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No. 0041W001 Future of White Biotechnology in China  - Edition(2)

 

 

About This Report:

 

Report edition:  2009 edition(2)
Language version: English
Document type: WORD|PDF (Word or PDF document)
For ready report --    
  Finished in: Sep 2009 ,edition(2)
  Total pages: 316
  Delivery: Delivery within 1-1 work days upon confirmation
  Price/copy: - USD10000.00 for single user
    -USD25000.00 for corporate license/site license
For update report --  
  Delivery time: Delivery within 10-30 work days upon confirmation
  Price/copy: - USD12000.00 for single user PDF
    - USD30000.00 for corporate license/site license

 

* The corporate license/site license is only for the sole and confidential use within the subscriber company and its affiliates in which the subscriber company owns, directly or indirectly, a fifty percent or greater, financial interest.

 

Report Edition List:

 

Version Finished in Availability Language   Pages   Delivery Price/Copy (For single user)
update report - update on request English - within 10-30 work days upon confirmation USD12000.00
2009,edition(2) Sep,2009 available English 316 within 1-1 work days upon confirmation USD10000.00
2008,edition(1) Apr,2008 available English 310 within 1-1 work days by email USD8000.00

 

 

Description:

 

Description of Future of White Biotechnology in China

The first edition of this report was finished in April 2008, with 310 pages length in Word Form. The second edition, with content improved and more insightful views, will come out soon this year. The report is the only one and the latest one available in the world to provide good understanding about the white biotechnology in China and to find out the business opportunities in this field.

  - 4 reasons to carry out this research

  White biotechnology developing fast in China
  Short supply of energy and fossil materials
  Government supports WB industry
  Huge opportunities

  Major achievements in White Technology in China in recent years
  Fuel ethanol produced from non-food renewable materials
  Super yeast with higher ethanol tolerance (15%~17% ethanol concentration), used in fuel ethanol production
  Pilot production of fuel ethanol using cellulosic materials
  Biomaterials, such as PHA and PLA, were introduced into the market
  Some bio-based chemicals, such as di-acids, 1,3-PDO, acrylamide and xanthan gum have been developed.
  Technology of some bio-based chemicals was greatly improved, especially that of vitamins.

  - What is covered?

  Policies and regulations on renewable feedstock, WB products, environmental protection, subsidies, incentives, etc.
  Renewable feedstock planting and supply situation in China. Over 15 major renewable feedstock essential to white biotechnology including the categories of main-food materials, non-food materials, vegetable oils and cellulosic materials are summarized.
  Market info of key WB products. The market data, major players, technical suppliers, technologies or R&D situations are included. Over 30 WB-related products are summarized falling into the categories of bio-fuels, bio-materials, bio-products and bio-based chemicals.
  Overview of white biotechnology. Latest market value estimation breakdown by category, cutting-edge technology developments, development environments analysis, SWOT analysis.
  Future prospects of white biotechnology, supply and demand forecasts on major products or categories, prospects on potential WB products, key drivers, bottlenecks, and opportunities.
  Driven forces and key factors for the development of white biotechnology.
  Opportunities in white biotechnology and recommendations.
  Profiles of the major players, researching institutes, top scientists.
  Supporting materials like water, energy, labor cost in different locations in China.
  What are the benefits of the report?

  Gain a clear understanding of the industry landscape and the latest developments in R&D, production, technology advances and future trends in industrial biotechnology in China
  Know the development stages and international status of key WB products of China based on basic data and latest info
  Get reasonable and constructive suggestions on the market opportunities in WB fields in China
  Understand the overall situation of renewable materials supply situation in China based on comprehensive and integrated data
  Get a thorough analysis of the market place for industrial biotechnology in China, the current trend and future growth prospects
  Learn more about the latest advances in commercialization of WB products within China and how policies and incentives that can encourage growth
  Know more about how innovative players and research groups are driving innovation, collaboration and achieving commercial success in China

  - What’s new in this edition?

The updated edition will be strengthened over the last edition mainly from the aspects of:
●  Volume and value of market size, production, etc. will be presented.
●  Estimates on the market size of white biotechnology in China will be provided, and breakdown by major categories.
●  Forecasts will be more detailed.
●  Overview of the cutting-edge technology developments, SWOT analysis, and development environments of China’s white biotechnology will be provided.

Besides, some other significant differences from the previous version are listed as follows:

Table 1 Differences between new edition and the previous edition
Items            New edition  Previous edition
Methodology: questionnaire survey   Yes        No
Chapter III: Overview …        Yes        No
Products: Di-acid, PHA     Existing commercial  Emerging commercial
Products: Acrylamide, PLA  Existing commercial    No
Products: antibiotics  No (*)  Existing commercial

* It will be described in the coming planned reports Red Biotechnology in China and Green Biotechnology in China provided by CCM


  - Methodologies and approaches

Scientific methodologies and varieties of data sources are adopted to ensure the credibility.

