绘製先进的塑胶废弃物回收技术和全球能力：供应商、技术、合作伙伴关係、现状和前景

先进的回收技术正在迅速发展，新公司不断进入市场，新工厂不断建设，新能力不断实现，新的合作伙伴关係不断签署。 由于这些动作，很难追踪一切。

本报告分析了全球先进塑胶废弃物回收技术市场的概况和未来展望，概述了现有技术及其提供者、新技术的发展现状、各公司的最新趋势以及主要营运情况我们收集并提供对中期或计划中的工厂（总共340多个）的加工能力和专业领域的综合评估等资讯。

详细资讯：

此报告与先前的版本有以下不同之处：

• 上一份报告中发布的所有技术提供者概况均已更新并包含在 2023 年版中。
• 总共超过 120 种技术和提供者（之前为 70 多种技术和提供者）。
• 全球处理能力

目录

第 1 章执行摘要

第 2 章简介

第3章各种回收技术概要及分类

• 分类与定义
• 关键技术与提供者

第4章世界各地安装的工厂与生产能力

第5章熔炼

• 熔化技术提供者
  • APK
  • Fraunhofer-Institut fur Verfahrenstechnik und Verpackung (IVV)/CreaCycle
  • Obbotec
  • PolyCycl
  • Polystyvert
  • PureCycle Technologies
  • Shuye Environmental Technology
  • Trinseo
  • Worn Again Technologies

第6章溶剂分解与固体水解

• 溶剂分解与固体水解技术供应商
  • Aquafil
  • Circ
  • CuRe Technology
  • DePoly
  • Dow
  • DuPont Teijin Films
  • Eastman Chemical Company
  • Futerro
  • Garbo
  • gr3n
  • H&S Anlagentechnik
  • IFP Energies Nouvelles (IFPEN)
  • International Business Machines Corporation (IBM)
  • Ioniqa Technologies
  • JEPLAN
  • Loop Industries
  • Novoloop
  • Poseidon Plastics
  • PUReSmart (project)
  • revalyu Resources
  • RITTEC 8.0 Umwelttechnik
  • Shuye Environmental Technology
  • Soprema Group
  • TotalEnergies Cor
• 前处理/后处理技术供应商
  • KraussMaffei

第 7 章热解

• 热解和其他热化学技术供应商
  • Aduro Clean Technologies
  • Agile Process Chemicals (APChemi)
  • Agilyx
  • Alterra Energy
  • Alucha
  • Anellotech
  • Anergy
  • Arcus Greencycling Technologies
  • Beston (Henan) Machinery
  • Big Atom
  • BioBTX
  • Biofabrik
  • Black Bear Carbon
  • Blest
  • BlueAlp
  • Bolder Industries
  • Braven Environmental
  • Brightmark
  • CARBOLIQ
  • Cassandra Oil (CASO)
  • Chevron Phillips Chemical (CPChem)
  • Clariter
  • Composite Recycling
  • Composite Recycling
  • Demont
  • Eco Power Synergy
  • Ecomation
  • Encina Development Group
  • Enval
  • Environmental Waste International (EWI)
  • ExxonMobil
  • Fabhind
  • Freepoint Eco-Systems
  • Fuenix Ecogy Group
  • GlobalGreen International Energy
  • Green Distillation Technologies (GDT)
  • Green EnviroTech Holding
  • Greenergy
  • GreenMantra
  • Handerek Technologies
  • HUAYIN Renewable Energy Equipment
  • Indaver
  • INEOS Styrolution
  • Integrated Green Energy Solutions (IGES)
  • Itero Technologies
  • Klean Industries
  • Licella Holdings
  • LyondellBasell
  • MMAtwo (project)
  • Mura Technology
  • MyRemono
  • Neste
  • New Energy
  • Nexus Circular
  • Niutech Environment Technology Corporation
  • Obbotec
  • Osterreichische Mineralolverwaltung (OMV)
  • Plastic Advanced Recycling Corporation (P.A.R.C.)
  • Plastic Energy
  • Plastic2Oil
  • PolyCycl
  • Pryme-Cleantech
  • Pyrowave
  • Pyrum Innovations
  • Quantafuel
  • Recycling Technologies
  • Renasci
  • Renew One
  • Repsol
  • SAMKI GROUP
  • Sepco Industries
  • Shangqiu Jinpeng Industrial
  • Splainex Ecosystems
  • SYNOVA
  • Technokomplex
  • Unipetrol
  • Versalis
  • Vow ASA
  • VTT Technical Research Centre of Finland
• 前处理技术供应商
  • Coperion
• 后处理・改质技术供应商
  • Agile Process Chemicals (APChemi)
  • Axens
  • Clean Planet Energy
  • Topsoe Renewables

