Future of Yellow Phosphorus in China/industry publication
Following the last issue (Fungicides China News 1406), CCM continues to present domestic pesticide companies' Initial Public Offerings (IPO) in 2014. The introductions about three of six applicants in this year have been shown in this issue, including Limin Chemical, Sevencontinent Green and Huizhou Sino-quick.Following the last issue (Fungicides China News 1406), CCM continues to present domestic pesticide companies' Initial Public Offerings (IPO) in 2014. The introductions about three of six applicants in this year have been shown in this issue, including Limin Chemical, Sevencontinent Green and Huizhou Sino-quick.
As half of 2014 has gone, it is necessary to summarize an overview on the newly approved registrations in H1 2014, by which it could figure out the hottest fungicide products from technical registration number in the period. They were azoxystrobin, fludioxonil, difenoconazole and thifluzamide. These four fungicide ingredients were newly registered with 34 technical registrations in H1 2014, accounting for 46.58% of all new fungicide technical registrations. In terms of single formulations, azoxystrobin and tebuconazole were the two formulations with the most registrations which reached 34 and 32 respectively. In terms of mixed formulations, difenoconazole•azoxystrobin and difenoconazole•propiconazol had the most registrations which were 15 and 8 respectively. For more details, please refer to the main body of this issue.
Note: 1. All tables and figures in this issue are calculated by the same RMB/USD exchange rate (1USD=6.1543RMB); 2. Nuances in some data are mainly caused by rounding principle.
As half of 2014 has gone, it is necessary to summarize an overview on the newly approved registrations in H1 2014, by which it could figure out the hottest fungicide products from technical registration number in the period. They were azoxystrobin, fludioxonil, difenoconazole and thifluzamide. These four fungicide ingredients were newly registered with 34 technical registrations in H1 2014, accounting for 46.58% of all new fungicide technical registrations. In terms of single formulations, azoxystrobin and tebuconazole were the two formulations with the most registrations which reached 34 and 32 respectively. In terms of mixed formulations, difenoconazole•azoxystrobin and difenoconazole•propiconazol had the most registrations which were 15 and 8 respectively. For more details, please refer to the main body of this issue.
Note: 1. All tables and figures in this issue are calculated by the same RMB/USD exchange rate (1USD=6.1543RMB); 2. Nuances in some data are mainly caused by rounding principle.
Executive summary
Introduction and methodology
1 SUPPLY OF RESOURCES FOR PRODUCTION OF YELLOW PHOSPHORUS
1.1 Electricity
1.2 Coke
1.3 Phosphorus ore
1.3.1 Reserves and distribution
1.3.2 Exploitation & consumption
1.3.3 Policy orientation
1.3.4 Export
2 SUPPLY AND DEMAND OF YELLOW PHOSPHORUS
2.1 Supply
2.1.1 Summary, 2009-2013
2.1.2 Geographical distribution & producers
2.1.3 Problems existing in yellow phosphorus industry
2.1.4 Improvement in production
2.1.5 Technology introduction
2.1.6 Competition strategy
2.2 Circulation
2.2.1 Export, 2009-2013
2.2.2 Price, 2009-2013
2.3 Consumption
2.3.1 Summary, 2009-2013
2.3.1.1 By volume
2.3.1.2 By region
2.3.1.3 By end-use segment
2.3.2 Market segmentation
2.3.2.1 Thermal phosphoric acid
2.3.2.1.1 Consumption
2.3.2.1.2 Overview of thermal phosphoric acid industry
2.3.2.1.3 Major end users
2.3.2.2 Phosphorus trichloride
2.3.2.2.1 Consumption
2.3.2.2.2 Overview of phosphorus trichloride industry
2.3.2.2.3 Major end users
2.3.2.3 Others
