Survey of Herbicides in China
The report comprises key findings (Word) and trade analysis (Excel)
Two species of guanidine phosphate are produced in China now, and they are Prim guanidine phosphate and Sec guanidine phosphate. Both Prim guanidine phosphate and Sec guanidine phosphate can be consumed in flame retardant. The aim of this report is to provide basic understanding to the Chinese guanidine phosphate. In this report, the production, price and export of guanidine phosphate are mainly introduced. Besides, the active manufacturers are also listed.
In this report, you can easily find out
- who are your competitors?
- who are your potential business partners?
- which countries also consume guanidine phosphate?
EXECUTIVE SUMMARY
METHODOLOGY
I OVERVIEW OF CHINESE HERBICIDES INDUSTRY
II GLYPHOSATE
III ACETOCHLOR
IV PARAQUAT
V BUTACHLOR
VI ATRAZINE
VII QUIZALOFOP-P-ETHYL
VIII NICOSULFURON
X OTHER HERBICIDES
IX-1 Alachlor
IX-2 Metolachlor
IX-3 Glufosinate-ammonium
METHODOLOGY
I OVERVIEW OF CHINESE HERBICIDES INDUSTRY
II GLYPHOSATE
III ACETOCHLOR
IV PARAQUAT
V BUTACHLOR
VI ATRAZINE
VII QUIZALOFOP-P-ETHYL
VIII NICOSULFURON
X OTHER HERBICIDES
IX-1 Alachlor
IX-2 Metolachlor
IX-3 Glufosinate-ammonium
LIST OF TABLES
Table I.1 Classifications of herbicide
Table II.1 Registration situation of glyphosate in China, as of Aug. 23, 2010
Table II.2 Output of glyphosate technical in China by different pathways, 2005-2009
Table II.3 Key producers of glyphosate technical in China, as of Sep. 2010
Table II.4 Comparison of different pathways
Table II.5 Drivers and barriers for the development of glyphosate industry in China
Table III.1 Registration situation of acetochlor in China, as of Aug. 23, 2010
Table III.2 Key producers of acetochlor technical in China, as of Sep. 2010
Table III.3 Material consumption quota for two acetochlor production pathway, kg/t butachlor 100% AI
Table III.4 Drivers and barriers for the development of acetochlor industry in China
Table IV.1 Registration situation of paraquat in China, as of Aug. 23, 2010
Table IV.2 Supply and demand of paraquat in China, 2003~2009, tonne
Table IV.3 Key producers of paraquat TK in China, as of Sep. 2010
Table IV.4 Current situation of paraquat technology in China, 2010
Table V.1 Registration situation of butachlor in China, as of Aug. 23, 2010
Table V.2 Key producers of butachlor technical in China, as of Sep. 2010
Table V.3 Material consumption quota for two butachlor production pathways, kg/t butachlor 100% AI
Table V.4 Drivers and barriers for the development of butachlor industry in China
Table VI.1 Registration situation of atrazine in China, as of Aug. 23, 2010
Table VI.2 Key producers of atrazine technical in China, as of Sep. 2010
Table VI.3 Comparison of solvent route and water route for atrazine production
Table VII.1 Registration situation of quizalofop-P-ethyl in China, as of Aug. 23, 2010
Table VII.2 Comparison of quizalofop-P-ethyl and its competitive products
Table VII.3 Key producers of quizalofop-P-ethyl technical in China, as of Sep. 2010
Table VII.4 Comparison of the two production routes of quizalofop-P-ethyl
Table VII.5 Drivers and barriers for the development of quizalofop-P-ethyl industry in China
Table VIII.1 Registration situation of nicosulfuron in China, as of Aug. 23, 2010
Table VIII.2 Key producers of nicosulfuron technical in China, as of Sep. 2010
Table VIII.3 Drivers and barriers for the development of nicosulfuron industry in China
Table IX-1.1 Registration situation of alachlor in China, as of Aug. 23, 2010
Table IX-1.2 Key producers of alachlor technical in China, as of Sep. 2010
Table IX-2.1 Registration situation of metolachlor in China, as of Aug. 23, 2010
Table IX-2.2 Key producers of metolachlor technical in China, as of Sep. 2010
Table IX-3.1 Registration situation of glufosinate-ammonium in China, as of Aug. 23, 2010
Table I.1 Classifications of herbicide
Table II.1 Registration situation of glyphosate in China, as of Aug. 23, 2010
