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Biomaterials

PUBLISHER: Future Markets, Inc. | PRODUCT CODE: 1453776

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PUBLISHER: Future Markets, Inc. | PRODUCT CODE: 1453776

The Global Market for Lignin Biomaterials & Biochemicals 2024-2035

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PAGES: 188 Pages, 27 Tables, 51 Figures
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Table of Contents

List of Tables

Lignin is the second most abundant biological material on the planet after cellulose. It is a natural polymer found in plant cell walls, and is increasingly being used to develop innovative, eco-friendly materials and chemicals that can replace traditional, fossil-based products.

"The Global Market for Lignin Biomaterials & Biochemicals 2024-2035" provides a detailed analysis of lignin production processes, types, properties, applications, and market trends. It examines biorefinery, kraft, organosolv, soda, lignosulfonate, and hydrolytic lignin manufacturing. SWOT analyses for major lignin categories are included.

The report covers lignin market drivers, consumption, pricing, and leading producers. It forecasts market growth and breaks down consumption by type and key end use markets including construction materials, batteries, carbon products, polymers, fuels, and more. Profiles for 95 key companies involved in lignin production and utilization are provided. An overview of R&D activity, opportunities and challenges is also included.

Report contents include:

  • Introduction to lignin types, properties, production, and challenges
  • Details on lignin production processes: thermochemical, chemical, biological, electrochemical conversion
  • In-depth overview of major lignin categories:
    • Lignosulfonates
    • Kraft lignin - LignoBoost, LignoForce, other methods
    • Soda lignin
    • Biorefinery lignin - extraction, purification, economics, commercial facilities
    • Organosolv lignin
    • Hydrolytic lignin
  • SWOT analyses for each major lignin type
  • Market drivers and recent lignin industry trends (2020-2023)
  • Lignin production capacities and consumption forecasts
  • Lignin pricing and demand by type and key markets:
    • Energy
    • Chemicals - BTX, phenol, etc.
    • Polymers
    • Carbon products
    • Construction materials
    • Batteries
    • Coatings
    • Other applications
    • Market opportunity analyses
  • Profiles for 95 leading lignin companies globally. Companies profiled include Borregaard, Lignopure, Lignovations, LXP Group GmbH, Mercer, Stora Enso, UPM Biochemicals and Woodoo. A full list of companies is provided in table of contents.
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TABLE OF CONTENTS

1. ESEARCH METHODOLOGY

2. NTRODUCTION

  • 2.1. hat is lignin?
    • 2.1.1. ignin structure
  • 2.2. ypes of lignin
    • 2.2.1. ulfur containing lignin
    • 2.2.2. ulfur-free lignin from biorefinery process
  • 2.3. roperties
  • 2.4. he lignocellulose biorefinery
  • 2.5. arkets and applications
  • 2.6. arket challenges

3. IGNIN PRODUCTION PROCESSES

  • 3.1. eedstock Preprocessing
  • 3.2. onversion Processes
    • 3.2.1. hermochemical Conversion
    • 3.2.2. hemical Conversion
    • 3.2.3. iological Conversion
    • 3.2.4. lectrochemical Conversion
  • 3.3. ignosulphonates
    • 3.3.1. escription
    • 3.3.2. WOT analysis
  • 3.4. raft Lignin
    • 3.4.1. escription
    • 3.4.2. ignoBoost process
    • 3.4.3. ignoForce method
    • 3.4.4. equential Liquid Lignin Recovery and Purification
    • 3.4.5. -Recovery+
    • 3.4.6. WOT analysis
  • 3.5. oda lignin
    • 3.5.1. escription
    • 3.5.2. WOT analysis
  • 3.6. iorefinery lignin
    • 3.6.1. roducts Extraction & Purification
    • 3.6.2. ignocellulose Biorefinery Economics
    • 3.6.3. ommercial and pre-commercial biorefinery lignin production facilities and processes
    • 3.6.4. WOT analysis
    • 3.6.5. rganosolv lignin
      • 3.6.5.1. escription
      • 3.6.5.2. WOT analysis
    • 3.6.6. ydrolytic lignin
      • 3.6.6.1. escription
      • 3.6.6.2. WOT analysis
    • 3.6.7. team Exploded Lignin
      • 3.6.7.1. escription
      • 3.6.7.2. WOT analysis
  • 3.7. ignin nanoparticles
  • 3.8. ignin-based carbon materials
  • 3.9. epolymerized lignin products
  • 3.10. ignin-based bioplastics