第8章气化

• 气化技术提供者
  • AIMPLAS
  • Cyclize
  • Eastman Chemical Company
  • Enerkem
  • Fulcrum BioEnergy
  • GIDARA Energy
  • InEnTec
  • Kiverdi
  • Klean Industries
  • LanzaTech
  • Plagazi
  • Waste2Tricity

第 9 章酵素分解

• 酵素降解技术提供商
  • Carbios

第10章未保密的先进回收技术

• 技术提供者
  • UBQ Materials

第 11 章缩写列表

• 参考文献列表

Advanced recycling technologies are developing at a fast pace, with new players constantly appearing on the market, from start-ups to giants and everything in between - new plants are being built, new capacities are being achieved, and new partnerships are established. Due to these developments, it is difficult to keep track of everything. The report "Mapping of advanced plastic waste recycling technologies and their global capacities" aims to clear up this jungle of information providing a structured, in-depth overview and insight. It has an exclusive focus on profiling available technologies and providers of advanced recycling including the addition of new technologies and updated/revised profiles. Furthermore, for the first time a comprehensive evaluation of the global input and output capacities was carried out for which more than 340 planned as well as installed and operating plants including their specific product yields were mapped.

Further information:

The new report "Mapping of advanced plastic waste recycling technologies and their global capacities" differs from the old report "Chemical Recycling - Status, Trends and Challenges" as follows:

• All technology provider profiles from the old report included + updated to 2023.
• Overall >120 technologies and providers (vs. >70 technologies and providers in the old report)
• Global capacities

In summary, this report is suitable for interested readers who have already dealt with the advanced recycling topic and are looking for an up-to-date overview of all identified providers and a detailed description of the technologies.

Table of Contents

1. Executive summary

2. Introduction

3. Overview and classification of different recycling technologies

• 3.1. Classification and definitions
• 3.2. Identified technologies and providers

4. Globally installed plants and capacities

5. Dissolution

• 5.1. Dissolution technology providers
  • 5.1.1. APK
  • 5.1.2. Fraunhofer-Institut fur Verfahrenstechnik und Verpackung (IVV) / CreaCycle
  • 5.1.3. Obbotec
  • 5.1.4. PolyCycl
  • 5.1.5. Polystyvert
  • 5.1.6. PureCycle Technologies
  • 5.1.7. Shuye Environmental Technology
  • 5.1.8. Trinseo
  • 5.1.9. Worn Again Technologies

6. Solvolysis & Solid-State Hydrolysis

• 6.1. Solvolysis & Solid-State Hydrolysis technology providers
  • 6.1.1. Aquafil
  • 6.1.2. Circ
  • 6.1.3. CuRe Technology
  • 6.1.4. DePoly
  • 6.1.5. Dow
  • 6.1.6. DuPont Teijin Films
  • 6.1.7. Eastman Chemical Company
  • 6.1.8. Futerro
  • 6.1.9. Garbo
  • 6.1.10. gr3n
  • 6.1.11. H&S Anlagentechnik
  • 6.1.12. IFP Energies Nouvelles (IFPEN)
  • 6.1.13. International Business Machines Corporation (IBM)
  • 6.1.14. Ioniqa Technologies
  • 6.1.15. JEPLAN
  • 6.1.16. Loop Industries
  • 6.1.17. Novoloop
  • 6.1.18. Poseidon Plastics
  • 6.1.19. PUReSmart (project)
  • 6.1.20. revalyu Resources
  • 6.1.21. RITTEC 8.0 Umwelttechnik
  • 6.1.22. Shuye Environmental Technology
  • 6.1.23. Soprema Group
  • 6.1.24. TotalEnergies Corbion
• 6.2. Pre- and Postprocessing technology providers
  • 6.2.1. KraussMaffei