Major steps adopted to formulize this report:
  Desk research
  Telephone interviews with WB players and researchers through telephone
  Questionnaires were sent to many WB players to ask for their opinions
  Import and Export analysis to demonstrate the trade situation and also help analyse the production and consumption situation
  Series of internal discussions in order to analyse the data and draw conclusions from it
  Forecasting
  Report generation

The data collected and compiled were sourced from:
  Published articles from periodicals, magazines, journals, the third database
  Government statistics
  Primary info obtained by Tel-interviews, on-line chats, emails, questionnaires, etc.
  Comments from industrial experts
  Import and export data from customs
  CCM’s database
  Third-parties’ database
  Information from the Internet

Data from various channels has been combined and cross-checked to make this report as precise and credible as possible.

  Who needs to subscribe this report?

Biotechnology companies
  Update your knowledge and notice the latest developments of the market, R&D and applications in China
  Discover the potential opportunities for white biotechnology in China
  Benefit from a thorough review of new applications for bio-based products and assess the potential for the further growth of your company
Chemicals and plastic companies
  Learn how white biotechnologies and renewable raw materials will change the status quo of this industry and its future
  Keep informed of recent developments of white biotechnology in China
End users of bio-based products
  Know what superior and novel WB products you can get from China and then create more value to your customers and present commercial opportunities for you
Research organizations and academies
  Know the latest technical developments and the newest scientific breakthroughs
  Identify the most significant commercial opportunities to steer future research

 

Main Content:

 

No. Content
Page
Executive summary
1
Introduction and methodology
4
I Governmental regulations on white biotechnology
7
I-1 Regulations on white biotechnology, feedstock and products
7
I-2 Environmental regulations
16
I-3 Subsidies and incentives
20
I-4 Other regulations (industry standards, etc.)
25
I-5 Entry barriers/regulations
27
II Renewable feedstock supply in China
29
II-1 Overview of renewable feedstock planting and supply
29
II-2 Introduction to each renewable feedstock
32
II-2.1 Food feedstock
32
II-2.1.1 Corn
32
II-2.1.2 Sugar
41
II-2.1.3 Wheat
47
II-2.1.4 Rice
52
II-2.2 Non-food feedstock
56
II-2.2.1 Cassava
56
II-2.2.2 Molasses
61
II-2.2.3 Sweet potato
66
II-2.2.4 Sweet sorghum
67
II-2.3 Vegetable & animal oils
69
II-2.3.1 Soybean oil
69
II-2.3.2 Rapeseed oil
75
II-2.3.3 Animal oil
79
II-2.4 Lignocellulosic raw materials
80
II-2.4.1 Corn cob
80
II-2.4.2 Corn stover
87
II-2.4.3 Wheat/rice straw
89
II-2.4.4 Wood wastes
90
III Overview of white biotechnology industry in China
91
III-1 Market value estimation brokendown by category
91
III-2 Cutting-edge technology development
92
III-3 Development environment analysis
93
III-4 SWOT analysis of China’s white biotechnology
94
IV Key WB products
96
IV-1 Existing commercial products
96
IV-1.1 Bio-products
96
IV-1.1.1 Yeast
96
IV-1.1.2 Enzymes
102
IV-1.1.2.1 α-Amylase
102
IV-1.1.2.2 Gluco-amylase
107
IV-1.1.2.3 Lipase
111
IV-1.1.2.4 Pectinase
115
IV-1.2 Bio-fuels
119
IV-1.2.1 Fuel ethanol
119
IV-1.2.2 Bio-diesel
123
IV-1.3 Bio-based fine chemicals
131
IV-1.3.1 Lactic acid
131
IV-1.3.2 Amino acids
139
IV-1.3.2.1 MSG
139
IV-1.3.2.2 Lysine
145
IV-1.3.3 Nucleic acid
149
IV-1.3.4 Polysaccharides
153
IV-1.3.5 Vitamins
157
IV-1.3.5.1 Inositol
157
IV-1.3.5.2 Vitamin C
162
IV-1.3.5.3 Vitamin B
169
IV-1.4 Bio-based chemicals
173
IV-1.4.1 Acrylamide
173
IV-1.4.2 Di-acids
177
IV-1.4.3 Itaconic acid
183
IV-1.4.4 Butanol
189
IV-1.4.5 Acetone
192
IV-1.5 Bio-materials
195
IV-1.5.1 PHA
195
IV-1.5.2 PLA
202
IV-2 Emerging commercial products
206
IV-2.1 Bio-products
206
IV-2.1.1 C5/C6 yeast
206
IV-2.1.2 Lignocellulosic enzyme
210
IV-2.2 Bio-based chemicals
214
IV-2.2.1 1,3-PDO
214
IV-2.2.2 Succinic acid
219
IV-3 Potential products
226
IV-3.1 C3 platform
226
IV-3.1.1 Acrylic acid
226
IV-3.1.2 3-HPA
235
IV-3.2 Caprolactam
241
V Key WB players and researchers
251
V-1 Top 5 SOC players
251
V-2 Top 5 private companies
262
V-3 Top 5 MNC players
268
V-4 Startup players
275
V-5 Key WB research groups, technical suppliers and top researchers
282
VI Future prospects
293
VI-1 Drivers and barriers
293
VI-1.1 Drivers
293
VI-1.2 Barriers
295
VI-2 Future prospects
297
VI-2.1 Supply & demand forecast breakdown by category to next 5~10 years
298
VI-2.2 Prospects on the potential products to be commercialized in future
307
VII Conclusion and recommendation (SWOT analysis for each recommendation)
308
VII-1 Conclusion
308
VII-2 Recommendation
310
VIII Appendix
313
VIII-1 Water, energy and labor cost in different areas of China
313
VIII-1.1 Water cost in different areas of China
314
VIII-1.2 Energy cost in different areas of China
315
VIII-1.3 Labor cost in different areas of China
316

