表紙
市場調査レポート

中国のトリアゾール殺菌剤産業

Survey of Triazole Fungicides in China

発行 CCM 商品コード 201706
出版日 ページ情報 英文 131 Pages
納期: 即日から翌営業日
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中国のトリアゾール殺菌剤産業 Survey of Triazole Fungicides in China
出版日: 2014年06月13日 ページ情報: 英文 131 Pages
概要

トリアゾール殺菌剤は、広スペクトラム殺菌剤の一分野でありながら他の薬剤には見られない独自の作用機序を持つことで、過去数年の間に中国で急発展を見せ、国内のさまざまな農産物に向けた疫病制御における存在価値を増しています。

当レポートでは、中国のトリアゾール殺菌剤産業を調査し、国内供給サマリー(生産力、生産実績、主要製造企業)および需要サマリー(数量、価額)、10種(トリアジメホン、 トリアジメノール、テブコナゾール、ジニコナゾール、フルトリアホール、プロピコナゾール、ジフェノコナゾール、ミクロブタニル、エポキシコナゾール、フルシラゾール)の各物質別需給事情および工業生産・調合の価格、輸出実績、見通し、さらには中国全体のトリアゾール殺菌剤需給予測、産業発展への影響ファクター、商業機会といった情報を中心に、概略以下の構成でお届けします。

エグゼクティブサマリー

イントロダクションおよび調査範囲

調査方法および情報源

第1章 中国のトリアゾール殺菌剤についてのイントロダクション

  • トリアゾール殺菌剤の発展史
  • 中国殺菌剤産業における位置
  • トリアゾール殺菌剤産業に対する政府方針

第2章 トリアゾール殺菌剤の需要と供給

  • 需給サマリー
    • 供給サマリー
      • 生産サマリー(生産力・生産実績)
      • 主要製造企業
    • 需要サマリー
      • 消費量・市場価額
      • 農産品目別消費量
  • 主要製品の需給
    • トリアジメホン
      • 生産技術
      • 登録
      • 生産状況
      • 輸出状況
      • 工業生産および調合価格
      • 消費状況
      • 将来見通し
    • トリアジメノール
    • テブコナゾール
    • フルトリアホール
    • プロピコナゾール
    • ジフェノコナゾール
    • ジニコナゾール
    • ミクロブタニル
    • エポキシコナゾール
    • フルシラゾール

第3章 共通中間体(1, 2, 4-トリアゾール)の需給

  • 概略イントロダクション
  • 生産技術
  • 生産状況(サマリー、主要製造企業)
  • 価格
  • 需要サマリー

第4章 予測

  • 中国トリアゾール市場への影響ファクター
  • 需給予測

第5章 結論と提言

図表

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目次

Background:

Triazole fungicides are low-toxicity and efficient fungicides that are becoming more and more popular in China. They are widely used in all kinds of crops, such as grain crops like wheat, rice, and economic crops like apple and banana. Among these applications, grain crops are the main downstream of triazole fungicides.

Industrial affairs:

In recent years, the production of triazole fungicides in China has been increasing. Meanwhile, the triazole fungicide industry has seen steady growth in domestic consumption as well as rapid increase in export in recent years.

China's position:

China has become one of the major supplying countries of triazole fungicides in the world, with its products exported to countries all over the world. Some giant players of chemical pesticides in the world have established close relationships with China's producers and consider China as their raw material production bases.

Purpose of report:

CCM devotes itself to researching the up-to-date situation of triazole fungicides in China and helps customers know deeply about the development of these products.

Application users:

  • Raw material manufacturers of triazole fungicides
  • Purchasers of triazole fungicides;
  • Production managers of triazole fungicides;
  • Professionals from fungicide field and its related application industries
  • Investors who are interested in China's triazole fungicide industry and its application areas

Report topics:

  • Supply summary of triazole fungicides (capacity, output, key manufacturers) and demand summary by volume & value in China, 2010-2013;
  • Detailed study of 10 major triazole fungicides (triadimefon, triadimenol, tebuconazole, flutriafol, propiconazole, difenoconazole, diniconazole, myclobutanil, epoxiconazole, flusilazole) on the production, export, price and consumption from 2010-2013;
  • Forecast on Chinese triazole fungicides on supply & demand, and identification of key factors influencing the development of this industry;
  • Commercial opportunities.