Table II.2 Output of glyphosate technical in China by different pathways, 2005-2009
Table II.3 Key producers of glyphosate technical in China, as of Sep. 2010
Table II.4 Comparison of different pathways
Table II.5 Drivers and barriers for the development of glyphosate industry in China
Table III.1 Registration situation of acetochlor in China, as of Aug. 23, 2010
Table III.2 Key producers of acetochlor technical in China, as of Sep. 2010
Table III.3 Material consumption quota for two acetochlor production pathway, kg/t butachlor 100% AI
Table III.4 Drivers and barriers for the development of acetochlor industry in China
Table IV.1 Registration situation of paraquat in China, as of Aug. 23, 2010
Table IV.2 Supply and demand of paraquat in China, 2003~2009, tonne
Table IV.3 Key producers of paraquat TK in China, as of Sep. 2010
Table IV.4 Current situation of paraquat technology in China, 2010
Table V.1 Registration situation of butachlor in China, as of Aug. 23, 2010
Table V.2 Key producers of butachlor technical in China, as of Sep. 2010
Table V.3 Material consumption quota for two butachlor production pathways, kg/t butachlor 100% AI
Table V.4 Drivers and barriers for the development of butachlor industry in China
Table VI.1 Registration situation of atrazine in China, as of Aug. 23, 2010
Table VI.2 Key producers of atrazine technical in China, as of Sep. 2010
Table VI.3 Comparison of solvent route and water route for atrazine production
Table VII.1 Registration situation of quizalofop-P-ethyl in China, as of Aug. 23, 2010
Table VII.2 Comparison of quizalofop-P-ethyl and its competitive products
Table VII.3 Key producers of quizalofop-P-ethyl technical in China, as of Sep. 2010
Table VII.4 Comparison of the two production routes of quizalofop-P-ethyl
Table VII.5 Drivers and barriers for the development of quizalofop-P-ethyl industry in China
Table VIII.1 Registration situation of nicosulfuron in China, as of Aug. 23, 2010
Table VIII.2 Key producers of nicosulfuron technical in China, as of Sep. 2010
Table VIII.3 Drivers and barriers for the development of nicosulfuron industry in China
Table IX-1.1 Registration situation of alachlor in China, as of Aug. 23, 2010
Table IX-1.2 Key producers of alachlor technical in China, as of Sep. 2010
Table IX-2.1 Registration situation of metolachlor in China, as of Aug. 23, 2010
Table IX-2.2 Key producers of metolachlor technical in China, as of Sep. 2010
Table IX-3.1 Registration situation of glufosinate-ammonium in China, as of Aug. 23, 2010
LIST OF FIGURES
Figure I.1 Capacity and output of herbicides, 2004-2009
Figure I.2 Market share of herbicides by category and market value in China, 2009
Figure I.3 Consumption structure of major herbicides in China by volume, 2009
Figure II.1 Output of glyphosate technical, 2004-2009
Figure II.2 Different pathways of glyphosate technical production in China
Figure II.3 Price change of glyphosate technical in China, 2005-2010
Figure II.4 Consumption pattern of glyphosate in China by volume, 2009
Figure II.5 Forecast on supply of glyphosate technical in China, 2010-2015
Figure III.1 Output of acetochlor technical, 2004-2009
Figure III.2 Price change of acetochlor technical in China, 2005-2010
Figure III.3 Consumption structure of acetochlor in China by volume, 2009
Figure III.4 Forecast on supply of acetochlor technical in China, 2010-2015
Figure IV.1 Output of paraquat TK, 2004-2009
Figurer IV.2 Chemical principle of MC process and WC process
Figurer IV.3 Flowchart of AC process
Figure IV.4 Price of paraquat TK in China, 2005-2010
Figure IV.5 Consumption pattern of paraquat in China by volume, 2009
Figure IV.6 Forecast on supply of paraquat TK in China, 2010-2015
Figure V.1 Output of butachlor technical, 2004-2009
Figure V.2 Price change of butachlor technical in China, 2005-2010
Figure V.3 Price change of butachlor technical in China, Jan. 2008-Aug. 2010
Figure V.4 Consumption structure of butachlor in China by volume, 2009