3 FORECAST ON DEVELOPMENT OF YELLOW PHOSPHORUS, 2014-2018
3.1 Influencing factor
3.2 Forecast, 2014-2018
3.2.1 Supply of resources
3.2.2 Supply of yellow phosphorus
3.2.3 Demand for yellow phosphorus
4 CONCLUSION
5 CONTACT INFORMATION OF MAJOR PRODUCERS
Introduction and methodology
1 SUPPLY OF RESOURCES FOR PRODUCTION OF YELLOW PHOSPHORUS
1.1 Electricity
1.2 Coke
1.3 Phosphorus ore
1.3.1 Reserves and distribution
1.3.2 Exploitation & consumption
1.3.3 Policy orientation
1.3.4 Export
2 SUPPLY AND DEMAND OF YELLOW PHOSPHORUS
2.1 Supply
2.1.1 Summary, 2009-2013
2.1.2 Geographical distribution & producers
2.1.3 Problems existing in yellow phosphorus industry
2.1.4 Improvement in production
2.1.5 Technology introduction
2.1.6 Competition strategy
2.2 Circulation
2.2.1 Export, 2009-2013
2.2.2 Price, 2009-2013
2.3 Consumption
2.3.1 Summary, 2009-2013
2.3.1.1 By volume
2.3.1.2 By region
2.3.1.3 By end-use segment
2.3.2 Market segmentation
2.3.2.1 Thermal phosphoric acid
2.3.2.1.1 Consumption
2.3.2.1.2 Overview of thermal phosphoric acid industry
2.3.2.1.3 Major end users
2.3.2.2 Phosphorus trichloride
2.3.2.2.1 Consumption
2.3.2.2.2 Overview of phosphorus trichloride industry
2.3.2.2.3 Major end users
2.3.2.3 Others
3 FORECAST ON DEVELOPMENT OF YELLOW PHOSPHORUS, 2014-2018
3.1 Influencing factor
3.2 Forecast, 2014-2018
3.2.1 Supply of resources
3.2.2 Supply of yellow phosphorus
3.2.3 Demand for yellow phosphorus
4 CONCLUSION
5 CONTACT INFORMATION OF MAJOR PRODUCERS
LIST OF TABLES
Table 1.1-1 Electricity structure of major provinces producing yellow phosphorus in China, 2013, million kW
Table 1.2-1 Export tariff on coke in China, 2006–June 2014
Table 1.3.1-1 Resources reserves of phosphorus ore in main reserves-holding provinces in China, 2013
Table 1.3.2-1 Evaluation on cut-off years and cost of exploiting remaining phosphorus ore in China
Table 1.3.3-1 Export quota for phosphorus ore in China, 2009-2013
Table 1.3.3-2 Policies and regulations on integrating phosphorus chemical industry in China as of June 2014
Table 1.3.3-3 Policies and regulations on phosphorus ore mining in China as of June 2014
Table 2.1.2-1 Capacity and output of yellow phosphorus in Yunnan Province, 2009-2013
Table 2.1.2-2 Main manufacturers of yellow phosphorus in Yunnan Province, 2009-2013
Table 2.1.2-3 Capacity and output of yellow phosphorus in Sichuan Province, 2009-2013
Table 2.1.2-4 Main manufacturers of yellow phosphorus in Sichuan Province, 2009-2013
Table 2.1.2-5 Capacity and output of yellow phosphorus in Guizhou Province, 2009-2013
Table 2.1.2-6 Main manufacturers of yellow phosphorus in Guizhou Province, 2009-2013
Table 2.1.2-7 Capacity and output of yellow phosphorus in Hubei Province, 2009-2013
Table 2.1.2-8 Main manufacturers of yellow phosphorus in Hubei Province, 2009-2013
Table 2.1.5-1 Content of tail gas generated from yellow phosphorus production in China
Table 2.1.5-2 Substances and their concentration in waste water generated during production of yellow phosphorus in China
Table 2.1.5-3 Comparison of settlement-oxidation method and closed-circuit method for treating wastewater generated from yellow phosphorus production in China
Table 2.1.5-4 Examples of utilizing tail gas generated from yellow phosphorus production in China
Table 2.1.5-5 Examples of utilizing slag generated from yellow phosphorus production in China
Table 2.1.6-1 Manufacturing cost of yellow phosphorus in China, June 2014
Table 2.2.1-1 Export tariff and export rebate for yellow phosphorus in China, Jan. 2002-June 2014
Table 2.2.1-2 Export destinations of yellow phosphorus from China, 2013
Table 2.2.1-3 Export destinations of yellow phosphorus from China, 2012
