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市場調查報告書

全球可再生化學物質市場（2009年至2014年）

Renewable Chemicals (2009 - 2014)

出版商	Markets and Markets
出版日期	2009年08月	商品編碼	97793
內容資訊	英文 148 pages
價格	US $ 4650 PDF by E-mail (Single User License) US $ 5650 PDF by E-mail (Multi User License) US $ 7150 PDF by E-mail (Corporate Use License)

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全球可再生化學物質市場（2009年至2014年） 是由出版商Markets and Markets在2009年08月所出版的。這份英文市場調查報告書包含148 pages 價格從美金4650起跳。

The global renewable chemicals market is estimated to reach US $ 59 billion in 2014 from about US $ 45 billion in 2009. Though several companies in the chemicals industry were affected by the recent economic crisis, the companies producing renewable chemicals are expected to weather the crisis. The driving force for the renewable chemicals market is the low requirement of capital for both production as well as feedstock. Moreover, consumer demand for green products and governmental support to the industry for reducing dependence on finite non renewable petroleum feedstock as well as reducing green house gas emission has been driving the market for renewable chemicals. The growth of the industrial biotechnology has also contributed to the growth of the overall renewable chemicals market due to their innovations in biocatalysis that finds extensive usage in manufacturing renewable chemicals. Renewable chemicals find industrial, pharmaceutical application as well as in consumer products.

Focus on reducing global green house gas emissions levels has led to an increase in the activities in the field of renewable chemicals. Foreseeing the rising importance of renewable chemicals the major players in the chemicals industry such as Dow, BASF have already rendered an increased attention on this market. Though the market for alcohols in the overall renewable chemicals market accounts for the largest share of the market, polymers is expected to gain the maximum growth rate for the next five years. Renewable chemicals such as polymers are expected to command significant share in the overall polymers market mostly due to their usage in making biodegradable and compostable plastics and consumer goods such as cell phones, laptops etc. Platform chemicals also play an important role in the renewable chemicals market since they contain multiple functional groups and hence present practical potential for their conversion to families of useful products.

Market estimates and forecast

The report provides indepth market estimates and forecast for global renewable chemicals market as follows:

1. Renewable chemicals - Products
- Alcohols, organic chemicals, ketones, polymers and other markets.
2. Renewable chemicals - Application
- Industrial, transportation, textiles, safe food supply, environment, communication, housing, recreation, health & hygiene and other applications.
3. Renewable chemicals - Catalysis
- Biocatalysis and chemical catalysis
4. Renewable chemicals - Technology
- Thermo-chemical conversion, fermentation and bioconversion, product separation and bioconversion, enzymatic hydrolysis, gasification-fermentation, acid hydrolysis, biochemical-thermochemical, biochem-organisolve, fischer-tropsch diesel, reductive transformation, dehydrative transformation and other technologies.
5. Renewable chemicals - Platform Chemicals
- 1, 4-diacids, 2, 5-furan dicarboxylic acid, 3-hydroxypropionic acid, aspartic acid, glucaric acid, glutamic acid, itaconic acid, levulinic acid, glycerol and other chemicals.
6. Renewable chemicals - Bio feedstock
- Starch, cellulose, lignin and oil/fats/protein.
7. Renewable chemicals - Source
Plant biomass, animall biomass and marine biomass.

Each section will provide market data, market drivers, trends and opportunities, top-selling products, key players, and competitive outlook. This report will also provide more than 100 market tables for various geographic regions covering the sub-segments and micro-markets. In addition, the report also provides 50 company profiles for each of its sub-segments.

What makes our reports unique?

We provide the longest market segmentation chain in this industry- not many reports provide market breakdown upto level 5.
Each report is about 250 pages with 100+ market data tables, 40 competitive company profiles, minimum 50 micro markets analysed which are collectively exhaustive and mutually exclusive, 300 patents analyzed,
No single report by any other publisher provides market data for all the segments viz products, services, applications,

1. Introduction

1.1. Key takeaways
1.2. Report description
1.3. Market covered
1.4. Stakeholders

2. Summary

3. Market overview

3.1. Driving factors analysis for renewable chemicals market
3.2. Drivers
- 3.2.1. Economic and environmental pressure on petroleum-derived feedstock
- 3.2.2. Growing popularity of platform chemicals and biopolymers
- 3.2.3. Growing industrial responsibility
- 3.2.4. Consumer awareness and end-product acceptance
- 3.2.5. Increased decoupling from food supply chain
3.3. Restraints
- 3.3.1. Problems associated with the production process
- 3.3.2. Cost of production inhibiting growth of polymers
3.4. Opportunities
- 3.4.1. Improvement in chemical conversion can improve yields
- 3.4.2. Opportunities presented by lignin
- 3.4.3. Under-penetration in Asian countries