Forecast on industry:

CCM predicts that the growth of the triazole fungicide industry in China will slow down during 2014-2018. However, the degree of different products are varied. In the report, CCM will provide the development trend of triazole fungicides in China's market and the output forecast of China's triazole fungicides during 2014-2018.

Value to clients:

  • Discovering the main producers of triazole fungicides in China;
  • Understanding the production and consumption of China's triazole fungicides;
  • Obtaining the forecast of China's triazole fungicides output from 2014 to 2018;

Executive summary:

Triazole fungicides, a category of broad-spectrum fungicides with unique mechanism of action compared with other fungicides, have witnessed fast development in the past few years in China, and they have been playing an increasingly important role in the disease control on various crops in China, ranking the first place by market value in all categories of fungicides in 2013.

With the capacity expansion and many new production lines' being launched in recent years, China's total capacity of triazole fungicides has reached XXXX t/a in 2013, and their total output by technical has hit nearly XXXX tonnes in 2013.

By technical output, tebuconazole is the largest triazole fungicide in China, with XXXX tonnes of technical produced in 2013, and other large triazole fungicides with the technical output of over 2,000 tonnes are XXXX and XXXX.

Moreover, the domestic consumption of triazole fungicides has grown by XXXX% in 2013 over the previous year. The total domestic consumption of triazole fungicides (calculated by the most frequently used technical of each product, similarly hereinafter) has hit over XXXX tonnes in 2013, accounting for around XXXX% of the total domestic fungicide consumption.

By consumption volume, tebuconazole is the largest triazole fungicide in China, with about XXXX tonnes consumed in the domestic market in 2013. Triadimefon and propiconazole have taken the second and third position with XXXX tonnes and XXXX tonnes consumed in the domestic market respectively in 2013.

Thanks to the high average price of triazole fungicides compared with most other fungicide categories, triazole fungicides have taken the first place by market value in all categories of fungicides in China, capturing around 25% of the total fungicide market value in 2013. The total market value (by ex-factory level, similarly hereinafter) of triazole fungicides has grown to USDXXXX in 2013. The top three triazole fungicides by market value were around XXXX (USD XXXX), XXXX (USD XXXX) and XXXX (USD XXXX) in 2013.

It is estimated that both the output and domestic demand of triazole fungicides will continue to see stable growth in the next five years, and it is certain that the triazole fungicide industry will drive the development of the whole fungicide industry and promote the upgrading of fungicide products in China.

XXXX Commercial in Confidence.

Table of Contents

Executive summary

Introduction and scope of study

Methodology and source

1. Introduction to triazole fungicides in China

  • 1-1. Development history of triazole fungicides
  • 1-2. Position in Chinese fungicide industry
  • 1-3. Governmental policies related to triazole fungicide industry

