表紙
市場調查報告書
商品編碼
1009794

木質素的全球市場:2021年∼2031年

The Global Market for Lignin 2021-2031

出版日期: | 出版商: Future Markets, Inc. | 英文 125 Pages, 18 Tables, 33 Figures | 訂單完成後即時交付

價格
  • 全貌
  • 簡介
  • 目錄
簡介

由於環境污染和石油資源不足的擔憂高漲,為了提高生物為基礎聚合物價值積極開展研究。木質素,碳含量多,低成本,生物學性可再生的優點,其產業利用受到很多關注。

本報告提供全球木質素市場相關調查分析,與市場概要未來預測,流程,生產能力,市場與用途,市場需求,產業的發展,主要的生產業者等相關的系統性資訊。

目錄

第1章 調查手法

第2章 簡介

第3章 木質素的製造流程

  • 木質磺酸鹽
  • 硫酸鹽木質素
  • 鈉鹽木質素
  • 生物煉製廠木質素
  • 有機溶劑木質素
  • 水解木質素

第4章 木質素市場

  • 木質素市場促進因素與趨勢
  • 木質素產業的發展
  • 生產能力
  • 木質素估計消費
  • 價格
  • 熱、電力能源
  • 熱解、合成氣
  • 芳香族化合物
  • 塑膠、聚合物
  • 水凝膠
  • 碳材料
  • 混凝土
  • 橡膠
  • 生質燃料
  • 瀝青、柏油
  • 石油、天然氣
  • 能源儲存
  • 粘合劑,乳化劑,分散劑
  • 螯合劑
  • 陶瓷
  • 汽車用室內裝飾
  • 阻燃劑
  • 抗氧化劑
  • 潤滑油
  • 防塵

第5章 企業簡介

  • 主要企業
  • Aemetis, Inc.
  • Andritz AG
  • Anellotech, Inc.
  • Attis Innovations, llc
  • Avantium NV
  • Blue Biofuels, Inc.
  • Bloom Biorenewables SA
  • The Borregaard Group
  • Burgo Group S.p.A.
  • Cellicon B.V.
  • CH-Bioforce Oy
  • Chempolis Oy
  • CIMV
  • Clariant AG
  • Domsjo Fabriker AB
  • Domtar Paper Company LLC (Domtar
  • Enerkem, Inc.
  • Enviral
  • FP Innovations
  • Fraunhofer Center for Chemical-Biotechnological Processes CBP
  • Fraunhofer Institute for Structural Durability and System Reliability LBF
  • Futurity Bio-Ventures Ltd.
  • G+E GETEC Holding GmbH
  • Global Bioenergies SA
  • Graanul Biotech OU
  • Granbio Technologies
  • Hexion Inc
  • Ingevity
  • Iogen Corporation
  • Kanteleen Voima
  • Klabin S.A.
  • Leaf Resources Ltd.
  • LignoPure GmbH
  • Lixea
  • LXP Group GmbH
  • Mehler Engineered Products GmbH
  • Metgen Oy
  • Mobius
  • NewEnergyBlue LLC
  • Nippon Paper Industries, Co. Ltd.
  • Novozymes A/S
  • ORLEN Poludnie
  • Praj Industries Ltd.
  • PRISMA Renewable Composites
  • Pure Lignin Environmental Technology Ltd.
  • Rayonier Advanced Materials
  • RenCom AB
  • RenFuel
  • Renmatix
  • Resolute Forest Products, Inc.
  • RISE Research Institutes of Sweden AB
  • Sainc Energy Limited
  • SAPPI Biotech
  • Sekab E-Technology AB
  • Soma Bioworks/White Lemur Co.
  • Spero Renewables
  • St1 Oy
  • Stora Enso Oyj
  • SunCoal Industries GmbH
  • Suzano SA
  • Sweetwater Energy
  • TECNARO GmbH
  • UPM Biochemicals
  • Valmet Oyj
  • Versalis SpA
  • Vertoro
  • West Fraser Timber Co Ltd.
  • Xingzhenghe Chemical Co., Ltd.

第6章 參考文件

目錄
Product Code: LIG0521

The increasing concerns of environmental pollution and shortage of petroleum resources have fueled substantial research towards valorization of bio-based polymers. Lignin is the second most abundant renewable biopolymer on Earth and the largest natural source of aromatic monomers. Its industrial use has attracted considerable attention because of its advantages of high carbon content, low cost and bio-renewability.

Wood pulping and other biorefinery industries extract more than 50 million tonnes of lignin annually, but only ~2% is recovered for utilization in applications. However, it's use as a 'green' feedstock for fuels, chemicals, and materials is growing through the commercialization of extraction technologies coupled with transitioning towards biorefinery processes.

