Global Commercial Opportunities Derived from Glyphosate Industry

Global Commercial Opportunities Derived from Glyphosate Industry

Glyphosate has witnessed stunningly fast development since 2007, boosting the development of its upstream products including DEA, glycine, IDAN, DMP, etc.

-What is the future development trend of glyphosate supply and demand?
-How about the current and future competition of the three glyphosate production routes?
-What about the supply and demand of main raw materials of glyphosate globally?
-Is glyphosate production going to transfer from China and the U.S. to other countries?
-Whether Chinese glyphosate production will transfer from East China to West China?
-What opportunities will arise from the future development of glyphosate industry?
……

With the above doubts, CCM starts this research on global commercial opportunities derived from glyphosate industry.

This intelligent report, finished by CCM international in May 2011, conducts opportunity analysis of glyphosate upstream industries based on the projection of the future development of global industry from the aspects of supply, demand, possible transfer, technology innovation, etc..

This report is comprised of three chapters, namely
-Global glyphosate technical supply & demand and technology;
-Global supply & demand and consumption of upstream products of glyphosate including DEA, ethylene oxide, IDAN, glycine, yellow phosphorus, DMP, phosphorus trichloride, chlor-alkali, methanol, etc.;
-Opportunities and recommendations for market participants involved in petrochemical industry, natural gas chemical industry, phosphorus industry, coal industry, chlor-alkali industry, etc.

This report mainly focuses on the following aspects:
-Analysis of supply and demand of glyphosate technical, 2006-2020;
-Introduction and comparison of different production routes of glyphosate;
-Projection of glyphosate supply by route, 2011-2020;
-Projection of possible transfer of glyphosate production in the world in the future;
-Introduction of supply & demand and consumption of glycine, IDAN, DEA, ethylene oxide, paraformaldehyde, yellow phosphorus, phosphorus trichloride, dimethyl phosphite, chlor-alkali, and methanol, 2006/2008-2010, 2011-2020;
-Analysis of upstream opportunities derived from global glyphosate development.


Who need to subscribe?

- Glyphosate producers paying close attention to global glyphosate supply & demand, glyphosate consumption distribution, as well as future development trend, possible capacity transfer, etc.
- Investors who attach importance to current and future global glyphosate supply and demand, competition among different glyphosate production routes, current technology development level and future development trends, possible capacity transfer, etc.
- Petrochemicals (ethylene, ethylene oxide/ethylene glycol, ethanolamine) suppliers who want to know global DEA supply and demand, historic and future DEA route glyphosate production, technology comparison between DEA route and the other two routes, opportunities derived, etc.
- Natural gas chemicals (HCN, IDAN) suppliers who want to know IDAN supply and demand globally and in China, historic and future IDAN route glyphosate production, current technology level of IDAN route, technology comparison of three production routes, opportunities derived, etc.
- Phosphorus chemicals (yellow phosphorus, phosphorus trichloride, dimethyl phosphite) suppliers who want to grasp supply and demand of these products globally, historic and future AEA route glyphosate production, current technology level of AEA route, technology comparison of three production routes, opportunities derived, etc.
- Analysts and consultants trying to gain insight into global supply, demand, and technology level of glyphosate, supply & demand and consumption of upstream products of glyphosate, as well as future development trends of all products mentioned in this report.
"Content
? Executive summary

? Definition, research scope and methodology

? - Definition and research scope

? - Methodology

I Overview of global glyphosate industry

I-1 Overview of global glyphosate supply (distribution, production, circulation)

I-2 Overview of global glyphosate demand

I-3 Forecast on global glyphosate industry for 10 years

I-3.1 Factors influencing global glyphosate supply and demand

I-3.2 Forecast on glyphosate demand in future 10 years

II Development trend of glyphosate technical production routes

II-1 Introduction to current situation and market share of the three major production routes

II-2 Introduction to glyphosate technical production technology

II-2.1 AEA route

II-2.2 DEA route

II-2.3 IDAN route

II-2.4 Other routes

II-3 Competitiveness Analysis of different route

II-3.1 Comparison of technology requirement

- Synthesis technology of glyphosate technical

- Investment

- Product quality

- Waste treatment technology

II-3.2 Comparison of key raw material accessibility

II-3.3 Cost of glyphosate technical by route

II-3.4 Forecast on development trend and market share of three major production routes and potential new routes