4. Renewable chemicals products

4.1. Alcohols
- 4.1.1. Drivers
  - 4.1.1.1. Multiple sources eco-friendly receive governmental support
  - 4.1.1.2. ' Green image' garners public favor
  - 4.1.1.3. Relatively lower price-sensitivity
- 4.1.2. Restraints
- 4.1.3. C1 and c2
  - 4.1.3.1. Methanol
  - 4.1.3.2. Ethanol
- 4.1.4. C3 and above
  - 4.1.4.1. 1-propanol
  - 4.1.4.2. Isobutanol
  - 4.1.4.3. 1-pentanol
  - 4.1.4.4. 2-propanol
  - 4.1.4.5. 2-ethyl-1-hexanol
  - 4.1.4.6. 1-nonanol
  - 4.1.4.7. 2-octanol
  - 4.1.4.8. 1-octanol
  - 4.1.4.9. 1-decanol
  - 4.1.4.10. 1-dodecanol
4.2. Organic acids
- 4.2.1. C1 and c2 acids
  - 4.2.1.1. Formic acid
  - 4.2.1.2. Acetic acid
  - 4.2.1.3. Glycolic acid
- 4.2.2. C3 and above
  - 4.2.2.1. Propionic acid
  - 4.2.2.2. Butyric acid
4.3. Ketones
- 4.3.1. Acetone
- 4.3.2. Methyl ethyl ketone
4.4. Polymers
- 4.4.1. Market drivers
  - 4.4.1.1. Technology push
  - 4.4.1.2. Economical benefit
  - 4.4.1.3. Reduced correlation with food supply
  - 4.4.1.4. At par with conventional petrochemical derived polymers
- 4.4.2. Restraints
  - 4.4.2.1. Lack of cost competitiveness
  - 4.4.2.2. Limited potential in certain high growth areas
- 4.4.3. Opportunities
  - 4.4.3.1. Wider range of applications
  - 4.4.3.2. Biotechnology companies
- 4.4.4. Polylactic acid
- 4.4.5. Polyhydroxyalkanoates
- 4.4.6. Polyvinyl acetate
- 4.4.7. Polyamino acids
- 4.4.8. Polyglycolic acid
- 4.4.9. Polyacrylamide

5. Renewable chemicals application

5.1. Industrial
- 5.1.1. Drivers
- 5.1.2. Restraints
- 5.1.3. Corrosion inhibitor
- 5.1.4. Emission abatement
- 5.1.5. Specialty lubricants
5.2. Transportation
- 5.2.1. Drivers
- 5.2.2. Restraints
- 5.2.3. Fuels
- 5.2.4. Oxygenates
- 5.2.5. Anti-freeze
- 5.2.6. Wiper fluids
5.3. Textiles
- 5.3.1. Carpets
- 5.3.2. Fabrics
- 5.3.3. Fabric coatings
- 5.3.4. Foam cushions
5.4. Food preservation & production enhancement
- 5.4.1. Drivers
- 5.4.2. Restraints
- 5.4.3. Food packaging
- 5.4.4. Antimicrobial packaging
- 5.4.5. Fertilizers
- 5.4.6. Beverage bottles
5.5. Environment
5.6. Housing
5.7. Recreation
5.8.Health & hygiene

6. Catalysis

6.1. Biocatalysis
- 6.1.1. Drivers
  - 6.1.1.1. Improved enzymes help in better industrial processes
  - 6.1.1.2. Benefits over chemical catalysis
  - 6.1.1.3. High specificity and multi-step reactions yield improved results
  - 6.1.1.4. Governmental concern over environmental issues
- 6.1.2. Restraints
  - 6.1.2.1. Slower process increases production costs
  - 6.1.2.2. Limited biocatalyst inventory
  - 6.1.2.3. Limited knowledge of industrially significant reactions
- 6.1.3. Opportunities
  - 6.1.3.1. Cost-effective preparation of biocatalysts
  - 6.1.3.2. Lower water and energy consumption
- 6.1.4. Enzymes
6.2. Chemical catalysis
- 6.2.1. Drivers
  - 6.2.1.1. Faster and simpler processes
  - 6.2.1.2. Development of heterogeneous catalysts
- 6.2.2. Restraints & Opportunities
  - 6.2.2.1. High energy requirements