Table 2.2.1-4 Export of yellow phosphorus from China by manufacturer, 2013
Table 2.2.1-5 Export of yellow phosphorus from China by manufacturer, 2012
Table 2.3.1.1-1 Production and consumption of yellow phosphorus in China, 2009-2013
Table 2.3.1.2-1 Consumption of yellow phosphorus in China by region, 2013, tonne
Table 2.3.2.1.2-1 Comparison of different phosphoric acids in China
Table 2.3.2.1.2-2 Usage of different phosphoric acids in China
Table 2.3.2.1.3-1 Main thermal phosphoric acid producers in China, 2013
Table 2.3.2.2.3-1 Main phosphorus trichloride producers in China, 2013
Table 5-1 Contact information of main manufacturers of yellow phosphorus in China
Table 1.1-1 Electricity structure of major provinces producing yellow phosphorus in China, 2013, million kW
Table 1.2-1 Export tariff on coke in China, 2006–June 2014
Table 1.3.1-1 Resources reserves of phosphorus ore in main reserves-holding provinces in China, 2013
Table 1.3.2-1 Evaluation on cut-off years and cost of exploiting remaining phosphorus ore in China
Table 1.3.3-1 Export quota for phosphorus ore in China, 2009-2013
Table 1.3.3-2 Policies and regulations on integrating phosphorus chemical industry in China as of June 2014
Table 1.3.3-3 Policies and regulations on phosphorus ore mining in China as of June 2014
Table 2.1.2-1 Capacity and output of yellow phosphorus in Yunnan Province, 2009-2013
Table 2.1.2-2 Main manufacturers of yellow phosphorus in Yunnan Province, 2009-2013
Table 2.1.2-3 Capacity and output of yellow phosphorus in Sichuan Province, 2009-2013
Table 2.1.2-4 Main manufacturers of yellow phosphorus in Sichuan Province, 2009-2013
Table 2.1.2-5 Capacity and output of yellow phosphorus in Guizhou Province, 2009-2013
Table 2.1.2-6 Main manufacturers of yellow phosphorus in Guizhou Province, 2009-2013
Table 2.1.2-7 Capacity and output of yellow phosphorus in Hubei Province, 2009-2013
Table 2.1.2-8 Main manufacturers of yellow phosphorus in Hubei Province, 2009-2013
Table 2.1.5-1 Content of tail gas generated from yellow phosphorus production in China
Table 2.1.5-2 Substances and their concentration in waste water generated during production of yellow phosphorus in China
Table 2.1.5-3 Comparison of settlement-oxidation method and closed-circuit method for treating wastewater generated from yellow phosphorus production in China
Table 2.1.5-4 Examples of utilizing tail gas generated from yellow phosphorus production in China
Table 2.1.5-5 Examples of utilizing slag generated from yellow phosphorus production in China
Table 2.1.6-1 Manufacturing cost of yellow phosphorus in China, June 2014
Table 2.2.1-1 Export tariff and export rebate for yellow phosphorus in China, Jan. 2002-June 2014
Table 2.2.1-2 Export destinations of yellow phosphorus from China, 2013
Table 2.2.1-3 Export destinations of yellow phosphorus from China, 2012
Table 2.2.1-4 Export of yellow phosphorus from China by manufacturer, 2013
Table 2.2.1-5 Export of yellow phosphorus from China by manufacturer, 2012
Table 2.3.1.1-1 Production and consumption of yellow phosphorus in China, 2009-2013
Table 2.3.1.2-1 Consumption of yellow phosphorus in China by region, 2013, tonne
Table 2.3.2.1.2-1 Comparison of different phosphoric acids in China
Table 2.3.2.1.2-2 Usage of different phosphoric acids in China
Table 2.3.2.1.3-1 Main thermal phosphoric acid producers in China, 2013
Table 2.3.2.2.3-1 Main phosphorus trichloride producers in China, 2013
Table 5-1 Contact information of main manufacturers of yellow phosphorus in China
LIST OF FIGURES
Figure 1.1-1 Output of electricity in China, 2009-2013
Figure 1.2-1 Output of coke in China, 2009-2013
Figure 1.2-2 Monthly ex-works price of second-level metallurgical coke in China, 2013–H1 2014