2. Supply & demand of triazole fungicides

  • 2-1. Supply & demand summary, 2010-2013
    • 2-1-1. Supply summary
      • 2-1-1-1. Production summary (capacity & output)
      • 2-1-1-2. Key manufacturers
    • 2-1-2. Demand summary
      • 2-1-2-1. Consumption volume & market value
      • 2-1-2-2. Consumption by crops
  • 2-2. Supply & demand of main products
    • 2-2-1. Triadimefon
      • 2-2-1-1. Production technology
      • 2-2-1-2. Registration
      • 2-2-1-3. Production, 2010-2013
      • 2-2-1-4. Export, 2010-2013
      • 2-2-1-5. Price, 2010-2013
      • 2-2-1-6. Consumption, 2010-2013
      • 2-2-1-7. Outlook, 2014-2018
    • 2-2-2. Triadimenol
      • 2-2-2-1. Production technology
      • 2-2-2-2. Registration
      • 2-2-2-3. Production, 2010-2013
      • 2-2-2-4. Export, 2010-2013
      • 2-2-2-5. Price, 2010-2013
      • 2-2-2-6. Consumption, 2010-2013
      • 2-2-2-7. Outlook, 2014-2018
    • 2-2-3. Tebuconazole
      • 2-2-3-1. Production technology
      • 2-2-3-2. Registration
      • 2-2-3-3. Production, 2010-2013
      • 2-2-3-4. Export, 2010-2013
      • 2-2-3-5. Price, 2010-2013
      • 2-2-3-6. Consumption, 2010-2013
      • 2-2-3-7. Outlook, 2014-2018
    • 2-2-4. Flutriafol
      • 2-2-4-1. Production technology
      • 2-2-4-2. Registration
      • 2-2-4-3. Production, 2010-2013
      • 2-2-4-4. Export, 2010-2013
      • 2-2-4-5. Price, 2010-2013
      • 2-2-4-6. Consumption, 2010-2013
      • 2-2-4-7. Outlook, 2014-2018
    • 2-2-5. Propiconazole
      • 2-2-5-1. Production technology
      • 2-2-5-2. Registration
      • 2-2-5-3. Production, 2010-2013
      • 2-2-5-4. Export, 2010-2013
      • 2-2-5-5. Price, 2010-2013
      • 2-2-5-6. Consumption, 2010-2013
      • 2-2-5-7. Outlook, 2014-2018
    • 2-2-6. Difenoconazole
      • 2-2-6-1. Production technology
      • 2-2-6-2. Registration
      • 2-2-6-3. Production, 2010-2013
      • 2-2-6-4. Export, 2010-2013
      • 2-2-6-5. Price, 2010-2013
      • 2-2-6-6. Consumption, 2010-2013
      • 2-2-6-7. Outlook, 2014-2018
    • 2-2-7. Diniconazole
      • 2-2-7-1. Production technology
      • 2-2-7-2. Registration
      • 2-2-7-3. Production, 2010-2013
      • 2-2-7-4. Export, 2010-2013
      • 2-2-7-5. Price, 2010-2013
      • 2-2-7-6. Consumption, 2010-2013
      • 2-2-7-7. Outlook, 2014-2018
    • 2-2-8. Myclobutanil
      • 2-2-8-1. Production technology
      • 2-2-8-2. Registration
      • 2-2-8-3. Production, 2010-2013
      • 2-2-8-4. Export, 2010-2013
      • 2-2-8-5. Price, 2010-2013
      • 2-2-8-6. Consumption, 2010-2013
      • 2-2-8-7. Outlook, 2014-2018
    • 2-2-9. Epoxiconazole
      • 2-2-9-1. Production technology
      • 2-2-9-2. Registration
      • 2-2-9-3. Production, 2010-2013
      • 2-2-9-4. Export, 2010-2013
      • 2-2-9-5. Price, 2010-2013
      • 2-2-9-6. Consumption, 2010-2013
      • 2-2-9-7. Outlook, 2014-2018
    • 2-2-10. Flusilazole
      • 2-2-10-1. Production technology
      • 2-2-10-2. Registration
      • 2-2-10-3. Production, 2010-2013
      • 2-2-10-4. Export, 2010-2013
      • 2-2-10-5. Price, 2010-2013
      • 2-2-10-6. Consumption, 2010-2013
      • 2-2-10-7. Outlook, 2014-2018

3. Supply & demand of common intermediate (1,2,4-triazole)

  • 3-1. Brief introduction
  • 3-2. Production technology
  • 3-3. Production summary and key manufacturers, 2010-2013
  • 3-4. Price, 2010-2013
  • 3-5. Consumption summary, 2010-2013

4. Forecast

  • 4-1. Factors influencing China's triazole fungicide industry
    • 4-1-1. Governmental policies
    • 4-1-2. Social environment
    • 4-1-3. Economic factors
    • 4-1-4. Crop structure
    • 4-1-5. Disease occurrence and pesticide resistance
    • 4-1-6. Industry competition
  • 4-2. Supply & demand forecast to 2018

5. Conclusion and recommendation

List of Tables:

  • Table 1.2-1: Classification and major fungicide products in China, 2013
  • Table 1.3-1: Major administrations and policies on pesticides or pesticide industry in China
  • Table 1.3-2: Restricted pesticides in “Pesticide Production Entrance Conditions (draft) (2009)”
  • Table 1.3-3: Restricted pesticides in Pesticide Production Entrance Conditions, 2011
  • Table 1.3-4: Basic registration policies in Chinese pesticide industry, as of Sept. 2012
  • Table 1.3-5: Components of effluent standards of pollutants for pesticide industry in China
  • Table 1.3-6: Integrated wastewater discharge standard, GB8978-1996, mg/L
  • Table 1.3-7: Environmental protection policies and environmental cost in pesticide industry in China, 2012
  • Table 2.1.1.1-1: Production of key triazole fungicides in China, 2010-2013
  • Table 2.1.1.2-1: China's top 5 triazole fungicide producers and their main products, 2013
  • Table 2.1.1.2-2: Production of China's top 5 triazole fungicide producers, 2010-2013
  • Table 2.2.1.2-1: Valid registrations of triadimefon in China, 2009-2013
  • Table 2.2.1.2-2: Valid registrations of triadimefon technical in China, as of 2013
  • Table 2.2.1.3-1: Capacity and output of main triadimefon technical producers in China, 2010-2013
  • Table 2.2.1.6-1: Market value and consumption volume of triadimefon formulations in China, 2010-2013
  • Table 2.2.2.2-1: Valid registrations of triadimenol in China, 2009-2013
  • Table 2.2.2.2-2: Valid registrations of triadimenol technical in China, as of 2013
  • Table 2.2.2.3-1: Capacity and output of main triadimenol technical producers in China, 2010-2013
  • Table 2.2.2.6-1: Market value and consumption volume of triadimenol formulations in China, 2010-2013
  • Table 2.2.3.2-1: Valid registrations of tebuconazole in China, 2009-2013
  • Table 2.2.3.2-2: Valid registrations of tebuconazole technical in China, as of 2013
  • Table 2.2.3.3-1: Capacity and output of main tebuconazole technical producers in China, 2010-2013
  • Table 2.2.3.6-1: Market value and consumption volume of tebuconazole formulations in China, 2010-2013
  • Table 2.2.4.1-1: Comparison between Grignard reaction route and Sevencontinent route in flutriafol production
  • Table 2.2.4.2-1: Valid registrations of flutriafol in China, 2009-2013
  • Table 2.2.4.2-2: Valid registrations of flutriafol technical in China, as of 2013
  • Table 2.2.4.3-1: Capacity and output of main flutriafol technical producers in China, 2010-2013
  • Table 2.2.4.6-1: Market value and consumption volume of flutriafol formulations in China, 2010-2013
  • Table 2.2.5.2-1: Valid registrations of propiconazole in China, 2009-2013
  • Table 2.2.5.2-2: Valid registrations of propiconazole technical in China, as of 2013
  • Table 2.2.5.3-1: Capacity and output of main propiconazole technical producers in China, 2010-2013
  • Table 2.2.5.6-1: Market value and consumption volume of propiconazole formulations in China, 2010-2013
  • Table 2.2.6.2-1: Valid registrations of difenoconazole in China, 2009-2013
  • Table 2.2.6.2-2: Valid registrations of difenoconazole technical in China, 2013
  • Table 2.2.6.3-1: Capacity and output of main difenoconazole technical producers in China, 2010-2013
  • Table 2.2.6.6-1: Market value and consumption volume of difenoconazole formulations in China, 2010-2013
  • Table 2.2.7.2-1: Valid registrations of diniconazole in China, 2009-2013
  • Table 2.2.7.2-2: Valid registrations of diniconazole technical in China, as of 2013
  • Table 2.2.7.3-1: Capacity and output of main diniconazole technical producers in China, 2010-2013
  • Table 2.2.7.6-1: Market value and consumption volume of diniconazole formulations in China, 2010-2013
  • Table 2.2.8.2-1: Valid registrations of myclobutanil in China, 2009-2013
  • Table 2.2.8.2-2: Valid registrations of myclobutanil technical in China, as of 2013
  • Table 2.2.8.3-1: Capacity and output of main myclobutanil technical producers in China, 2010-2013
  • Table 2.2.8.6-1: Market value and consumption volume of myclobutanil formulations in China, 2010-2013
  • Table 2.2.9.2-1: Valid registrations of epoxiconazole in China, 2009-2013
  • Table 2.2.9.2-2: Valid registrations of epoxiconazole technical in China, as of 2013
  • Table 2.2.9.3-1: Capacity and output of main epoxiconazole technical producers in China, 2010-2013
  • Table 2.2.9.6-1: Market value and consumption volume of epoxiconazole formulations in China, 2010-2013
  • Table 2.2.10.2-1: Valid registrations of flusilazole in China, 2009-2013
  • Table 2.2.10.2-2: Valid registrations of flusilazole technical in China, as of 2013
  • Table 2.2.10.3-1: Capacity and output of main flusilazole technical producers in China, 2010-2013
  • Table 2.2.10.3-2: Capacity and output of main flusilazole technical producers in China, 2008-2012, capacity: t/a, output: tonne
  • Table 2.2.10.6-1: Market value and consumption volume of triadimefon formulations in China, 2010-2013
  • Table 3.3-1: Capacity and output of 1,2,4-triazole producers in China, 2010-2013