7. Technology

7.1. Thermochemical conversion
7.2. Gasification
7.3. Pyrolysis
7.4. Hydrothermal upgrading
7.5. Fermentation and bioconversion
7.6. Product separation and upgrading
7.7. Enzymatic hydrolysis
7.8. Gasification-fermentation
7.9. Acid hydrolysis
7.10. Biochemical-thermochemical
7.11. Biochem-organisolve
7.12. Fischer tropsch diesel
7.13. Reductive transformation
7.14. Dehydrative transformation

8. Platform chemicals

8.1. 1, 4-diacids
- 8.1.1. Succinic acid
  - 8.1.1.1. Drivers
    - 8.1.1.1.1. Commercial use for derivatives
    - 8.1.1.1.2. Application in varied industries
    - 8.1.1.1.3. Demand expected to see double digit rise
- 8.1.1.2. Restraints and opportunities
8.2. Fumaric acid
- 8.2.1. Drivers
- 8.2.2. Restraints
8.3. 2, 5- furan dicarboxylic acid
- 8.3.1. Drivers
  - 8.3.1.1. Fdca derivatives have wide-ranging applications
- 8.3.2. Restraint
  - 8.3.2.1. Non-selective dehydration of sugar
  - 8.3.2.2. Lack of knowledge about polymer formation
- 8.3.3. Opportunities
  - 8.3.3.1. Problem of non selective production of FCDA to be removed
  - 8.3.3.2. Overcoming technological barriers
8.4. 3- Hydroxypropionic acid
- 8.4.1. Drivers
  - 8.4.1.1. Uses only via renewable feedstock route
  - 8.4.1.2. Wide ranging applications
- 8.4.2. Restraints
  - 8.4.2.1. Fermentation routes still expensive
  - 8.4.2.2. New catalysts increase R&D costs
8.5. Aspartic acid
- 8.5.1. Drivers
  - 8.5.1.1. Several benefits to producers
  - 8.5.1.2. Market potential for amino analogs
- 8.5.2. Opportunities
- 8.5.2.1. An alternative direct fermentation route
- 8.5.2.2. Better quality products
8.6. Glucaric acid
8.7. Glutamic acid
8.8. Itaconic acid
8.9. Levulinic acid
- 8.9.1. Drivers
  - 8.9.1.1. All derivatives of levulinic acid of significant value
- 8.9.2. Opportunities
8.10. Glycerol
- 8.10.1. Drivers
  - 8.10.1.1. Demand associated with that of biodiesel
  - 8.10.1.2. Cost effectiveness and biodegradable products
- 8.10.2. Restraints
- 8.10.3.Opportunities

9. Biofeedstock and source

10. Geographic analysis

10.1. The u.s. Renewable chemicals market
10.2. The european renewable chemicals market
10.3. The asian renewable chemicals market

11. Company profiles

11.1. Abengoa bioenergy
11.2. Altus pharmaceuticals
11.3. Archer-daniels-midland company
11.4. Arkenol
11.5. Avantium technologies
11.6. Basf
11.7. Bio-amber
11.8. Bio-mer
11.9. Bluefire ethanol
11.10. Braskem
11.11. Cargill inc.
11.12. Chevron corporation
11.13. Codexis, inc.
11.14. Croda inc.
11.15. Degussa evonik
11.16. Dow chemical company
11.17. Dsm
11.18. Dupont
11.19. Eastman chemicals
11.20. Ensyn technologies inc.
11.21. Genecor international, inc.
11.22. General biomass company
11.23. Greenfield ethanol, inc.
11.24. Gushan environmental energy
11.25. Ineos bio
11.26. Innovia films
11.27. Inventure chemicals
11.28. Iogen corporation
11.29. Materia, inc.
11.30. Nature works llc
11.31. Novozymes
11.32. Panda ethanol
11.33. Purac biochem bv
11.34. Pure vision technology
11.35. Sapphire energy, inc.
11.36. Seambiotic
11.37. Solvay chemicals
11.38. Spartan chemical company inc.
11.39. Uop llc
11.40. Verenium corporation

12. Patent analysis

12.1. Appendix
- 12.1.1. U.s. Patents
- 12.1.2. E.u. Patents
- 12.1.3. Asia patents

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全球可再生化學物質市場（2009年至2014年）

Renewable Chemicals (2009 - 2014)

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