기술_시장 자료 The Global Market for White Biotechnology 2024-2034

Untitled

1 RESEARCH METHODOLOGY

2 INTRODUCTION

2.1 Definition
2.2 Comparison with conventional processes
2.3 Applications
2.4 Advantages
2.5 Sustainability
2.6 White Biotechnology for the Circular Economy
2.6.1 Agricultural Waste
2.6.2 Forestry and Paper Waste
2.6.3 Gas Fermentation
2.6.4 Plastics Upcycling
2.6.5 Wastewater Valorization

3 TECHNOLOGY ANALYSIS

3.1 Production hosts
3.1.1 Bacteria
3.1.2 Yeast
3.1.3 Fungi
3.1.4 Marine
3.1.5 Enzymes
3.1.6 Photosynthetic organisms
3.2 Biomanufacturing processes
3.2.1 Batch biomanufacturing
3.2.2 Continuous biomanufacturing
3.3 Cell factories for biomanufacturing
3.4 Synthetic Biology
3.4.1 Overview
3.4.1.1 Metabolic engineering
3.4.1.2 DNA synthesis
3.4.1.3 CRISPR
3.4.1.4 Protein/Enzyme Engineering
3.4.1.5 Smart bioprocessing
3.4.1.6 Cell-free systems
3.4.1.7 Chassis organisms
3.4.1.8 Biomimetics
3.4.1.9 Sustainable materials
3.4.2 Robotics and automation
3.4.3 Fermentation Processes
3.5 Feedstocks
3.5.1 C1 feedstocks
3.5.2 C2 feedstocks
3.5.3 Biological conversion of CO2
3.5.4 Food processing wastes
3.5.5 Lignocellulosic biomass
3.5.6 Methane
3.5.7 Municipal solid wastes
3.5.8 Plastic wastes
3.5.9 Plant oils
3.5.10 Starch
3.5.11 Sugars
3.5.12 Used cooking oils
3.5.13 Green hydrogen production
3.5.14 Blue hydrogen production
3.6 Blue biotechnology (Marine biotechnology)
3.6.1 Cyanobacteria
3.6.2 Algae
3.6.3 Companies

4 MARKET ANALYSIS

4.1 Market trends and drivers
4.2 Industry challenges and constraints
4.3 White biotechnology in the “bioeconomy
4.4 SWOT analysis
4.5 Market map
4.6 Competitive landscape
4.7 Main end-use markets
4.7.1 Biofuels
4.7.1.1 Solid Biofuels
4.7.1.2 Liquid Biofuels
4.7.1.3 Gaseous Biofuels
4.7.1.4 Conventional Biofuels
4.7.1.5 Advanced Biofuels
4.7.1.6 Feedstocks
4.7.1.7 Metabolic pathways
4.7.1.8 Bioethanol
4.7.1.9 Biodiesel
4.7.1.10 Biogas
4.7.1.11 Renewable diesel
4.7.1.12 Biojet fuel
4.7.1.13 Algal biofuels (blue biotech)
4.7.1.14 Biohydrogen
4.7.1.15 Biobutanol
4.7.1.16 Bio-based methanol
4.7.1.17 Bioisoprene
4.7.1.18 Fatty Acid Esters
4.7.2 Bio-based chemicals
4.7.2.1 Alcohols
4.7.2.2 Organic acids
4.7.2.3 Enzymes
4.7.2.4 Acetone
4.7.2.5 Acetic acid
4.7.2.6 Adipic acid
4.7.2.7 Aldehydes
4.7.2.8 Acrylic acid
4.7.2.9 Bacterial cellulose
4.7.2.10 Bio-BDO
4.7.2.11 Bio-DME
4.7.2.12 Biobased ethanol
4.7.2.13 Dodecanedioic acid (DDDA)
4.7.2.14 Ethylene
4.7.2.15 3-Hydroxypropionic acid (3-HP)
4.7.2.16 Itaconic acid
4.7.2.17 Lactic acid (D-LA)
4.7.2.18 Malonic acid
4.7.2.19 Monoethylene glycol (MEG)
4.7.2.20 Succinic acid (SA)
4.7.2.21 Triglycerides
4.7.2.22 Amino Acids
4.7.2.23 Vitamins
4.7.2.24 Other types
4.7.3 Bioplastics and Biopolymers
4.7.3.1 Polylactic acid (PLA)
4.7.3.2 PHAs
4.7.3.3 Bio-PET
4.7.3.4 Starch blends
4.7.3.5 Protein-based bioplastics
4.7.4 Bioremediation
4.7.5 Biocatalysis
4.7.5.1 Biotransformations
4.7.5.2 Cascade biocatalysis
4.7.5.3 Co-factor recycling
4.7.5.4 Immobilization
4.7.6 Food and Nutraceutical Ingredients
4.7.6.1 Alternative Proteins
4.7.6.2 Natural Sweeteners
4.7.6.3 Natural Flavors and Fragrances
4.7.6.4 Texturants and Thickeners
4.7.6.5 Nutraceuticals and Supplements
4.7.7 Sustainable agriculture
4.7.7.1 Biofertilizers
4.7.7.2 Biopesticides
4.7.7.3 Biostimulants
4.7.7.4 Crop Biotechnology
4.7.8 Textiles
4.7.8.1 Bio-Based Fibers
4.7.8.2 Recombinant Materials
4.7.8.3 Sustainable Processing
4.7.9 Pharmaceuticals
4.7.10 Cosmetics
4.7.11 Surfactants and detergents
4.7.12 Cement
4.7.12.1 Biocement
4.7.12.2 Mycelium materials
4.8 Global market revenues 2018-2034
4.8.1 By market
4.8.2 By region
4.9 Future Market Outlook