III Global glyphosate capacity integration and possible industrial transfer

III-1 Outstanding characters of current global glyphosate capacity distribution

III-2 Historical global capacity redistribution

III-3 Analysis on factors influencing glyphosate capacity redistribution and industrial transfer

III-3.1 Influencing Factors

III-3.2 Rating of factor importance

III-4 Forecast on global glyphosate capacity redistribution

III-5 Forecast on global glyphosate capacity re-distribution and industrial transfer

III-5.1 Questionnaire result

III-5.2 Step-by-step analysis

III-5.3 Analysis of possible regions

IV Opportunities derived from development of global glyphosate industry -Investment and upstream raw materials

IV-1 Overview of value chain and profitable nodes in glyphosate upstream industries

IV-2 Investment and raw material supply opportunities in DEA route

IV-2.1 Opportunities overview for investment on DEA route

IV-2.2 Diethanolamine

IV-2.2.1 Global diethanolamine production and supply

IV-2.2.2 Export situation in major production regions

IV-2.2.3 Global consumption, especially for glyphosate industry

IV-2.2.4 Forecast on future consumption

IV-2.2.5 Opportunities for diethanolamine suppliers for glyphosate industry

IV-2.3 Ethylene oxide

IV-2.3.1 Global ethylene oxide production and supply

IV-2.3.2 Global consumption, especially for glyphosate industry

IV-2.3.3 Forecast on future consumption

IV-3 Investment and raw material supply opportunities in AEA route

IV-3.1 Opportunities overview for investment on AEA route

IV-3.2 Glycine

IV-3.2.1 Global glycine production and supply

IV-3.2.2 Global glycine consumption

IV-3.2.3 Opportunities and challenges for glycine raw materials suppliers for glyphosate industry

IV-3.3 Paraformaldehyde

IV-3.3.1 Global overview

IV-3.3.2 Paraformaldehyde market situation in Asia

IV-3.3.3 Paraformaldehyde market situation in Europe

IV-3.3.4 Paraformaldehyde market situation in America

IV-3.3.5 Paraformaldehyde market situation in Africa and Oceania

IV-3.3.6 Global forecast to 2015

IV-4 Investment and raw material supply opportunities in IDAN route

IV-4.1 Opportunities overview for investment on IDAN route

IV-4.2 IDAN

IV-4.2.1 Global overview of IDAN industry

IV-4.2.2 Global IDAN production

IV-4.2.3 Influencing factors and cost structure of IDAN production

IV-4.2.4 Global IDAN consumption, especially for glyphosate industry

IV-4.2.5 Opportunities and challenges for IDAN and raw material suppliers for glyphosate industry

IV-5 Investment and supply opportunities for the universal upstream raw materials for glyphosate

IV-5.1 Phosphorus Chemicals

IV-5.1.1 Overview of global supply situation of phosphorus chemicals relevant to glyphosate

? - Phosphorus ore

? - Yellow phosphorus

? - Phosphorus trichloride

? - Dimethyl phosphite

IV-5.1.2 Production and consumption of yellow phosphorus

IV-5.1.3 Phosphorus trichloride and DMP supply in major glyphosate production regions and potential regions

IV-5.1.4 Global forecast to 2015

IV-5.1.5 Opportunities derived from global glyphosate industry development

IV-5.2 Chlor-alkali products

IV-5.2.1 Global overview of chlor-alkali industry

IV-5.2.2 Impacts of chlor-alkali products supply on glyphosate production

IV-5.3 Methanol

IV-5.3.1 Overview of global methanol supply

IV-5.3.2 Overview of global methanol consumption

IV-5.3.3 Interaction between glyphosate industry and methanol

V Non-product opportunities derived from development of global glyphosate industry

V-1 Technology solutions

? - Yield improvement

? - By-product recycling

? - Waste treatment

V-2 International trade and agent

VI Opportunities and recommendations for global petrochemical enterprises

VI-1 Profitable and promising nodes in the glyphosate value Chain related to petrochemical enterprises

VI-2 Future potential opportunities and investment direction

VII Opportunities and recommendations for market participant involved in natural gas chemical industry