List of Figures:

  • Figure 2.1.1.1-1: Production of triazole fungicides in China, 2010-2013, t/a; tonne
  • Figure 2.1.2.1-1: Consumption volume and market value of triazole fungicides in China, 2010-2013
  • Figure 2.1.2.1-2: Consumption volume of key triazole fungicides in China, 2010-2013, tonne
  • Figure 2.1.2.1-3: Market value of key triazole fungicides in China, 2010-2013, million USD
  • Figure 2.1.2.2-1: Consumption structure of triazole fungicides by main crops in China, 2013
  • Figure 2.1.2.2-2: Consumption structure of triazole fungicides by main crops in China, 2012
  • Figure 2.1.2.2-3: Consumption structure of triazole fungicides by main crops in China, 2011
  • Figure 2.1.2.2-4: Consumption structure of triazole fungicides by main crops in China, 2010
  • Figure 2.2.1.1-1: Production route of triadimefon technical
  • Figure 2.2.1.1-2: Flow chart of triadimefon technical production
  • Figure 2.2.1.3-1: Capacity and output of triadimefon technical in China, 2010-2013, t/a; tonne
  • Figure 2.2.1.4-1: Export volume of triadimefon (converted to 95% TC) in China, 2010-2013, tonne
  • Figure 2.2.1.4-2: Export destinations of triadimefon technical in China, 2013
  • Figure 2.2.1.4-3: Export destinations of triadimefon formulations in China, 2013
  • Figure 2.2.1.5-1: Ex-works price of triadimefon 95% technical in China, 2010-2013, USD/t
  • Figure 2.2.1.5-2: Ex-works price of triadimefon 15% WP in China, 2010-2013, USD/t
  • Figure 2.2.1.6-1: Consumption of triadimefon (converted to 95% TC) by crops in China, 2010-2013, tonne
  • Figure 2.2.1.6-2: Consumption structure of triadimefon by crops in China, 2013
  • Figure 2.2.1.7-1: Forecast on capacity and output of triadimefon technical in China, 2014-2018, t/a; tonne
  • Figure 2.2.2.1-1: Production route of triadimenol technical
  • Figure 2.2.2.3-1: Output and capacity of triadimenol technical in China, 2010-2013, t/a; tonne
  • Figure 2.2.2.4-1: Export volume of triadimenol (converted to 97% TC) in China, 2010-2013, tonne
  • Figure 2.2.2.4-2: Export destinations of triadimenol technical in China, 2013
  • Figure 2.2.2.5-1: Ex-works price of triadimenol 97% technical in China, 2010-2013, USD/t
  • Figure 2.2.2.5-2: Ex-works price of triadimenol 15% WP in China, 2010-2013, USD/t
  • Figure 2.2.2.6-1: Consumption of triadimenol (converted to 97% TC) by crops in China, 2010-2013, tonne
  • Figure 2.2.2.6-2: Consumption structure of triadimenol by crops in China, 2013
  • Figure 2.2.2.7-1: Forecast on capacity and output of triadimenol technical in China, 2014-2018, t/a; tonne
  • Figure 2.2.3.1-1: Production route of tebuconazole technical
  • Figure 2.2.3.1-2: Flow chart of tebuconazole technical production
  • Figure 2.2.3.3-1: Capacity and output of tebuconazole technical in China, 2010-2013, t/a; tonne
  • Figure 2.2.3.4-1: Export volume of tebuconazole (converted to 97% TC) in China, 2010-2013, tonne
  • Figure 2.2.3.4-2: Export destinations of tebuconazole technical in China, 2013
  • Figure 2.2.3.4-3: Export destinations of tebuconazole formulations in China, 2013
  • Figure 2.2.3.5-1: Ex-works price of tebuconazole 97% technical in China, 2010-2013, USD/t
  • Figure 2.2.3.5-2: Ex-works price of tebuconazole 25% EC in China, 2010-2013, USD/t
  • Figure 2.2.3.6-1: Consumption of tebuconazole (converted to 95% TC) by crops in China, 2010-2013, tonne
  • Figure 2.2.3.6-2: Consumption structure of tebuconazole by main crops in China, 2013
  • Figure 2.2.3.7-1: Forecast on capacity and output of tebuconazole technical in China, 2014-2018, t/a; tonne