Figure 1.2-3 China's export volume of coke, 2009-2013
Figure 1.3.2-1 Apparent consumption of phosphorus ore in China, 2009-2013
Figure 1.3.2-2 Comparison of consumption of phosphorus ore by downstream products between China and the world, 2013
Figure 1.3.4-1 China's export volume of phosphorus ore, 2009-2013
Figure 2.1.1-1 Capacity and output of yellow phosphorus in China, 2009-2013
Figure 2.1.2-1 Capacity structure of yellow phosphorus in China by province, 2013
Figure 2.1.2-2 Output structure of yellow phosphorus in China by major production province, 2009-2013
Figure 2.1.5-1 Production process of electric furnace method for producing yellow phosphorus in China
Figure 2.2.1-1 China's export volume of yellow phosphorus, 2009-2013
Figure 2.2.2-1 Annual ex-works price of yellow phosphorus in China, 2009-2013
Figure 2.2.2-2 Monthly ex-works price of yellow phosphorus in China, 2012-H1 2014
Figure 2.3-1 Industrial chain of yellow phosphorus in China, 2013
Figure 2.3.1.2-1 Consumption share of yellow phosphorus in tonnage in China by region, 2013
Figure 2.3.1.3-1 Consumption of yellow phosphorus in China by downstream industry, 2009-2013
Figure 2.3.1.3-2 Consumption structure of yellow phosphorus in China by downstream industry, 2013
Figure 2.3.2.1.1-1 Consumption of yellow phosphorus in production of thermal phosphoric acid in China, 2009-2013
Figure 2.3.2.2.1-1 Consumption of yellow phosphorus in phosphorus trichloride in China, 2009-2013
Figure 3.2.2-1 Forecast on capacity and output of yellow phosphorus in China, 2014-2018
Figure 3.2.3-1 Forecast on demand for yellow phosphorus in China, 2014-2018
Figure 3.2.3-2 Forecast on demand for yellow phosphorus in China by downstream industry, 2014-2018
Figure 1.1-1 Output of electricity in China, 2009-2013
Figure 1.2-1 Output of coke in China, 2009-2013
Figure 1.2-2 Monthly ex-works price of second-level metallurgical coke in China, 2013–H1 2014
Figure 1.2-3 China's export volume of coke, 2009-2013
Figure 1.3.2-1 Apparent consumption of phosphorus ore in China, 2009-2013
Figure 1.3.2-2 Comparison of consumption of phosphorus ore by downstream products between China and the world, 2013
Figure 1.3.4-1 China's export volume of phosphorus ore, 2009-2013
Figure 2.1.1-1 Capacity and output of yellow phosphorus in China, 2009-2013
Figure 2.1.2-1 Capacity structure of yellow phosphorus in China by province, 2013
Figure 2.1.2-2 Output structure of yellow phosphorus in China by major production province, 2009-2013
Figure 2.1.5-1 Production process of electric furnace method for producing yellow phosphorus in China
Figure 2.2.1-1 China's export volume of yellow phosphorus, 2009-2013
Figure 2.2.2-1 Annual ex-works price of yellow phosphorus in China, 2009-2013
Figure 2.2.2-2 Monthly ex-works price of yellow phosphorus in China, 2012-H1 2014
Figure 2.3-1 Industrial chain of yellow phosphorus in China, 2013
Figure 2.3.1.2-1 Consumption share of yellow phosphorus in tonnage in China by region, 2013
Figure 2.3.1.3-1 Consumption of yellow phosphorus in China by downstream industry, 2009-2013
Figure 2.3.1.3-2 Consumption structure of yellow phosphorus in China by downstream industry, 2013
Figure 2.3.2.1.1-1 Consumption of yellow phosphorus in production of thermal phosphoric acid in China, 2009-2013
Figure 2.3.2.2.1-1 Consumption of yellow phosphorus in phosphorus trichloride in China, 2009-2013
Figure 3.2.2-1 Forecast on capacity and output of yellow phosphorus in China, 2014-2018
Figure 3.2.3-1 Forecast on demand for yellow phosphorus in China, 2014-2018
Figure 3.2.3-2 Forecast on demand for yellow phosphorus in China by downstream industry, 2014-2018