LIST OF TABLES
Table I-1.1 Major regulations on feedstock in WB industry
Table I-1.2 Main regulations issued on bio-energy industry in China
Table I-2.1 Major policies on environmental protection related with WB industry in China
Table I-2.2 Newly approved CDM projects on WB industry in China, 2009
Table I-3.1 Major State Science and Technology Programs in China
Table I-3.2 973 Program on WB industry, 2008-2010
Table I-3.3 863 Program on WB industry, 2008-2010
Table I-3.4 Subitems of ultra-low emissions of industrial sugar wastewater technology
Table I-3.5 National Key Technology R&D Program on WB industry in the 11th Five year Plan
Table I-3.6 Subitems of research on pilot production of biotechnology product and technology for large scale production
Table I-3.7 Subitems of key technology on sharing and exchanging of public information about biotechnology industry
Table I-4.1 Industry standards for main WB products
Table I-5.1 Catalogue for the Guidance of Foreign Investment WB Industry (Amended in 2007).
Table II-2.1.1.1 Geographical distribution of corn yield in China, 2005-2008, million tonnes
Table II-2.1.3.1 Flour consumption in China, 2008
Table II-2.2.1.1 Unit raw material consumption of cassava starch production
Table II-2.2.1.2 Comparison of alcohol production with different raw materials
Table II-2.4.1.1 Producers of corn cobs powder, 2006
Table II-2.4.4.1 Wood wastes in lumber mill
Table III-1.1 Market value of WB industry broken down by category in China, billion USD, 2004-2008
Table IV-1.1.1.1 Major yeast producers in China, 2009
Table IV-1.1.1.2 Potential market for active dry yeast in China
Table IV-1.1.1.3 Production cost analysis for active dry yeast (4,000 t/a line, facility investment: USD17 million)
Table IV-1.1.1.4 Hubei Angel’s super yeast for fuel ethanol
Table IV-1.1.2.1.1 Major producers of α-amylase in China, 2009
Table IV-1.1.2.1.2 α-Amylase preparations and related characteristics
Table IV-1.1.2.1.3 Specification of thermal sTable
Table IV-1.1.2.1.4 Demand for a-amylase based on applications, ‘000 tonnes, 2007-2016
Table IV-1.1.2.1.5 Situation of a-amylase end use segments
Table IV-1.1.2.2.1 Major producers of gluco-amylase in China, 2009
Table IV-1.1.2.2.2 Production cost and profit margin of gluco-amylase in China, 2009
Table IV-1.1.2.2.3 Demand for Gluco-amylase based on applications in China, ‘000 tonnes, 2007-2016
Table IV-1.1.2.2.4 Situation of gluco-amylase end use segments
Table IV-1.1.2.3.1 Major Producers of lipase in China, 2009
Table IV-1.1.2.3.2 Demand for lipase based on applications, 2008-2016, tonne
Table IV-1.1.2.4.1 Major producers of pectinase in China, 2009
Table IV-1.1.2.4.2 Demand for pectinase based on applications, 2007-2016, tonne
Table IV-1.2.1.1 Basic information of main fuel ethanol producers in China, 2009
Table IV-1.2.1.2 Potential fuel ethanol producers in China, 2009
Table IV-1.2.2.1 Basic information of bio-diesel producers in China, June 2009
Table IV-1.2.2.2 Basic information of main potential biodiesel producers in China, 2009
Table IV-1.2.2.3 Comparison of different raw materials for biodiesel production in China
Table IV-1.2.2.4 Bio-diesel profit analysis for a 50,000 t/a bio-diesel plant
Table IV-1.3.1.1 Major producers of lactic acid in China, 2009
Table IV-1.3.1.2 Key items of lactic acid technology for major producers in China, 2009
Table IV-1.3.1.3 Breakdown of COGS for L-lactic acid production (Pharmaceutical grade)
Table IV-1.3.2.1.1 Active MSG producers in China, 2009
Table IV-1.3.2.2.1 Major producers of lysine in China, 2009
Table IV-1.3.3.1 Major suppliers of RNA medicines for fatty liver in China
Table IV-1.3.4.1 Major HA producers with fermentation route in China, 2009
Table IV-1.3.4.2 Major xanthan gum producers with fermentation route in China, 2009
Table IV-1.3.4.3 Major producers of fungi polysaccharides, 2009
Table IV-1.3.5.1.1 Major inositol producers in China, 2009