  • Figure 2.2.4.3-1: Capacity and output of flutriafol technical in China, 2010-2013, t/a; tonne
  • Figure 2.2.4.4-1: Export volume of flutriafol (converted to 97% TC) in China, 2010-2013, tonne
  • Figure 2.2.4.4-2: Export destinations of flutriafol technical in China, 2013
  • Figure 2.2.4.4-3: Export destinations of flutriafol formulations in China, 2013
  • Figure 2.2.4.5-1: Ex-works price of flutriafol 95% technical in China, 2010-2013, USD/t
  • Figure 2.2.4.5-2: Ex-works price of flutriafol formulations in China, 2010-2013, USD/t
  • Figure 2.2.4.6-1: Consumption of flutriafol by crops in China, 2010-2013, tonne
  • Figure 2.2.4.6-2: Consumption structure of flutriafol by crops in China, 2013
  • Figure 2.2.4.7-1: Forecast on capacity and output of flutriafol technical in China, 2014-2018, t/a; tonne
  • Figure 2.2.5.1-1: Production route of propiconazole technical
  • Figure 2.2.5.1-2: Flow chart of propiconazole technical production
  • Figure 2.2.5.3-1: Capacity and output of propiconazole technical in China, 2010-2013. capacity: t/a, output: tonne
  • Figure 2.2.5.4-1: Export volume of propiconazole (converted to 95% TC) in China, 2010-2013, tonne
  • Figure 2.2.5.4-2: Export destinations of propiconazole technical in China, 2013
  • Figure 2.2.5.4-3: Export destinations of propiconazole formulations in China, 2013
  • Figure 2.2.5.5-1: Ex-works price of propiconazole 95% technical in China, 2010-2013
  • Figure 2.2.5.5-2: Ex-works price of propiconazole 250g/L EC in China, 2010-2013
  • Figure 2.2.5.6-1: Consumption of propiconazole (converted to 95% TC) by crops in China, 2010-2013
  • Figure 2.2.5.6-2: Consumption structure of propiconazole by crops in China, 2013
  • Figure 2.2.5.7-1: Forecast on capacity and output of propiconazole technical in China, 2014-2018, t/a; tonne
  • Figure 2.2.6.1-1: Production route of difenoconazole technical
  • Figure 2.2.6.1-2: Flow chart of difenoconazole technical production
  • Figure 2.2.6.3-1: Capacity and output of difenoconazole technical in China, 2010-2013. t/a, tonne
  • Figure 2.2.6.4-1: Export volume of difenoconazole (converted to 95% TC) in China, 2010-2013, tonne
  • Figure 2.2.6.4-2: Export destinations of difenoconazole technical in China, 2013
  • Figure 2.2.6.4-3: Export destinations of difenoconazole formulations in China, 2013
  • Figure 2.2.6.5-1: Ex-works price of difenoconazole 95% technical in China, 2010-2013
  • Figure 2.2.6.5-2: Ex-works price of difenoconazole formulations in China, 2010-2013
  • Figure 2.2.6.6-1: Consumption of difenoconazole (converted to 95% TC) by crops in China, 2010-2013
  • Figure 2.2.6.6-2: Consumption structure of difenoconazole by crops in China, 2013
  • Figure 2.2.6.7-1: Forecast on capacity and output of difenoconazole technical in China, 2014-2018, t/a; tonne
  • Figure 2.2.7.1-1: Production route of diniconazole technical
  • Figure 2.2.7.1-2: Flow chart of diniconazole technical production
  • Figure 2.2.7.3-1: Capacity and output of diniconazole technical in China, 2010-2013, t/a; tonne
  • Figure 2.2.7.4-1: Export volume of diniconazole in China, 2010-2013, tonne
  • Figure 2.2.7.5-1: Ex-works price of diniconazole 95% TC in China, 2010-2013, USD/t
  • Figure 2.2.7.5-2: Ex-works price of diniconazole 12.5% WP in China, 2010-2013, USD/t
  • Figure 2.2.7.6-1: Consumption of diniconazole (converted to 95% TC) by crops in China, 2010-2013, tonne
  • Figure 2.2.7.6-2: Consumption structure of diniconazole by crops in China, 2013