Lignin has mainly been produced as an industrial residue of pulp and paper factories (e.g. a by-product of the Kraft process), and the majority of the several millions tons of lignin produced annually are utilized as a low-cost fuel for power and heat generation. Due to continued greening (i.e. renewable feedstock) of the global economy, new applications are being commercialized. For example, lignin-based renewable functional fillers are used in different rubber applications as a sustainable alternative to carbon black and silica.

“The Global Market for Lignin 2021-2031” includes:

  • Market description and future outlook.
  • Analysis of processes used to extract and refine lignin
  • Production capacities of lignin producers.
  • In depth analysis of biorefinery lignin production.
  • Markets and applications for lignin.
  • Market demand for lignin in metric tonnes, forecast to 2031.
  • Industry developments 2020-2021.
  • Profiles of 69 lignin producers. Profiles include company description, products, processes and capacities. Companies profiled include Versalis SpA, Clariant, MetGen Oy, Praj Industries Ltd., Bloom Biorenewables SA, FP Innovations, UPM, Klabin SA, RenCom AB and many more.

TABLE OF CONTENTS

1. RESEARCH METHODOLOGY

2. INTRODUCTION

  • 2.1. What is lignin?
    • 2.1.1. Lignin structure
  • 2.2. Types of lignin
    • 2.2.1. Sulfur containing lignin
    • 2.2.2. Sulfur-free lignin from biorefinery process
  • 2.3. Properties
  • 2.4. The lignocellulose biorefinery
  • 2.5. Markets and applications
  • 2.6. Challenges for using lignin

3. LIGNIN PRODUCTON PROCESSES

  • 3.1. Lignosulphonates
  • 3.2. Kraft Lignin
    • 3.2.1. LignoBoost process
    • 3.2.2. LignoForce method
    • 3.2.3. Sequential Liquid Lignin Recovery and Purification
    • 3.2.4. A-Recovery+
  • 3.3. Soda lignin
  • 3.4. Biorefinery lignin
    • 3.4.1. Commercial and pre-commercial biorefinery lignin production facilities and processes
  • 3.5. Organosolv lignins
  • 3.6. Hydrolytic lignin

4. MARKETS FOR LIGNIN

  • 4.1. Market drivers and trends for lignin
  • 4.2. Lignin industry developments 2020-2021
  • 4.3. Production capacities
    • 4.3.1. Technical lignin availability (dry ton/y)
    • 4.3.2. Biomass conversion (Biorefinery)
  • 4.4. Estimated consumption of lignin
  • 4.5. Prices
  • 4.6. Heat and power energy
  • 4.7. Pyrolysis and syngas
  • 4.8. Aromatic compounds
    • 4.8.1. Benzene, toluene and xylene
    • 4.8.2. Phenol and phenolic resins
    • 4.8.3. Vanillin
  • 4.9. Plastics and polymers
  • 4.10. Hydrogels
  • 4.11. Carbon materials
    • 4.11.1. Carbon black
    • 4.11.2. Activated carbons
    • 4.11.3. Carbon fiber
  • 4.12. Concrete
  • 4.13. Rubber
  • 4.14. Biofuels
  • 4.15. Bitumen and Asphalt
  • 4.16. Oil and gas
  • 4.17. Energy storage
    • 4.17.1. Supercapacitors
    • 4.17.2. Anodes for lithium-ion batteries
    • 4.17.3. Gel electrolytes for lithium-ion batteries
    • 4.17.4. Binders for lithium-ion batteries
    • 4.17.5. Cathodes for lithium-ion batteries
    • 4.17.6. Sodium-ion batteries
  • 4.18. Binders, emulsifiers and dispersants
  • 4.19. Chelating agents
  • 4.20. Ceramics
  • 4.21. Automotive interiors
  • 4.22. Fire retardants
  • 4.23. Antioxidants
  • 4.24. Lubricants
  • 4.25. Dust control