Table IV-1.3.5.2.1 Key VC producers in China, 2009
Table IV-1.3.5.2.2 Quotation from major VC producers in July 2009
Table IV-1.3.5.2.3 Cost & profit of VC production, by capacity
Table IV-1.3.5.3.1 VB2 producers in China, 2009
Table IV-1.3.5.3.2 VB1 producers in China, 2009
Table IV-1.3.5.3.3 Major VB4 producers in China, 2009
Table IV-1.4.1.1 Major acrylamide producers in China, 2009
Table IV-1.4.1.2 Comparison of chemical and biotechnology routes in acrylamide production
Table IV-1.4.2.1 Major WB di-acids producers in China, 2009
Table IV-1.4.2.2 Comparison between fermentation route and chemical route for production of long chain di-acids
Table IV-1.4.2.3 Fermentation level of different research institutes
Table IV-1.4.2.4 DC12 fermentation technology from Institute of Microbiology, CAS
Table IV-1.4.2.5 DC13 fermentation technology from Institute of Microbiology, CAS
Table IV-1.4.2.6 DC15 fermentation technology from Institute of Microbiology, CAS
Table IV-1.4.3.1 Major itaconic acid producers in China, 2009
Table IV-1.4.3.2 Indexes of itaconic acid from Qingdao Langyatai (Group) Co., Ltd.
Table IV-1.4.3.3 Breakdown of COGS for itaconic acid production of Qingdao Langyatai
Table IV-1.4.3.4 Users and suppliers of itaconic acid production technologies in China
Table IV-1.4.4.1 Major butanol producers adopting biological routes in China
Table IV-1.4.4.2 Major butanol producers adopting chemical routes in China
Table IV-1.4.5.1 Major acetone producers adopting biological route in China, 2009
Table IV-1.4.5.2 Major acetone producers adopting chemical route in China, 2009
Table IV-1.4.5.3 Consumption pattern of acetone in China and the world
Table IV-1.5.1.1 PHA products from Shenzhen Obioer Technology Co., Ltd.
Table IV-1.5.1.2 Indices of PHA products from Shenzhen Obioer Technology Co., Ltd.
Table IV-1.5.1.3 PHA producers in China, 2009
Table IV-1.5.1.4 Application fields of PHA
Table IV-1.5.1.5 Production routes of PHA
Table IV-1.5.2.1 Major PLA producers in China
Table IV-1.5.2.2 PLA plants under plan in China
Table IV-2.1.2.1 Demand for lignocellulosic enzyme in different industries, 2008-2013, ‘000 tonnes
Table IV-2.1.2.2 Major producers of lignocellulosic enzyme in China, 2009
Table IV-2.2.1.1 1,3-PDO demand and related CAGR, 2006-2010, tonne
Table IV-2.2.1.2 1,3-PDO producers in China, 2008
Table IV-2.2.1.3 Comparison among three production routes for 1,3-PDO
Table IV-2.2.1.4 Comparison of several fermentation routes
Table IV-2.2.2.1 China’s producers of succinic acid in 2009
Table IV-2.2.2.2 Comprehensive comparison of different technologies
Table IV-3.1.1.1 Major producers of acrylic acid in China, 2009
Table IV-3.1.1.2 End users of acrylic acid in China
Table IV-3.1.1.3 Biological routes for acrylic acid production
Table IV-3.1.1.4 Forecast growth rate of acrylic acid demand, China and the world to 2015
Table IV-3.2.1 Basic info of active caprolactam producers in China, 2009
Table IV-3.2.2 Price of caprolactam in China, 2005~2009
Table IV-3.2.3 China’s demand for CPL in 2007, and forecast in 2010, tonne
Table IV-3.2.4 List of major CPL end users in China, 2008
Table IV-3.2.5 Demand & supply situation of CPL in China, 2007-2010
Table VI-2.1.1 Projected market size of bio-fuels industry in China, ‘000 tonnes, 2010-2020
Table VI-2.1.2 Projected market size of bio-materials industry in China, ‘000 tonnes, 2010-2020
Table VII-1.1 Situation of major WB products in China
Table VII-2.1 Opportunities in WB industry in China
Table VII-2.2 SWOT analysis of each recommendation on market opportunities in WB products in China
Table VIII-1.1.1 Industrial water price and cost for sewage disposal in different areas, Aug. 2009
Table VIII-1.2.1 Price of electricity in Aug, 2009, USD/kwh
Table VIII-1.2.2 Price of natural gas in Aug, 2009 (USD/m3)
Table VIII-1.3.1 Average wage of workers by ownership of the companies and region, USD/year