5 COMPANY PROFILES

6 GLOSSARY

6.1 Acronyms
6.2 Terms

7 REFERENCES

List of Tables

Table 1. Biotechnology "colors"
Table 2. Differences between white biotechnology and conventional processes
Table 3. Advantages of white biotechnology
Table 4. Molecules produced through industrial biomanufacturing
Table 5. Major microbial cell factories used in industrial biomanufacturing
Table 6. Core stages - Design, Build and Test
Table 7. Products and applications enabled by synthetic biology
Table 8. Engineered proteins in industrial applications
Table 9. White biotechnology fermentation processes
Table 10. CO2 derived products via biological conversion-applications, advantages and disadvantages
Table 11. Summary of Enzymolysis technologies-feedstocks, process, outputs, commercial maturity and technology developers
Table 12. Biomass processes summary, process description and TRL
Table 13. Pathways for hydrogen production from biomass
Table 14. Overview of alginate-description, properties, application and market size
Table 15. Blue biotechnology companies
Table 16. Market trends and drivers in white biotechnology
Table 17.Industry challenges and restraints in white biotechnology
Table 18. White biotechnology key application sectors and products
Table 19. Comparison of biofuels
Table 20. Categories and examples of solid biofuel
Table 21. Comparison of biofuels and e-fuels to fossil and electricity
Table 22. Classification of biomass feedstock
Table 23. Biorefinery feedstocks
Table 24. Feedstock conversion pathways
Table 25. First-Generation Feedstocks
Table 26. Lignocellulosic ethanol plants and capacities
Table 27. Comparison of pulping and biorefinery lignins
Table 28. Commercial and pre-commercial biorefinery lignin production facilities and processes
Table 29. Operating and planned lignocellulosic biorefineries and industrial flue gas-to-ethanol
Table 30. Properties of microalgae and macroalgae
Table 31. Yield of algae and other biodiesel crops
Table 32. Biofuels made from white biotechnology
Table 33. Processes in bioethanol production
Table 34. Microorganisms used in CBP for ethanol production from biomass lignocellulosic
Table 35. Biodiesel by generation
Table 36. Biodiesel production techniques
Table 37. Biofuel production cost from the biomass pyrolysis process
Table 38. Biogas feedstocks
Table 39. Advantages and disadvantages of Bio-aviation fuel
Table 40. Production pathways for Bio-aviation fuel
Table 41. Current and announced Bio-aviation fuel facilities and capacities
Table 42. Algae-derived biofuel producers
Table 43. Markets and applications for biohydrogen
Table 44. Comparison of different Bio-H2 production pathways
Table 45. Comparison of biogas, biomethane and natural gas
Table 46. Biobased MEG producers capacities
Table 47. Other types of bio-based chemicals
Table 48. Bioplastics and bioplastic precursors synthesized via white biotechnology
Table 49. Polylactic acid (PLA) market analysis-manufacture, advantages, disadvantages and applications
Table 50. PLA producers and production capacities
Table 51.Types of PHAs and properties
Table 52. Comparison of the physical properties of different PHAs with conventional petroleum-based polymers
Table 53. Polyhydroxyalkanoate (PHA) extraction methods
Table 54. Commercially available PHAs
Table 55. Types of protein based-bioplastics, applications and companies
Table 56. Applications of white biotechnology in bioremediation and environmental remediation
Table 57. Biofertilizer companies
Table 57. Biopesticides companies
Table 57. Biostimulants companies
Table 57. Crop biotechnology companies
Table 58. Pharmaceutical applications of white biotechnology
Table 59. Applications of white biotechnology in the cosmetics industry
Table 60. Sustainable biomanufacturing of surfactants and detergents
Table 61. Global revenues for white biotechnology, by market, 2018-2034 (Billion USD)
Table 62. Global revenues for white biotechnology, by region, 2018-2034 (Billion USD)
Table 63. White biotechnology Glossary of Acronyms
Table 64. White biotechnology Glossary of Terms