VII-1 Current investment movements of natural gas chemical enterprises worldwide and factors behind

VII-2 Profitable and promising nodes in the glyphosate value Chain related to natural gas chemical industry

VII-3 Future potential opportunities and investment direction

VIII Opportunities and recommendations for market participant involved in phosphorus chemical industry

VIII-1 Profitable and promising nodes in the glyphosate value Chain related to phosphorus chemical industry

VIII-2 Future potential opportunities and investment direction

IX Opportunities in other industries (Coal, chlor-alkali)

X Appendix: Key players of glyphosate technical

X-1 Zhejiang Wynca Chemical Industry Group Co., Ltd.

X-2 Zhejiang Jinfanda Bio-chemical Co., Ltd.

X-3 Shandong Weifang Rainbow Chemical Co., Ltd.

X-4 Sichuan Fuhua Agro-chemical Technology Co., Ltd.

X-5 Jiangsu Yangnong Chemical Group Co., Ltd.

X-6 Jiangsu Good Harvest-Weien Agrochemical Co., Ltd.

X-7 Anhui Huaxing Chemical Industry Co., Ltd.

X-8 Nantong Jiangshan Agrochemical & Chemical Co., Ltd.

X-9 Monsanto

X-10 Atanor S.A



LIST OF TABLES

Table I-1-1 Key players of glyphosate technical in the world, 2011
Table I-3.1-1 Global production of bio-ethanol and bio-diesel in billion liters, 2006-2010
Table I-3.1-2 Production of bio-ethanol in the U.S. and Brazil, 2005-2009
Table I-3.1-3 Area under no-tillage by continent, 2008
Table I-3.1-4 Comparison of glyphosate, paraquat and glufosinate
Table II-3.1-1 Ingredients of AEA glyphosate alkali mother liquid and treated liquid
Table II-3.1-2 Treatment fee of membrane method on AEA glyphosate alkali mother liquid
Table II-3.1-3 Ingredients of AEA glyphosate acid mother liquid and concentrated liquid
Table II-3.1-4 Treatment fee of membrane method on AEA glyphosate acid mother liquid
Table II-3.1-5 Ingredients of IDA glyphosate mother liquid and treated liquid
Table II-3.1-6 Treatment fee of membrane method on IDA glyphosate mother liquid
Table II-3.3-1 Production cost competition among different routes, Dec. 2010, USD/t glyphosate
Table II-3.3-2 Raw material cost of AEA route, Dec. 2010
Table II-3.3-3 Raw material cost of DEA route, Dec. 2010
Table II-3.3-4 Raw material cost of IDAN route, Dec. 2010
Table III-1-1 Key regions of glyphosate technical makers in the world, 2011
Table III-3.2-1 Factors impacting the profitability of glyphosate business
Table III-4-1 Scenarios of glyphosate industry transfer from Southeast China to Western China, 2011
Table III-5.1-1 Questionnaire result for the possible regions to acquire part of China's glyphosate technical capacity, Q1 2011
Table III-5.1-2 Questionnaire result for the possible countries to acquire part of China's glyphosate technical capacity, Q1 2011
Table III-5.2-1 181 countries or regions collected for the analysis
Table III-5.2-2 Developed countries with GDP per capital higher than USD20,000 in 2009
Table III-5.2-3 Least developed countries with GDP per capital below USD1,500 in 2009