LIST OF FIGURES
Figure I-1.1 Major regulations on WB industry in China, 2006-2009
Figure I-1.2 Projected status of Chinese biotechnology industry in the world, 2010-2020
Figure I-1.3 Target for Chinese biotechnology industry development, 2006-2010
Figure I-1.4 Distribution of national biotechnology industrial bases in 2009
Figure I-1.5 Distribution of major plant as raw material of bio-diesel in 2010
Figure I-1.6 Distribution of major plant as raw material of fuel-ethanol in 2010
Figure I-2.1 Milestones of development of governmental department on environmental protection in China
Figure I-2.2 Government investment in pollution treatment in China, 2004-2008
Figure I-2.3 Main targets for environmental protection in China, 2005-2010
Figure I-2.4 Major China-involved international conventions on environmental protection, 1989-2002
Figure I-3.1 Subsidy standard for four fuel-ethanol producers in China, 2005-2009
Figure I-3.2 Budget on major State Science and Technology Programs in China, 2003-2007
Figure I-3.3 Number of research items in major State Science and Technology Programs in China, 2003-2007
Figure II-1.1 Total crop planting area in China, 2004-2008
Figure II-1.2 Crop planting structure in China in 2008, by planting area
Figure II-1.3 Yield of major renewable feedstocks in China, 2008
Figure II-2.1.1.1 Corn planting area in China, 2004-2008
Figure II-2.1.1.2 Corn yield in China, 2004-2008
Figure II-2.1.1.3 Distribution of corn planting in China
Figure II-2.1.1.4 Monthly quotation of corn in China, 2007-2008
Figure II-2.1.1.5 China’s import and export of corn, 2006-2008
Figure II-2.1.1.6 Consumption structure of corn in China, 2006-2008
Figure II-2.1.1.7 Feed output and corn consumption in feed industry, 2006-2008
Figure II-2-1.1.8 Corn consumption volume in industrial production in China, 2006-2008
Figure II-2-1.1.9 Production chain of corn starch
Figure II-2-1.1.10 Corn consumption volume as food in China, 2006-2008
Figure II-2-1.1.11 Corn consumption volume as seed in China, 2006-2008
Figure II-2.1.2.1 Planting area of sugar cane and sugar beet in China, 2004-2008
Figure II-2.1.2.2 Proportion of sugar cane planting area in major provinces in China, 2004-2008
Figure II-2.1.2.3 Share of major provinces’ sugar beet planting area of China’s total, 2004-2008
Figure II-2.1.2.4 Yield of sugar in China, 2004-2008
Figure II-2.1.2.5 Share of sugar yield of major provinces in China, 2008
Figure II-2.1.2.6 Import and export volume of sugar in China, 2004-2008
Figure II-2.1.2.7 Sugar consumption in China, 2004-2008
Figure II-2.1.2.8 China’s sugar consumption volume per capita, 2004-2008
Figure II-2.1.3.1 Planting area of wheat in China, 2004-2008
Figure II-2.1.3.2 Yield of wheat in China, 2004-2008
Figure II-2.1.3.3 Wheat planting distribution in China
Figure II-2.1.3.4 Wheat quotation in Zhengzhou Commodity Exchange, 2007-2009
Figure II-2.1.3.5 Import and export situation of wheat, 2006-2008
Figure II-2.1.3.6 Wheat consumption structure in China, 2005-2008
Figure II-2.1.4.1 Planting area of rice in China, 2004-2008
Figure II-2.1.4.2 Yield of rice in China, 2004-2008
Figure II-2.1.4.3 Distribution of rice planting in China
Figure II-2.1.4.4 Rice export and import volume in China, 2005-2008
Figure II-2.1.4.5 Rice consumption structure in China, 2005-2008
Figure II-2.2.1.1 Planting area of cassava in China, 2005-2008
Figure II-2.2.1.2 Yield of cassava in China, 2005-2008
Figure II-2.2.1.3 Import and export volume of cassava, 2004-2008
Figure II-2.2.1.4 Cassava consumption structure in China, 2008
Figure II-2.2.1.5 Applications of cassava alcohol in China
Figure II-2.2.2.1 Production of molasses and sugar in China, 2004-2008
Figure II-2.2.2.2 Share of molasses yield of major provinces in China, 2008
Figure II-2.2.2.3 Consumption structure of molasses in China, 2008
Figure II-2.2.4.1 Planting area of sorghum in China, 2004-2008
Figure II-2.2.4.2 Yield of sorghum in China, 2004-2008
Figure II-2.3.1.1 Planting area of soybean in China, 2004-2008
Figure II-2.3.1.2 Distribution of soybean planting in China
Figure II-2.3.1.3 Production of soybean oil in China, 2004-2008
Figure II-2.3.1.4 Distribution of soybean oil production in China by volume, 2008