7. Pyrolysis

• 7.1. Pyrolysis and other thermochemical technology providers
  • 7.1.1. Aduro Clean Technologies
  • 7.1.2. Agile Process Chemicals (APChemi)
  • 7.1.3. Agilyx
  • 7.1.4. Alterra Energy
  • 7.1.5. Alucha
  • 7.1.6. Anellotech
  • 7.1.7. Anergy
  • 7.1.8. Arcus Greencycling Technologies
  • 7.1.9. Beston (Henan) Machinery
  • 7.1.10. Big Atom
  • 7.1.11. BioBTX
  • 7.1.12. Biofabrik
  • 7.1.13. Black Bear Carbon
  • 7.1.14. Blest
  • 7.1.15. BlueAlp
  • 7.1.16. Bolder Industries
  • 7.1.17. Braven Environmental
  • 7.1.18. Brightmark
  • 7.1.19. CARBOLIQ
  • 7.1.20. Cassandra Oil (CASO)
  • 7.1.21. Chevron Phillips Chemical (CPChem)
  • 7.1.22. Clariter
  • 7.1.23. Composite Recycling
  • 7.1.24. Composite Recycling
  • 7.1.25. Demont
  • 7.1.26. Eco Power Synergy
  • 7.1.27. Ecomation
  • 7.1.28. Encina Development Group
  • 7.1.29. Enval
  • 7.1.30. Environmental Waste International (EWI)
  • 7.1.31. ExxonMobil
  • 7.1.32. Fabhind
  • 7.1.33. Freepoint Eco-Systems
  • 7.1.34. Fuenix Ecogy Group
  • 7.1.35. GlobalGreen International Energy
  • 7.1.36. Green Distillation Technologies (GDT)
  • 7.1.37. Green EnviroTech Holding
  • 7.1.38. Greenergy
  • 7.1.39. GreenMantra
  • 7.1.40. Handerek Technologies
  • 7.1.41. HUAYIN Renewable Energy Equipment
  • 7.1.42. Indaver
  • 7.1.43. INEOS Styrolution
  • 7.1.44. Integrated Green Energy Solutions (IGES)
  • 7.1.45. Itero Technologies
  • 7.1.46. Klean Industries
  • 7.1.47. Licella Holdings
  • 7.1.48. LyondellBasell
  • 7.1.49. MMAtwo (project)
  • 7.1.50. Mura Technology
  • 7.1.51. MyRemono
  • 7.1.52. Neste
  • 7.1.53. New Energy
  • 7.1.54. Nexus Circular
  • 7.1.55. Niutech Environment Technology Corporation
  • 7.1.56. Obbotec
  • 7.1.57. Osterreichische Mineralolverwaltung (OMV)
  • 7.1.58. Plastic Advanced Recycling Corporation (P.A.R.C.)
  • 7.1.59. Plastic Energy
  • 7.1.60. Plastic2Oil
  • 7.1.61. PolyCycl
  • 7.1.62. Pryme-Cleantech
  • 7.1.63. Pyrowave
  • 7.1.64. Pyrum Innovations
  • 7.1.65. Quantafuel
  • 7.1.66. Recycling Technologies
  • 7.1.67. Renasci
  • 7.1.68. Renew One
  • 7.1.69. Repsol
  • 7.1.70. SAMKI GROUP
  • 7.1.71. Sepco Industries
  • 7.1.72. Shangqiu Jinpeng Industrial
  • 7.1.73. Splainex Ecosystems
  • 7.1.74. SYNOVA
  • 7.1.75. Technokomplex
  • 7.1.76. Unipetrol
  • 7.1.77. Versalis
  • 7.1.78. Vow ASA
  • 7.1.79. VTT Technical Research Centre of Finland
• 7.2. Pre-processing technology providers
  • 7.2.1. Coperion
• 7.3. Post-processing and upgrading technology providers
  • 7.3.1. Agile Process Chemicals (APChemi)
  • 7.3.2. Axens
  • 7.3.3. Clean Planet Energy
  • 7.3.4. Topsoe Renewables