Table III-5.2-4 Least developed countries with GDP per capital above USD1,500, 2009
Table III-5.2-5 Excluded countries with area less than 10,000 square kilometers
Table III-5.2-6 Situation of excluded countries that have small glyphosate consumption
Table III-5.2-7 Countries screened out by previous four steps exclusion
Table III-5.3-1 19 countries finally screened out
Table III-5.3-2 Risk in possible countries' launch of new glyphosate technical production lines, 2011
Table IV-2.2.1-1 Main producers of EA in the U.S. in 2010
Table IV-2.2.1-2 Main Producers of EA in China in 2010
Table IV-2.2.1-3 Main producers of EA in West Europe in 2010, '000 tonnes
Table IV-2.2.1-4 Global output of EA and DEA in 2010, '000 tonnes
Table IV-2.2.2-1 Net Exports of EA around the world in 2010, '000 tonnes
Table IV-2.2.2-2 Net Exports of DEA around the world in 2010, '000 tonnes
Table IV-2.2.3-1 Global consumption of DEA by Region in 2010, '000 tonnes
Table IV-2.3.1-1 Production capacity of main EO producers, 2010, '000 t/a
Table IV-2.3.1-2 Output of EO by region, 2010
Table IV-2.3.2-1 Consumption of EO by regions, 2010
Table IV-3.1-1 Unit consumption of AEA route of glyphosate in 2010
Table IV-3.1-1 Unit consumption of AEA route of glyphosate in 2010
Table IV-3.2.1-1 Glycine output by grade in China, 2005-2010, tonnes
Table IV-3.2.1-2 The main glycine manufactures in China, 2010
Table IV-3.2.1-3 The main glycine manufactures in Japan, 2010
Table IV-3.2.2-1 Main global end-use segments of glycine in food
Table IV-3.2.2-2 Some end-use segments of glycine in pharmaceutical in China
Table IV-3.2.2-3 Consumption of glycine in glyphosate, 2001-2010, tonnes
Table IV-3.2.2-4 Main glycine producers and glycine consumers in China, 2010
Table IV-3.3.1-1 General information of global paraformaldehyde production in major continents
Table IV-3.3.2-1 Major paraformaldehyde producers in Asia
Table IV-3.3.3-1 Major paraformaldehyde producers in Europe, 2011
Table IV-3.3.4-1 Major paraformaldehyde producers in America, 2011
Table IV-4.2.2-1 Active IDAN producers in China, 2011
Table IV-4.2.2-2 Suspended construction line in China, 2011
Table IV-4.2.3-1 Unit cost of major raw material of IDAN production, Mar. 2011
Table IV-4.2.5-1 Raw material consumption situation of IDAN production in China, 2010
Table IV-5.1.2-1 Main yellow phosphorus manufacturers in the world
Table IV-5.1.2-2 Import situation of yellow phosphorus by country, 2008-2009
Table IV-5.1.3-1 Part of global phosphorus trichloride producers, 2010
Table IV-5.2.1-1 Operating rate of caustic soda production, 2006-2010
Table IV-5.2.1-2 Main producers of caustic soda and their capacities in the world
Table IV-5.2.1-3 Comparison of energy consumption for three production technologies, kWh/t ECU
Table IV-5.2.1-4 Structure of chlor-alkali production technologies
Table IV-5.3.1-1 General information of global methanol production in major regions
Table IV-5.3.3-1 Global consumption of methanol in different routes glyphosate production, 2010