Figure II-2.3.1.5 Soybean oil import and export volume in China, 2004-2008
Figure II-2.3.1.6 Consumption volume of soybean oil in China, 2004-2008
Figure II-2.3.1.7 Consumption structure of soybean oil in China, 2004-2008
Figure II-2.3.2.1 Planting area of rape in China, 2004-2008
Figure II-2.3.2.2 Yield of rape in China, 2004-2008
Figure II-2.3.2.3 Geographical distribution of rape planting in China in 2008
Figure II-2.3.2.4 Production of rapeseed oil in China, 2004-2008
Figure II-2.3.2.5 Export and import volume of rapeseed oil in China, 2004-2008
Figure II-2.3.2.6 Consumption volume of rapeseed oil in China, 2004-2008
Figure II-2.4.1.1 Yield of corn and corn cob in China, 2004-2008
Figure II-2.4.1.2 Consumption structure of corn cobs in China, 2008
Figure II-2.4.2.1 Yield of corn and corn stover in China, 2004-2008
Figure II-2.4.2.2 Consumption structure of corn stover in China, 2008
Figure II-2.4.3.1 Yield of wheat/rice and wheat/rice straw in China, 2004-2008
Figure III-4.1 SWOT analysis of China’s white biotechnology
Figure IV-1.1.1.1 Market of active dry yeast in China, 2006-2008
Figure IV-1.1.1.2 Projected yeast market in China, 2009-2014
Figure IV-1.1.2.1.1 Market situation of a-amylase in China, 2004-2008
Figure IV-1.1.2.1.2 Consumption pattern of α-amylase in China, 2008
Figure IV-1.1.2.1.3 Projected α-amylase market in China, 2009-2014
Figure IV-1.1.2.2.1 Market situation of gluco-amylase in China, 2004-2008
Figure IV-1.1.2.2.2 Projected gluco-amylase market in China, 2009-2014
Figure IV-1.1.2.3.1 Market situation of lipase in China, 2004-2008
Figure IV-1.1.2.3.2 Consumption pattern of lipase in China, 2008
Figure IV-1.1.2.3.3 Projected market of lipase in China, 2009-214
Figure IV-1.1.2.4.1 Market situation of pectinase in China, 2004-2008
Figure IV-1.1.2.4.2 Projected market of pectinase in China, 2009-2014
Figure IV-1.2.1.1 Output of fuel ethanol in China, 2004-2009
Figure IV-1.2.1.2 Fuel ethanol capacity structure, by raw materials, 2009
Figure IV-1.2.1.3 Flowchart of fuel ethanol production technology in China
Figure IV-1.2.1.4 Projected fuel ethanol market in China, 2010-2014
Figure IV-1.2.2.1 Capacity of bio-diesel in China, 2004-2009
Figure IV-1.2.2.2 Bio-diesel capacity structure, by raw materials, 2009
Figure IV-1.2.2.3 Projected capacity of bio-diesel in China, 2010-2014
Figure IV-1.2.2.4 Projected market value of bio-diesel in China, 2010-2014
Figure IV-1.3.1.1 Market situation of lactic acid in China, 2004-2008
Figure IV-1.3.1.2 Consumption pattern of lactic acid in China, 2008
Figure IV-1.3.1.3 Demand of lactic acid in the world and China, 2005-2010
Figure IV-1.3.1.4 Projected latic acid market in China, 2009-2014
Figure IV-1.3.2.1.1 MSG market development in China, 2004-2008
Figure IV-1.3.2.1.2 Export volume and average export price of MSG, 2004-2008
Figure IV-1.3.2.1.3 MSG demand situation in China, 2004-2008
Figure IV-1.3.2.1.4 Market value of MSG in China, 2004-2008
Figure IV-1.3.2.1.5 Prediction of MSG market, 2009-2014
Figure IV-1.3.2.2.1 Market situation of Lysine in China, 2004-2008
Figure IV-1.3.2.2.2 Average export/import price of lysine in China, 2004-2009
Figure IV-1.3.2.2.3 Gross profit margin of 98% and 65% lysine of Dacheng Company, 2004-2008
Figure IV-1.3.2.2.4 Projected market of lysine in China, 2009-2014
Figure IV-1.3.3.1 Market situation of food use nucleotides in China, 2004-2008
Figure IV-1.3.3.2 Market value of RNA medicines for fatty liver in China, 2004-2008
Figure IV-1.3.5.1.1 Market size of inositol in China, 2004-2008
Figure IV-1.3.5.1.2 Consumption pattern of inositol in China, 2008
Figure IV-1.3.5.1.3 Averaged export price of inositol in China, 2004-2009
Figure IV-1.3.5.1.4 Projected market of inositol in China, 2009-2014
Figure IV-1.3.5.2.1 VC production in China, 2004-2008
Figure IV-1.3.5.2.2 Market share of VC producers in China by output, 2008
Figure IV-1.3.5.2.3 VC consumption pattern in the global market, 2008
Figure IV-1.3.5.2.4 VC consumption pattern in China, 2008
Figure IV-1.3.5.2.5 VC export in China, 2004-2008
Figure IV-1.3.5.2.6 Chemical synthesis route for VC production
Figure IV-1.3.5.2.7 Projected VC market in China, 2009-2014
Figure IV-1.3.5.3.1 Market situation of VB2 in China, 2006-2008