4. ARKETS FOR LIGNIN

  • 4.1. arket drivers and trends
  • 4.2. ignin industry developments 2020-2024
  • 4.3. roduction capacities
    • 4.3.1. echnical lignin availability (dry ton/y)
    • 4.3.2. iomass conversion (Biorefinery)
  • 4.4. onsumption of lignin
    • 4.4.1. y type
    • 4.4.2. y market
  • 4.5. rices
  • 4.6. arkets and applications
    • 4.6.1. eat and power energy
    • 4.6.2. io-oils
    • 4.6.3. yngas
    • 4.6.4. romatic compounds
      • 4.6.4.1. enzene, toluene and xylene
      • 4.6.4.2. henol and phenolic resins
      • 4.6.4.3. anillin
    • 4.6.5. olymers
    • 4.6.6. ydrogels
      • 4.6.6.1. dhesives
    • 4.6.7. arbon materials
      • 4.6.7.1. arbon black
      • 4.6.7.2. ctivated carbons
      • 4.6.7.3. arbon fiber
    • 4.6.8. onstruction materials
    • 4.6.9. ubber
    • 4.6.10. itumen and Asphalt
    • 4.6.11. uels
    • 4.6.12. nergy storage
      • 4.6.12.1. upercapacitors
      • 4.6.12.2. nodes for lithium-ion batteries
      • 4.6.12.3. el electrolytes for lithium-ion batteries
      • 4.6.12.4. inders for lithium-ion batteries
      • 4.6.12.5. athodes for lithium-ion batteries
      • 4.6.12.6. odium-ion batteries
    • 4.6.13. inders, emulsifiers and dispersants
    • 4.6.14. helating agents
    • 4.6.15. oatings
    • 4.6.16. eramics
    • 4.6.17. utomotive
    • 4.6.18. ire retardants
    • 4.6.19. ntioxidants
    • 4.6.20. ubricants
    • 4.6.21. ust control

5. OMPANY PROFILES

  • 5.1. ey players
  • 5.2. emetis, Inc.
  • 5.3. ndritz AG
  • 5.4. nellotech, Inc.
  • 5.5. ttis Innovations, llc
  • 5.6. vantium NV
  • 5.7. lue Biofuels, Inc.
  • 5.8. loom Biorenewables SA
  • 5.9. oreal Bioproducts
  • 5.10. he Borregaard Group
  • 5.11. right Day Graphene AB
  • 5.12. urgo Group S.p.A.
  • 5.13. arbon Crusher
  • 5.14. ellicon B.V.
  • 5.15. H-Bioforce Oy
  • 5.16. hempolis Oy
  • 5.17. IMV
  • 5.18. lariant AG
  • 5.19. omsjo Fabriker AB
  • 5.20. omtar Paper Company LLC
  • 5.21. nerkem, Inc
  • 5.22. nviral
  • 5.23. ibenol
  • 5.24. iberX
  • 5.25. P Innovations
  • 5.26. raunhofer Center for Chemical-Biotechnological Processes CBP
  • 5.27. raunhofer Institute for Structural Durability and System Reliability LBF
  • 5.28. uturity Bio-Ventures Ltd.
  • 5.29. +E GETEC Holding GmbH
  • 5.30. lobal Bioenergies SA
  • 5.31. raanul Invest
  • 5.32. ranbio Technologies
  • 5.33. exion Inc
  • 5.34. ngevity
  • 5.35. ogen Corporation
  • 5.36. anematsu
  • 5.37. anteleen Voima
  • 5.38. labin S.A.
  • 5.39. oehler Group
  • 5.40. eaf Resources Ltd.
  • 5.41. igna Energy AB
  • 5.42. ignEasy Oy
  • 5.43. ignin Industries AB
  • 5.44. ignoflow Technologies AB
  • 5.45. ignOrganic (PTY) Ltd.
  • 5.46. ignolix, Inc
  • 5.47. ignomateria
  • 5.48. ignOrganic (PTY) Ltd.
  • 5.49. ignovations GmbH
  • 5.50. ignoPure GmbH
  • 5.51. iquid Lignin Company LLC
  • 5.52. ixea
  • 5.53. XP Group GmbH
  • 5.54. ehler Engineered Products GmbH
  • 5.55. ercer International, Inc.
  • 5.56. etgen Oy
  • 5.57. obius
  • 5.58. ewEnergyBlue LLC
  • 5.59. ippon Paper Industries, Co. Ltd.
  • 5.60. ovozymes A/S
  • 5.61. bayashi Corporation
  • 5.62. RLEN Poludnie
  • 5.63. raj Industries Ltd
  • 5.64. refere Resins Holding GmbH
  • 5.65. risma Renewable Composites
  • 5.66. roligreen AB
  • 5.67. ure Lignin Environmental Technology Ltd.
  • 5.68. ayonier Advanced Materials
  • 5.69. ed Leaf Pulp Ltd
  • 5.70. en Fuel K2B AB
  • 5.71. enmatix
  • 5.72. esolute Forest Products, Inc
  • 5.73. ISE Research Institutes of Sweden AB
  • 5.74. ainc Energy Limited
  • 5.75. APPI Biotech
  • 5.76. ekab E-Technology AB
  • 5.77. oma Bioworks/White Lemur Co.
  • 5.78. onichem
  • 5.79. pero Renewables
  • 5.80. t1 Oy
  • 5.81. tora Enso Oyj
  • 5.82. umitomo Bakelite Co. Ltd.
  • 5.83. unCoal Industries GmbH
  • 5.84. uzano SA
  • 5.85. weetwater Energy
  • 5.86. pero Renewables Synergy Horizon Limited
  • 5.87. ECNARO GmbH
  • 5.88. PM Biochemicals
  • 5.89. almet Oyj
  • 5.90. ersalis SpA
  • 5.91. ertoro
  • 5.92. est Fraser Timber Co Ltd.
  • 5.93. oodoo SAS
  • 5.94. ingzhenghe Chemical Co., Ltd.
  • 5.95. okogawa Electric Corporation