LIST OF FIGURES
Figure I-1-1 Total output of glyphosate in the world, 2006-2010
Figure I-1-2 Global glyphosate distribution, 2011
Figure I-1-3 China's glyphosate distribution, 2011
Figure I-1-4 Output share of China's glyphosate technical by distribution, 2006-2010
Figure I-1-5 Output share of China's glyphosate technical by distribution, 2010
Figure I-1-6 Circulation of glyphosate technical and PMIDA in the world, 2008
Figure I-2-1 Global glyphosate demand and its growth rate, 2006-2010
Figure I-2-2 Consumption structure of glyphosate by region, 2010
Figure I-3.1-1 Growth rates of glyphosate demand and related drivers, 2006-2010
Figure I-3.1-3 Global harvested area of biotech crops by trait, 2006-2010
Figure I-3.1-4 Dominant herbicide tolerant and stacked traits crops, 2005-2009
Figure I-3.2-1 Forecast of global glyphosate demand, 2011-2020
Figure II-1 Different routes of glyphosate technical production
Figure II-1-1 Supply of glyphosate technical by different route in the world, 2006-2010
Figure II-1-2 Market share of glyphosate by different route in the world, 2006-2010
Figure II-1-3 Production of glyphosate technical by route in China, 2006-2010
Figure II-2.1-1 Brief pathway of AEA route
Figure II-2.1-2 Flowchart of AEA route
Figure II-2.2-1 Brief pathway of DEA route
Figure II-2.2-2 Flowchart of DEA route
Figure II-2.3-1 Brief route of IDAN route
Figure II-2.3-2 Flowchart of IDAN route
Figure II-3.1-1 Flowchart of membrane method on AEA glyphosate alkali mother liquid
Figure II-3.1-2 Flowchart of membrane method on AEA glyphosate acid mother liquid
Figure II-3.1-3 Flowchart of membrane method on IDA glyphosate mother liquid
Figure II-3.4-1 Predicted supply of glyphosate technical by route in the world, 2011-2020
Figure II-3.4-2 Predicted growth rate of glyphosate supply by route, 2011-2020
Figure II-3.4-3 Predicted market share of glyphosate by route in the world, 2011-2020
Figure II-3.4-4 Predicted production of glyphosate technical by route in China, 2011-2020
Figure II-3.4-5 Predicted growth rate of glyphosate supply in China by route, 2011-2020
Figure III-3.1-1 Factors impacting the profitability of glyphosate business
Figure III-4-1 A survey result for the possibility of glyphosate capacity transfer from China to overseas countries, Q1, 2011
Figure IV-2.2.1-1 Global Output of EA, 2002-2010
Figure IV-2.2.1-2 Global output of DEA, 2002-2010
Figure IV-2.2.2-1 Imports of DEA in China from 2000 to 2010
Figure IV-2.2.3-5 Global consumption structure of DEA in 2010
Figure IV-2.2.3-6 Global consumption of DEA in glyphosate, 2005-2010, '000 tonnes
Figure IV-2.2.4-1 Future global consumption of DEA, 2006-2015, '000 tonne
Figure IV-2.3.1-1 Global production capacity of EO, 2006-2010
Figure IV-2.3.1-2 Global output of EO, 2006-2010
Figure IV-2.3.2-1 Global consumption of EO, 2006-2010
Figure IV-2.3.2-2 Global consumption structure of EO, 2010
Figure IV-2.3.3-1 Forecast of EO consumption, 2011-2015, '000 tonnes
Figure IV-3.2.1-1 Global glycine capacity and output, 2008-2010
Figure IV-3.2.1-2 Global glycine capacity by countries, 2010
Figure IV-3.2.1-3 Global glycine output by grade, 2008-2010
Figure IV-3.2.1-4 Global glycine output by country, 2010
Figure IV-3.2.1-5 Tech-grade and other grade glycine capacity in China, 2005-2010, tonnes
Figure IV-3.2.1-6 Glycine capacity and output in Japan, 2008-2010, tonnes
Figure IV-3.2.1-7 Glycine output by grade in Japan, 2008-2010, tonnes
Figure IV-3.2.1-8 Glycine output in the U.S, 2008-2010, tonnes
Figure IV-3.2.1-9 Glycine output by grade in the U.S, 2008-2010, tonnes
Figure IV-3.2.1-10 Glycine output and capacity in India, 2008-2010
Figure IV-3.2.1-11 Glycine output by grade in India, 2008-2010, tonnes
Figure IV-3.2.1-12 Glycine output in Netherlands, 2008-2010, tonnes
Figure IV-3.2.1-14 Glycine output in Belgium, 2008-2010, tonnes
Figure IV-3.2.1-15 Glycine output by grade in Belgium,2008-2010, tonnes
