonnes
Table VI-3.4.2 Growth rate of animal products in China, 2005-2009
Table VI-3.4.3 Quantity of animals in China, 2005-2009, ‘000
Table VI-3.5.1 Output of feed in China, 2000-2009, ‘000 tonnes
Table VI-3.5.2 Output of different feeds in China, 2005-2009, ‘000 tonnes
Table VI-3.5.3 Production situation of formula feed in China, 2005-2009, ‘000 tonnes
Table VI-3.5.4 Production situation of Concentrate feed in China, 2005-2009, ‘000 tonnes
Table VI-3.5.5 Production situation of premixed feed in China, 2005-2009, ‘000 tonnes)
LIST OF FIGURES
Figure I-1 Feed grade methionine’s production situation in the world, 2009
Figure I-2 DLM production situation in the world, 2009
Figure I-3 MHA production situation in the world, 2009
Figure II-4.1.1 Procedure of cyanohydrin technology
Figure II-4.2.1 Procedure of Tianjin Rhone-Planc’s technology
Figure 1.2.1.1Methanol’s consumption pattern in China, 2009
Figure III-1.2.2.1 Output of Sulfur in China, 2005-2009
Figure III-3.1.1 Share of different HCN production pathways in China
Figure III-4.1.1 Import situation of sulfuric acid and sulfur in China, 2005-2009
Figure III-4.1.2 Consumption pattern of sulfuric acid in China, 2009
Figure IV-1.1 Average price of DLM and MHA in China, 2006-Q1 2010.
Figure VI-1.1 Consumption structure of DLM in China in 2009
Figure VI-2.1.1 Methionine consumption in different kinds of feeds in China, 2009
Figure VI-2.1.2 Methionine consumption in feeds for different kinds of animals in China in 2009
Figure VI-2.2.3 Consumption structure of methionine in China, 2007-2009
Figure VI-3.1 Relationship among human, animals, feed industry and feed grade methionine.
Figure VI-3.2 Ratio of feed grade methionine consumption against population, feed, meat and eggs, 2005-2009
Figure VI-3.2.1 Population and growth rate in China, 2005-2009
Figure VI-3.3.1 Per capita consumption of meat, egg and milk in rural population in the past several years
Figure VI-3.3.2 Per capita consumption of meat, egg and milk in urban population in the past several years
Figure VI-3.4.1 China’s and world’s meat output and China’s share in the world in 2009
Figure VI-3.5.1 Relationship of different feeds
Figure VI-3.5.2 Structure of output of feed for different animals in China, 2009
Figure VII-2.1 Future forecast on DLM’s supply and demand in China, 2010-2015
Figure VII-2.2 Future forecast on MHA’s supply and demand in China, 2010-2015
Figure I-1 Feed grade methionine’s production situation in the world, 2009
Figure I-2 DLM production situation in the world, 2009
Figure I-3 MHA production situation in the world, 2009
Figure II-4.1.1 Procedure of cyanohydrin technology
Figure II-4.2.1 Procedure of Tianjin Rhone-Planc’s technology
Figure 1.2.1.1Methanol’s consumption pattern in China, 2009
Figure III-1.2.2.1 Output of Sulfur in China, 2005-2009
Figure III-3.1.1 Share of different HCN production pathways in China
Figure III-4.1.1 Import situation of sulfuric acid and sulfur in China, 2005-2009
Figure III-4.1.2 Consumption pattern of sulfuric acid in China, 2009
Figure IV-1.1 Average price of DLM and MHA in China, 2006-Q1 2010.
Figure VI-1.1 Consumption structure of DLM in China in 2009
Figure VI-2.1.1 Methionine consumption in different kinds of feeds in China, 2009
Figure VI-2.1.2 Methionine consumption in feeds for different kinds of animals in China in 2009
Figure VI-2.2.3 Consumption structure of methionine in China, 2007-2009
Figure VI-3.1 Relationship among human, animals, feed industry and feed grade methionine.
Figure VI-3.2 Ratio of feed grade methionine consumption against population, feed, meat and eggs, 2005-2009
Figure VI-3.2.1 Population and growth rate in China, 2005-2009
Figure VI-3.3.1 Per capita consumption of meat, egg and milk in rural population in the past several years
Figure VI-3.3.2 Per capita consumption of meat, egg and milk in urban population in the past several years
Figure VI-3.4.1 China’s and world’s meat output and China’s share in the world in 2009
Figure VI-3.5.1 Relationship of different feeds
Figure VI-3.5.2 Structure of output of feed for different animals in China, 2009
Figure VII-2.1 Future forecast on DLM’s supply and demand in China, 2010-2015
Figure VII-2.2 Future forecast on MHA’s supply and demand in China, 2010-2015