6. EFERENCES

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List of Tables

  • Table 1. Properties of lignins and their applications
  • Table 2. Technical lignin types and applications
  • Table 3. Classification of technical lignins
  • Table 4. Properties of lignin, by type
  • Table 5. Lignin content of selected biomass
  • Table 6. Markets and applications for lignin
  • Table 7. Market challenges for lignin
  • Table 8. Processes for lignin production
  • Table 9. Biorefinery feedstocks
  • Table 10. Comparison of pulping and biorefinery lignins
  • Table 11. Commercial and pre-commercial biorefinery lignin production facilities and processes
  • Table 12. Markets for lignin
  • Table 13. Market drivers and trends for lignin
  • Table 14. Lignin industry developments 2020-2024
  • Table 15. Production capacities of technical lignin producers
  • Table 16. Production capacities of biorefinery lignin producers
  • Table 17. Estimated consumption of lignin, by type, 2019-2035 (000 MT)
  • Table 18. Estimated consumption of lignin, by market, 2019-2034 (000 MT)
  • Table 19. Lignin aromatic compound products
  • Table 20. Prices of benzene, toluene, xylene and their derivatives
  • Table 21. Lignin products in polymeric materials
  • Table 22. Application of lignin in plastics and composites
  • Table 23. Applications of lignin in construction materials
  • Table 24. Lignin applications in rubber and elastomers
  • Table 25. Lignin products in fuels
  • Table 26. Lignin-derived anodes in lithium batteries
  • Table 27. Application of lignin in binders, emulsifiers and dispersants

List of Figures

  • Figure 1. Wood processing within the Kraft process
  • Figure 2. High purity lignin
  • Figure 3. Lignocellulose architecture
  • Figure 4. Extraction processes to separate lignin from lignocellulosic biomass and corresponding technical lignins
  • Figure 5. The lignocellulose biorefinery
  • Figure 6. Lignocellulosic biomass conversion and products
  • Figure 7. Lignosulfonates SWOT analysis
  • Figure 8. LignoBoost process
  • Figure 9. LignoForce system for lignin recovery from black liquor
  • Figure 10. Sequential liquid-lignin recovery and purification (SLPR) system
  • Figure 11. A-Recovery+ chemical recovery concept
  • Figure 12. Kraft lignin SWOT analysis
  • Figure 13. Soda lignin SWOT analysis
  • Figure 14. Schematic of a biorefinery for production of carriers and chemicals
  • Figure 15. Biorefinery lignin SWOT analysis
  • Figure 16. Organosolv lignin
  • Figure 17. Organosolv lignin SWOT analysis
  • Figure 18. Hydrolytic lignin powder
  • Figure 19. Hydrolytic lignin SWOT analysis
  • Figure 20. Steam Exploded Lignin SWOT analysis
  • Figure 21. Estimated consumption of lignin, by type, 2019-2035 (000 MT)
  • Figure 22. Estimated consumption of lignin, by market, 2019-2035 (000 MT)
  • Figure 23. Schematic of WISA plywood home
  • Figure 24. Lignin based activated carbon
  • Figure 25. Lignin/celluose precursor
  • Figure 26. Functional rubber filler made from lignin
  • Figure 27. Road repair utilizing lignin
  • Figure 28. Prototype of lignin based supercapacitor
  • Figure 29. Stora Enso lignin battery materials
  • Figure 30. ANDRITZ Lignin Recovery process
  • Figure 31. DAWN Technology Process
  • Figure 32. BALI(TM) technology
  • Figure 33. Pressurized Hot Water Extraction
  • Figure 34. sunliquid® production process
  • Figure 35. Domsjo process
  • Figure 36. TMP-Bio Process
  • Figure 37. Flow chart of the lignocellulose biorefinery pilot plant in Leuna
  • Figure 38. AVAPTM process
  • Figure 39. GreenPower+(TM) process
  • Figure 40. Lignin gel
  • Figure 41. BioFlex process
  • Figure 42. LX Process
  • Figure 43. METNIN(TM) Lignin refining technology
  • Figure 44. Enfinity cellulosic ethanol technology process
  • Figure 45: Plantrose process
  • Figure 46. Hansa lignin
  • Figure 47. Stora Enso lignin battery materials
  • Figure 48. Solid Novolac Type lignin modified phenolic resins
  • Figure 49. UPM biorefinery process
  • Figure 50. The Proesa® Process
  • Figure 51. Goldilocks process and applications
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