Figure IV-3.2.2-1 Global glycine apparent consumption, 2008-2010, tonnes
Figure IV-3.2.2-2 Global glycine consumption by grade, 2008-2010, tonnes
Figure IV-3.2.2-3 Glycine consumption in China, 2005-2010, tonnes
Figure IV-3.2.2-4 Glycine total and tech-grade consumption in China, 2005-2010, tonnes
Figure IV-3.2.2-5 Glycine consumption by grade in China, 2005-2010, tonnes
Figure IV-3.2.2-6 Glycine consumption in Japan, 2008-2010, tonnes
Figure IV-3.2.2-7 Glycine consumption by grade in Japan, 2008-2010, tonnes
Figure IV-3.2.2-8 Glycine consumption share in Japan, 2010
Figure IV-3.2.2-9 Glycine consumption in the U.S, 2008-2010, tonnes
Figure IV-3.2.2-10 Glycine consumption by grade in the U.S, 2008-2010, tonnes
Figure IV-3.2.2-11 Glycine consumption share in the U.S., 2010
Figure IV-3.2.2-12 Glycine consumption in India, 2008-2010, tonnes
Figure IV-3.2.2-13 Glycine consumption by grade in India, 2008-2010, tonnes
Figure IV-3.2.2-14 Glycine consumption share in India
Figure IV-3.2.2-15 Glycine consumption in Netherlands, 2008-2010, tonnes
Figure IV-3.2.2-16 Glycine consumption by grade in Netherlands, 2008-2010, tonnes
Figure IV-3.2.2-17 Glycine consumption share by grade in Netherlands, 2010
Figure IV-3.2.2-18 Glycine consumption in Netherlands, 2008-2010, tonnes
Figure IV-3.2.2-19 Glycine consumption by grade in Netherlands, 2008-2010, tonnes
Figure IV-3.2.2-20 Glycine consumption in glyphosate and growth rate in China, 2011-2020
Figure IV-3.2.2-21 Global glycine consumption and growth rate, 2011-2020
Figure IV-3.2.3-1 AEA route glyphosate output in China, 2011-2020, '000, tonnes
Figure IV-3.3.1-1 Global production and consumption of paraformaldehyde, 2006~2011
Figure IV-3.3.1-2 Global production of paraformaldehyde, 2006~2010
Figure IV-3.3.1-3 Global distribution of paraformaldehyde production, 2011
Figure IV-3.3.1-4 Global distribution of paraformaldehyde production in major producing countries
Figure IV-3.3.1-5 Global consumption situation of paraformaldehyde, 2006~2010
Figure IV-3.3.1-6 Global consumption distribution of paraformaldehyde, 2010
Figure IV-3.3.1-7 Global consumption structure of paraformaldehyde, 2010
Figure IV-3.3.2-1 Paraformaldehyde production in Asia , 2006~2010
Figure IV-3.3.2-2 Distribution of paraformaldehyde production in Asia
Figure IV-3.3.2-3 Paraformaldehyde consumption in Asia, 2006~2010
Figure IV-3.3.2-4 Consumption distribution of paraformaldehyde in Asia, 2010
Figure IV-3.3.2-5 Consumption structure of paraformaldehyde in Asia, 2010
Figure IV-3.3.3-1 Production of paraformaldehyde in Europe, 2006~2010
Figure IV-3.3.3-2 Distribution of paraformaldehyde production in Europe
Figure IV-3.3.3-3 Paraformaldehyde consumption in Europe, 2006~2010
Figure IV-3.3.3-4 Paraformaldehyde consumption distribution in Europe, 2010
Figure IV-3.3.3-5 Consumption structure of paraformaldehyde in Europe, 2010
Figure IV-3.3.4-1 Production of paraformaldehyde in America, 2006~2010
Figure IV-3.3.4-2 Distribution of paraformaldehyde production in America, 2010
Figure IV-3.3.4-3 Paraformaldehyde consumption in America, 2006~2010
Figure IV-3.3.4-4 Paraformaldehyde consumption distribution in America, 2010
Figure IV-3.3.4-5 Paraformaldehyde consumption structure in America, 2010
Figure IV-3.3.5-1 Paraformaldehyde consumption distribution in Africa, 2010
Figure IV-3.3.5-2 Paraformaldehyde consumption structure in Africa, 2010
Figure IV-3.3.5-3 Paraformaldehyde consumption distribution in Oceania, 2010
Figure IV-3.3.5-4 Paraformaldehyde consumption structure in Oceania, 2010
Figure IV-3.3.6-1 Global forecast of paraformaldehyde production, 2011~2015
Figure IV-3.3.6-2 Global forecast of paraformaldehyde demand, 2011~2015
Figure IV-4.2.1-1 Global production and consumption of IDAN, 2005~2010
Figure IV-4.2.2-1 IDAN output and growth rate in China, 2005-2010
Figure IV-4.2.2-2 Forecast on global IDAN production, 2011-2015