List of Figures

Figure 1. CRISPR/Cas9 & Targeted Genome Editing
Figure 2. Genetic Circuit-Assisted Smart Microbial Engineering
Figure 3. Cell-free and cell-based protein synthesis systems
Figure 4. Microbial Chassis Development for Natural Product Biosynthesis
Figure 5. LanzaTech gas-fermentation process
Figure 6. Schematic of biological CO2 conversion into e-fuels
Figure 7. BLOOM masterbatch from Algix
Figure 8. SWOT analysis: white biotechnology
Figure 9. Market map: white biotechnology
Figure 10. Schematic of a biorefinery for production of carriers and chemicals
Figure 11. Hydrolytic lignin powder
Figure 12. Range of biomass cost by feedstock type
Figure 13. Overview of biogas utilization
Figure 14. Biogas and biomethane pathways
Figure 15. Schematic overview of anaerobic digestion process for biomethane production
Figure 16. Algal biomass conversion process for biofuel production
Figure 17. Pathways for algal biomass conversion to biofuels
Figure 18. Properties of petrol and biobutanol
Figure 19. Biobutanol production route
Figure 20. Renewable Methanol Production Processes from Different Feedstocks
Figure 21. Production of biomethane through anaerobic digestion and upgrading
Figure 22. Production of biomethane through biomass gasification and methanation
Figure 23. Production of biomethane through the Power to methane process
Figure 24. Overview of Toray process. Overview of process
Figure 25. Potential industrial uses of 3-hydroxypropanoic acid
Figure 26. PHA family
Figure 27. Bold Cultr from General Mills
Figure 28. AlgiKicks sneaker, made with the Algiknit biopolymer gel
Figure 29. BioMason cement
Figure 30. Microalgae based biocement masonry bloc
Figure 31. Typical structure of mycelium-based foam
Figure 32. Commercial mycelium composite construction materials
Figure 33. Global revenues for white biotechnology, by market, 2018-2034 (Billion USD)
Figure 34. Global revenues for white biotechnology, by region, 2018-2034 (Billion USD)
Figure 35. Algiknit yarn
Figure 36. BIOLO e-commerce mailer bag made from PHA
Figure 37. Domsjö process
Figure 38. PHA production process
Figure 39. Loam Bio microbes
Figure 40. TransLeather
Figure 41. Reishi
Figure 42. Compostable water pod
Figure 43. Precision Photosynthesis™ technology
Figure 44. Enfinity cellulosic ethanol technology process
Figure 45. Lyocell process
Figure 46. Spider silk production
Figure 47. Corbion FDCA production process
Figure 48. The Proesa® Process

Title: The Global Market for White Biotechnology 2024-2034