Figure IV-1.3.5.3.2 Market situation of VB1 in China, 2006-2008
Figure IV-1.4.1.1 Market situation of acrylamide in China, 2004-2008
Figure IV-1.4.1.2 Flow chart of acrylamide production with biotechnology route
Figure IV-1.4.1.3 Flow chart of acrylamide production with chemical route
Figure IV-1.4.1.4 Projected market of acrylamide in China, 2009-2014
Figure IV-1.4.2.1 Market size of di-acids in China, 2006-2008
Figure IV-1.4.2.2 Projected market size of di-acids in China, 2009-2014
Figure IV-1.4.3.1 Market size of itaconic acid in China, 2007-2008
Figure IV-1.4.3.2 Production structure of itaconic acid by output, 2008
Figure IV-1.4.3.3 Consumption structure of itaconic acid in China, 2008
Figure IV-1.4.3.4 Price of itaconic acid, 2004-2009
Figure IV-1.4.3.5 Forecast on itaconic acid output in China, 2009-2014
Figure IV-1.4.4.1 Market situation of Butanol in China, 2005-2008
Figure IV-1.4.4.2 Projected market size of butanol in China, 2009-2014
Figure IV-1.4.5.1 Market situation of Acetone in China, 2005-2008
Figure IV-1.4.5.2 Predicted market size of acetone in China, 2009-2014
Figure IV-1.5.1.1 Chemical formula of PHA
Figure IV-1.5.1.2 PHA family and major members
Figure IV-1.5.1.3 Projected market size of PHA in China, 2009-2014
Figure IV-1.5.2.1 Flowchart of PLA production technology
Figure IV-1.5.2.2 Detailed PLA production process from lactic acid
Figure IV-1.5.2.3 Projected market size of PLA in China, 2009-2014
Figure IV-2.1.1.1 Approach to utilize renewable lignocellulosic materials to produce ethanol
Figure IV-2.1.2.1 Market development of lignocellulosic enzyme in China, 2005-2008
Figure IV-2.1.2.2 Forecast of demand for lignocellulosic enzyme in China, 2008-2014
Figure IV-2.2.1.1 Market development of 1,3-PDO in China 2006-2008
Figure IV-2.2.2.1 Market development of succinic acid in China, 2006-2008
Figure IV-2.2.2.2 Consumption pattern of succinic acid in China in 2008
Figure IV-2.2.2.3 Succinic acid consumed in chemical industry, 2008
Figure IV-2.2.2.4 Succinic acid consumed in pharmaceutical industry, 2008
Figure IV-2.2.2.5 Succinic acid consumed in food industry, 2008
Figure IV-2.2.2.6 Succinic acid consumed in agricultural industry, 2008
Figure IV-3.1.1.1 Market development of acrylic acid in China, 2004-2008
Figure IV-3.1.1.2 Market size of acrylic acid in major countries by capacity, 2008
Figure IV-3.1.1.3 Consumption structure of acrylic acid in China, 2008
Figure IV-3.1.1.4 Consumption structure of acrylic acid in the world, 2008
Figure IV-3.1.1.5 Demand for acrylic acid in China, 2007-2015
Figure IV-3.1.1.6 Future capacity and output of acrylic acid in china, 2009-2014
Figure IV-3.1.2.1 Commodity chemicals production achieved by 3-HPA, adopting renewable feedstock route
Figure IV-3.1.2.2 Metabolic pathway designed for 3-HPA production from microorganism
Figure IV-3.1.2.3 Project based on 3-HPA by Cargill’s team
Figure IV-3.1.2.4 Approach Cargill’s team adopted to develop 3-HPA
Figure IV-3.1.2.5 3-HPA as a novel C3 platform to many commodity chemicals
Figure IV-3.2.1 Market situation of CPL in China, 2006~2008
Figure V-4.4.1 Comprehensive utilization of Jatropha curcas L
Figure V-5.7.1 Technology flow path
Figure VI-2.1.1 Projected market value of WB industry in China, 2009-2020
Figure VI-2.1.2 Projected CAGR of bio-products industry in China by questionnaire, 2009-2020
Figure VI-2.1.3 Projected market value of bio-product industry in China, 2009-2020
Figure VI-2.1.4 Projected CAGR of bio-fuels industry in China by questionnaire, 2009-2020
Figure VI-2.1.5 Projected market value of bio-fuel industry in China, 2009-2020
Figure VI-2.1.6 Projected CAGR of bio-based fine chemicals industry in China by questionnaire, 2009-2020
Figure VI-2.1.7 Projected market value of bio-base fine chemicals industry in China, 2009-2020
Figure VI-2.1.8 Projected CAGR of bio-based chemicals industry in China by questionnaire, 2009-2020
Figure VI-2.1.9 Projected market value of bio-based chemical industry in China, 2009-2020
Figure VI-2.1.10 Projected CAGR of bio-materials industry in China by questionnaire, 2009-2020
Figure VI-2.1.11 Projected market value of bio-materials industry in China, 2009-2020