Figure IV-4.2.3-1 Production process of IDAN with natural gas as the original raw material, 2011
Figure IV-4.2.4-1 Global consumption situation of IDAN, 2006-2010
Figure IV-4.2.4-2 Major consumption structure of IDAN in the world by country,2010
Figure IV-4.2.4-3 Major consumption structure of IDAN in the world by application area,2010
Figure IV-4.2.4-4 Global forecast of IDAN consumption, 2011~2015
Figure IV-5.1.1-1 Distribution of phosphorus ore in the world, 2008 (Unit million tonnes)
Figure IV-5.1.1-2 Global yellow phosphorus capacity structure by volume, 2006-2010
Figure IV-5.1.1-3 Yellow phosphorus output of major countries and the world, 2008-2010
Figure IV-5.1.1-4 Capacity structure of phosphorus trichloride by region, 2008-2010
Figure IV-5.1.1-5 Output structure of phosphorus trichloride by region, 2008-2010
Figure IV-5.1.1-6 Global production of dimethyl phosphite, 2006~2010
Figure IV-5.1.2-1 Global yellow phosphorus capacity structure by region, 2010
Figure IV-5.1.2-2 Global yellow phosphorus output structure by region, 2009
Figure IV-5.1.2-3 Global yellow phosphorus export structure by region, 2008
Figure IV-5.1.2-4 Global yellow phosphorus export structure by region, 2009
Figure IV-5.1.2-5 Global consumption structure of yellow phosphorus by application volume, 2010
Figure IV-5.1.2-6 Global consumption structure of yellow phosphorus by region, 2009
Figure IV-5.1.2-7 Global consumption structure of yellow phosphorus in each region, 2009
Figure IV-5.1.3-1 Capacity structure of phosphorus trichloride by region, 2010
Figure IV-5.1.3-2 Output structure of phosphorus trichloride by region, 2010
Figure IV-5.1.3-3 Consumption structure of phosphorus trichloride by region, 2010
Figure IV-5.1.3-4 Output of phosphorus trichloride in China, 2006-2010
Figure IV-5.1.3-5 Consumption structure of phosphorus trichloride in China, 2010
Figure IV-5.1.3-6 Consumption structure of phosphorus trichloride in the U.S., 2010
Figure IV-5.1.3-7 Output of phosphorus trichloride in Europe, 2006-2010
Figure IV-5.1.3-8 Consumption structure of phosphorus trichloride in Germany, 2010
Figure IV-5.1.3-9 Global distribution of dimethyl phosphite production
Figure IV-5.1.3-2 General information of global dimethyl phosphite production in major countries
Figure IV-5.1.3-10 Dimethyl phosphite production in China, 2006~2010
Figure IV-5.1.3-3 Major DMP producers in China
Figure IV-5.1.3-4 Global major DMP producers except China
Figure IV-5.1.3-11 Global consumption of dimethyl phosphite, 2006~2010
Figure IV-5.1.3-12 Global consumption structure of dimethyl phosphite, 2010
Figure IV-5.1.3-13 Global consumption distribution of dimethyl phosphite, 2010
Figure IV-5.1.4-1 Forecast on global yellow phosphorus production, 2011-2015
Figure IV-5.1.4-2 Forecast on global yellow phosphorus consumption, 2011-2015
Figure IV-5.1.4-3 Forecast on global phosphorus trichloride production, 2011-2015
Figure IV-5.2.1-1 Distribution of global caustic soda capacity, 2006-2010
Figure IV-5.2.1-2 Distribution of global caustic soda output, 2006-2010
Figure IV-5.2.1-3 Output structure of global caustic soda, 2010
Figure IV-5.2.1-4 Global consumption structure of caustic soda by region, 2010
Figure IV-5.2.1-5 Global consumption structure of chlorine by region, 2010
Figure IV-5.3.1-1 Global production of methanol, 2006~2010
Figure IV-5.3.1-2 Global distribution of methanol production
Figure IV-5.3.2-1 Global consumption situation of methanol, 2006~2010
Figure IV-5.3.2-2 Global consumption distribution of methanol, 2010
Figure IV-5.3.2-3 Global consumption structure of methanol, 2010
Figure IV-5.3.3-2 Cost of methanol in different route glyphosate production, 2011 (unit:USD/t)
Figure VI-1-1 Global consumption of DEA by glyphosate, 2005-2010, '000 tonnes
Figure VI-1-2 Global consumption of triethylamine in glyphosate, 2004-2010, '000 tonnes











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