8. Gasification

• 8.1. Gasification technology providers
  • 8.1.1. AIMPLAS
  • 8.1.2. Cyclize
  • 8.1.3. Eastman Chemical Company
  • 8.1.4. Enerkem
  • 8.1.5. Fulcrum BioEnergy
  • 8.1.6. GIDARA Energy
  • 8.1.7. InEnTec
  • 8.1.8. Kiverdi
  • 8.1.9. Klean Industries
  • 8.1.10. LanzaTech
  • 8.1.11. Plagazi
  • 8.1.12. Waste2Tricity

9. Enzymolysis

• 9.1. Enzymolysis technology providers
  • 9.1.1. Carbios

10. Uncategorised advanced recycling technologies

• 10.1. Technology providers
  • 10.1.1. UBQ Materials

11. List of Acronyms

• List of References

List of Figures

• Figure 1: Treatments for collected plastics waste in EU
• Figure 2: Full spectrum of available recycling technologies divided by their basic working principles
• Figure 3: Life of a polymer from the production to its disposal (e.g. landfill) indicated with black arrows including four recycling types indicated in different coloured arrows
• Figure 4: Overview about identified providers (blue bars) and maximum capacity (orange lines) depending on the technology
• Figure 5: Comparison of the capacity range for different advanced recycling technologies
• Figure 6: Overview showing all installed and running advanced recycling plants worldwide (A) and EU27+3 (B), as well as worldwide for Dissolution (C), Solvolysis (D), Pyrolysis (E), Gasification (F), and Enzymolysis (G). The numbers are indicated accordingly as number and in different shades of blue (darker colour = more plants, see right scalebar)
• Figure 7: Installed advanced recycling input capacity worldwide (A) and EU27+3 (B) for dissolution (indicates in dark blue), solvolysis (indicated in orange), enzymolysis (indicated in grey), pyrolysis (indicated in yellow), and gasification (indicated in light blue)
• Figure 8: Overview showing the input capacity of all installed and running advanced recycling plants worldwide (A) and EU27+3 (B), as well as worldwide for Dissolution (C), Solvolysis (D), Pyrolysis (E), Gasification (F), and Enzymolysis (G). The capacity is indicated accordingly as kt a-1 and in different shades of blue (darker colour = higher capacity, see right scalebar)
• Figure 9: Installed advanced recycling output capacity worldwide (A) and EU27+3 (B) for monomers (indicated orange), naphtha (indicated in grey), Secondary Valuable Chemicals (SVC, indicated in yellow), Polymers (indicated in light blue), and Fuels & Energy (indicated in dark blue)
• Figure 10: Sankey diagram showing the advanced recycling input- and output capacities
• Figure 11: Installed and future advanced recycling input capacities worldwide by region (A) and by technology (B)
• Figure 12: Process diagram showing the inputs and outputs of the solvent-based dissolution process
• Figure 13: Mapping of the distribution and clustering of the eight identified dissolution technology providers
• Figure 14: Process diagram showing the solvent-based solvolysis of PET including the inputs and outputs (polyols, bis(hydroxyethyl)terephthalate (BHET), dimethyl terephthalate (DMT), terephthalic acid (TPA), and TPA amide). Adapted from Aguado et al. (1999)
• Figure 15: Mapping of the distribution and clustering of the 22 identified solvolysis & Solid-State Hydrolysis technology providers
• Figure 16: Process diagram showing the inputs and outputs of different secondary valuable materials (SVM) from the pyrolysis process. The main products are usually pyrolysis oil (via thermal- /catalytic-/hydro-cracking) or monomers (via thermal depolymerisation) Adapted from Stapf et al. (2019)
• Figure 17: Mapping of the distribution and clustering of the 62 identified pyrolysis technology providers
• Figure 18: Process diagram showing the inputs and outputs of secondary valuable materials (SVM) from the gasification process
• Figure 19: Mapping of the distribution and clustering of the ten identified gasification technology providers
• Figure 20: Mapping of the distribution and clustering of identified enzymolysis technology providers

List of Tables

• Table 1: Number of identified advanced recycling technology providers by location