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Executive Summary

White biotechnology (WB) industry, which is often referred to the third wave in biotechnology, is one of the most promising new approaches to pollution prevention, resource conservation, and cost reduction around the world. Eying the huge economic benefit, environmental benefit and social benefit from WB industry, China has paid great attention to WB industry development. In the last two decades, WB industry in China has developed at a rapid clip.

Chinese government has paid a crucial influence on WB industry by providing various supports, including monetary incentives and preferential taxation policies on feedstock, supply and demand of WB products, etc. Great achievement has been made in WB industry, especially in bio-energy and chemical industries. For instance, China has enhanced its global status to the third largest ethanol producer and the second largest producer of chemicals across the world.

The great achievement in China has generated huge profit. In XX, the market value of China’s WB industry reached USDXX billion, including market value of USDXX billion accounting for around XX% of the total from bio-based fine products, the largest WB category in China.

As for WB technology development, China has accomplished the breakthrough in major technologies including strain engineering, optimization of fermentation technology, immobilized enzyme and cell technology, separation and extraction technology, and optimization of bioreactors in China. Application of fermentation and bio-catalysis technology in high-value and low-volume products in China has seen great success in the past few decades.

Thanks to the technoogy development, the number of biotechnology industrial products has increased significantly and their production scales have been enlarged a lot. Major WB products in China are traditional fermentation products, such as enzymes, vitamins, amino acids, organic acids, starch derivatives, etc. For brand-new WB products, such as PHA, 1,3-PDO, di-acids and bio-energy, are all at introduction stage. Based on the previous experiences of successful technology application, more WB products are likely to be commercialized in the future in China.

Feedstock supply has been one of the focuses of Chinese government’s efforts to boost WB industry development. Renewable feedstock supply in China can basically meet domestic demand from WB insustry at present. Food feedstock, such as corn, sugar, wheat and rice, is the most widely adopted in WB industry as the supply of food feedstock is abundant and the production technology of their downstream products have been mature. But China’s huge population and limited arable land determines that the use of food feedstock will not be encouraged for food security concern. Hence, China has issued many relevant policies on the use of food feedstock for industrial purpose. And the use of non-food feedstocks such as cassava, Jatropha curcas L., etc, have been actively promoted in China now.

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Character of CCM' Report:

This multi-client report provides a comprehensive study on the researched subject in China, from aspects of production, technology, import & export, consumption & end uses, etc.

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 All the producers in China, either active or idled or potential, have been sourced and contacted. Their situation has been verified and compiled as in the appendix.
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 The competitiveness of Chinese production has been discussed in order to uncover the mystery of ever-increasing capability of Chinese manufacturing.
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 The import & export analysis for the situation in the recent three years has been conducted.
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 The consumption pattern of the researched subject has been carried out in order to breakdown the end uses into different segments. The major end users under each major end use segments have been identified.
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 The scientific methodology has been employed to conduct the quantitative forecast on this subject in the future 5-10 years.

The aim of this report is to provide powerful assistance to the strategy group and the management team in making correct decision as how to penetrate the ever-increasing China market and how to catch the maximum commercial opportunities. The report is formulated independently by CCM’s professional market researchers, based on the first-hand and primary data which are analyzed by scientific methodology, confirmed with both manufacturers/end users/traders and legal authorities, and presented in a logic way.

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