  • Figure 2.2.7.7-1: Forecast on capacity and output of diniconazole technical in China, 2014-2018, t/a; tonne
  • Figure 2.2.8.1-1: Production route of myclobutanil technical
  • Figure 2.2.8.1-2: Flow chart of myclobutanil technical production
  • Figure 2.2.8.3-1: Capacity and output of myclobutanil technical in China, 2010-2013, t/a; tonne
  • Figure 2.2.8.4-1: Export volume of myclobutanil (converted to 95% TC) in China, 2010-2013, tonne
  • Figure 2.2.8.4-2: Export destinations of myclobutanil technical in China, 2013
  • Figure 2.2.8.5-1: Ex-works price of myclobutanil 95% technical in China, 2010-2013
  • Figure 2.2.8.5-2: Ex-works price of myclobutanil 125g/L EC in China, 2010-2013
  • Figure 2.2.8.6-1: Consumption of myclobutanil (converted to 95% TC) by crops in China, 2010-2013
  • Figure 2.2.8.6-2: Consumption structure of myclobutanil by crops in China, 2013
  • Figure 2.2.8.7-1: Forecast on capacity and output of myclobutanil technical in China, 2014-2018, t/a; tonne
  • Figure 2.2.9.1-1: Production route of epoxiconazole technical
  • Figure 2.2.9.1-2: Flow chart of epoxiconazole technical production
  • Figure 2.2.9.3-1: Capacity and output of epoxiconazole technical in China, 2010-2013, t/a; tonne
  • Figure 2.2.9.4-1: Export volume of epoxiconazole (converted to 97% TC) in China, 2010-2013, tonne
  • Figure 2.2.9.4-2: Export destinations of epoxiconazole technical in China, 2013
  • Figure 2.2.9.4-3: Export destinations of epoxiconazole formulations in China, 2013
  • Figure 2.2.9.5-1: Ex-works price of epoxiconazole 97% technical in China, 2010-2013, USD/t
  • Figure 2.2.9.5-2: Ex-works price of epoxiconazole 125g/L SC in China, 2010-2013, USD/t
  • Figure 2.2.9.6-1: Consumption of epoxiconazole (converted to 97% TC) by crops in China, 2010-2013
  • Figure 2.2.9.6-2: Consumption structure of epoxiconazole by crops in China, 2013
  • Figure 2.2.9.7-1: Forecast on capacity and output of epoxiconazole technical in China, 2014-2018, t/a; tonne
  • Figure 2.2.10.1-1: Production route of flusilazole technical
  • Figure 2.2.10.1-2: Flow chart of flusilazole technical production
  • Figure 2.2.10.3-1: Capacity and output of flusilazole technical in China, 2010-2013, t/a; tonne
  • Figure 2.2.10.4-1: Export volume of flusilazole (converted to 95% TC) in China, 2010-2013, tonne
  • Figure 2.2.10.4-2: Export destinations of flusilazole technical in China, 2013
  • Figure 2.2.10.4-3: Export destinations of flusilazole formulations in China, 2013
  • Figure 2.2.10.5-1: Ex-works price of flusilazole 95% technical in China, 2010-2013
  • Figure 2.2.10.5-2: Ex-works price of flusilazole 40% EC in China, 2010-2013
  • Figure 2.2.10.6-1: Consumption of flusilazole (converted to 95% TC) by crops in China, 2010-2013
  • Figure 2.2.10.6-2: Consumption structure of flusilazole by crops in China, 2013
  • Figure 2.2.10.7-1: Forecast on capacity and output of flusilazole technical in China, 2014-2018, t/a; tonne
  • Figure 3.3-1: Capacity and output of 1,2,4-triazole in China, 2010-2013, t/a; tonne
  • Figure 3.4-1: Ex-work price of 1, 2, 4-triazole in China, 2010-2013
  • Figure 3.5-1: 1,2,4-triazole's output and consumption in fungicides in China, 2010-2013
  • Figure 4.1.4-1: Annual cultivation area of crops in China, 2001-2012, ha
  • Figure 4.2-1: Output forecast of triazole fungicides (calculated by technical) in China, 2014-2018
  • Figure 4.2-2: Demand and market value forecast of triazole fungicides in China, 2014-2018, tonne, million USD
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