5. COMPANY PROFILES

  • 5.1. Key players
  • 5.2. Aemetis, Inc.
  • 5.3. Andritz AG
  • 5.4. Anellotech, Inc.
  • 5.5. Attis Innovations, llc
  • 5.6. Avantium NV
  • 5.7. Blue Biofuels, Inc.
  • 5.8. Bloom Biorenewables SA
  • 5.9. The Borregaard Group
  • 5.10. Burgo Group S.p.A.
  • 5.11. Cellicon B.V.
  • 5.12. CH-Bioforce Oy
  • 5.13. Chempolis Oy
  • 5.14. CIMV
  • 5.15. Clariant AG
  • 5.16. Domsjö Fabriker AB
  • 5.17. Domtar Paper Company LLC (Domtar
  • 5.18. Enerkem, Inc.
  • 5.19. Enviral
  • 5.20. FP Innovations
  • 5.21. Fraunhofer Center for Chemical-Biotechnological Processes CBP
  • 5.22. Fraunhofer Institute for Structural Durability and System Reliability LBF
  • 5.23. Futurity Bio-Ventures Ltd.
  • 5.24. G+E GETEC Holding GmbH
  • 5.25. Global Bioenergies SA
  • 5.26. Graanul Biotech OU
  • 5.27. Granbio Technologies
  • 5.28. Hexion Inc
  • 5.29. Ingevity
  • 5.30. Iogen Corporation
  • 5.31. Kanteleen Voima
  • 5.32. Klabin S.A.
  • 5.33. Leaf Resources Ltd.
  • 5.34. LignoPure GmbH
  • 5.35. Lixea
  • 5.36. LXP Group GmbH
  • 5.37. Mehler Engineered Products GmbH
  • 5.38. Metgen Oy
  • 5.39. Mobius
  • 5.40. NewEnergyBlue LLC
  • 5.41. Nippon Paper Industries, Co. Ltd.
  • 5.42. Novozymes A/S
  • 5.43. ORLEN Poludnie
  • 5.44. Praj Industries Ltd.
  • 5.45. PRISMA Renewable Composites
  • 5.46. Pure Lignin Environmental Technology Ltd.
  • 5.47. Rayonier Advanced Materials
  • 5.48. RenCom AB
  • 5.49. RenFuel
  • 5.50. Renmatix
  • 5.51. Resolute Forest Products, Inc.
  • 5.52. RISE Research Institutes of Sweden AB
  • 5.53. Sainc Energy Limited
  • 5.54. SAPPI Biotech
  • 5.55. Sekab E-Technology AB
  • 5.56. Soma Bioworks/White Lemur Co.
  • 5.57. Spero Renewables
  • 5.58. St1 Oy
  • 5.59. Stora Enso Oyj
  • 5.60. SunCoal Industries GmbH
  • 5.61. Suzano SA
  • 5.62. Sweetwater Energy
  • 5.63. TECNARO GmbH
  • 5.64. UPM Biochemicals
  • 5.65. Valmet Oyj
  • 5.66. Versalis SpA
  • 5.67. Vertoro
  • 5.68. West Fraser Timber Co Ltd.
  • 5.69. Xingzhenghe Chemical Co., Ltd.

6. REFERENCES

List of Tables

  • Table 1. Technical lignin types and applications
  • Table 2. Classification of technical lignins
  • Table 3. Lignin content of selected biomass
  • Table 4. Properties of lignins and their applications
  • Table 5. Example markets and applications for lignin
  • Table 6. Processes for lignin production
  • Table 7. Biorefinery feedstocks
  • Table 8. Comparison of pulping and biorefinery lignins
  • Table 9. Commercial and pre-commercial biorefinery lignin production facilities and processes
  • Table 10. Market drivers and trends for lignin
  • Table 11. Lignin industry developments 2020-2021
  • Table 12. Production capacities of technical lignin producers
  • Table 13. Production capacities of biorefinery lignin producers
  • Table 14. Estimated consumption of lignin, 2019-2031 (000 MT)
  • Table 15. Prices of benzene, toluene, xylene and their derivatives
  • Table 16. Application of lignin in plastics and polymers
  • Table 17. Lignin-derived anodes in lithium batteries
  • Table 18. Application of lignin in binders, emulsifiers and dispersants

List of Figures

  • Figure 1. High purity lignin
  • Figure 2. Lignocellulose architecture
  • Figure 3. Extraction processes to separate lignin from lignocellulosic biomass and corresponding technical lignins
  • Figure 4. The lignocellulose biorefinery
  • Figure 5. LignoBoost process
  • Figure 6. LignoForce system for lignin recovery from black liquor
  • Figure 7. Sequential liquid-lignin recovery and purification (SLPR) system
  • Figure 8. A-Recovery+ chemical recovery concept
  • Figure 9. Schematic of a biorefinery for production of carriers and chemicals
  • Figure 10. Organosolv lignin
  • Figure 11. Hydrolytic lignin powder
  • Figure 12. Schematic of WISA plywood home
  • Figure 13. Lignin based activated carbon
  • Figure 14. Lignin/celluose precursor
  • Figure 15. ANDRITZ Lignin Recovery process
  • Figure 16. DAWN Technology Process
  • Figure 17. BALI™ technology
  • Figure 18. Pressurized Hot Water Extraction
  • Figure 19. sunliquid® production process
  • Figure 20. Domsjö process
  • Figure 21. TMP-Bio Process
  • Figure 22. Flow chart of the lignocellulose biorefinery pilot plant in Leuna
  • Figure 23. AVAPTM process
  • Figure 24. GreenPower+™ process
  • Figure 25. BioFlex process
  • Figure 26. LX Process
  • Figure 27. METNIN™ Lignin refining technology
  • Figure 28. Enfinity cellulosic ethanol technology process
  • Figure 29: Plantrose process
  • Figure 30. Hansa lignin
  • Figure 31. UPM biorefinery process
  • Figure 32. The Proesa® Process
  • Figure 33. Goldilocks process and applications