Figure V.5 Forecast on supply of butachlor technical in China, 2010-2015
Figure VI.1 Output of atrazine technical, 2005-2009
Figure VI.2 Flowchart of solvent route
Figure VI.3 Main reasons for price soar of atrazine technical in 2008
Figure VI.4 Price change of atrazine technical in China, 2005-2010
Figure VI.5 Consumption pattern of atrazine in China by volume, 2009
Figure VI.6 Driving forces and barriers for development of Chinese atrazine
Figure VI.7 Forecast on supply of atrazine technical in China, 2010-2015
Figure VII.1 Output of quizalofop-P-ethyl technical, 2005-2009
Figure VII.2 Flowchart of A route
Figure VII.3 Flowchart of B route
Figure VII.4 Price of quizalofop-P-ethyl technical in China, 2008 - Aug. 2010
Figure VII.5 Distribution of quizalofop-P-ethyl application in China, 2009
Figure VII.6 Forecast on supply of quizalofop-P-ethyl technical in China, 2010-2015
Figure VIII.1 Registrations of nicosulfuron technical, as of Aug. 23, 2010
Figure VIII.2 Output of nicosulfuron technical in China, 2007~2009
Figure VIII.3 Price change of nicosulfuron technical in China, 2009 - Apr. 2010
Figure VIII.4 Consumption pattern of nicosulfuron in China by volume, 2009
Figure VIII.5 Forecast on supply of nicosulfuron technical in China, 2010-2015
Figure I.1 Capacity and output of herbicides, 2004-2009
Figure I.2 Market share of herbicides by category and market value in China, 2009
Figure I.3 Consumption structure of major herbicides in China by volume, 2009
Figure II.1 Output of glyphosate technical, 2004-2009
Figure II.2 Different pathways of glyphosate technical production in China
Figure II.3 Price change of glyphosate technical in China, 2005-2010
Figure II.4 Consumption pattern of glyphosate in China by volume, 2009
Figure II.5 Forecast on supply of glyphosate technical in China, 2010-2015
Figure III.1 Output of acetochlor technical, 2004-2009
Figure III.2 Price change of acetochlor technical in China, 2005-2010
Figure III.3 Consumption structure of acetochlor in China by volume, 2009
Figure III.4 Forecast on supply of acetochlor technical in China, 2010-2015
Figure IV.1 Output of paraquat TK, 2004-2009
Figurer IV.2 Chemical principle of MC process and WC process
Figurer IV.3 Flowchart of AC process
Figure IV.4 Price of paraquat TK in China, 2005-2010
Figure IV.5 Consumption pattern of paraquat in China by volume, 2009
Figure IV.6 Forecast on supply of paraquat TK in China, 2010-2015
Figure V.1 Output of butachlor technical, 2004-2009
Figure V.2 Price change of butachlor technical in China, 2005-2010
Figure V.3 Price change of butachlor technical in China, Jan. 2008-Aug. 2010
Figure V.4 Consumption structure of butachlor in China by volume, 2009
Figure V.5 Forecast on supply of butachlor technical in China, 2010-2015
Figure VI.1 Output of atrazine technical, 2005-2009
Figure VI.2 Flowchart of solvent route
Figure VI.3 Main reasons for price soar of atrazine technical in 2008
Figure VI.4 Price change of atrazine technical in China, 2005-2010
Figure VI.5 Consumption pattern of atrazine in China by volume, 2009
Figure VI.6 Driving forces and barriers for development of Chinese atrazine
Figure VI.7 Forecast on supply of atrazine technical in China, 2010-2015
Figure VII.1 Output of quizalofop-P-ethyl technical, 2005-2009
Figure VII.2 Flowchart of A route
Figure VII.3 Flowchart of B route
Figure VII.4 Price of quizalofop-P-ethyl technical in China, 2008 - Aug. 2010
Figure VII.5 Distribution of quizalofop-P-ethyl application in China, 2009
Figure VII.6 Forecast on supply of quizalofop-P-ethyl technical in China, 2010-2015
Figure VIII.1 Registrations of nicosulfuron technical, as of Aug. 23, 2010
Figure VIII.2 Output of nicosulfuron technical in China, 2007~2009
Figure VIII.3 Price change of nicosulfuron technical in China, 2009 - Apr. 2010
Figure VIII.4 Consumption pattern of nicosulfuron in China by volume, 2009
Figure VIII.5 Forecast on supply of nicosulfuron technical in China, 2010-2015