封面
市场调查报告书
商品编码
1725035

2024-2031年全球化学回收原料机会

Feedstock Opportunities from Chemical Recycling, Global, 2024-2031

出版日期: | 出版商: Frost & Sullivan | 英文 35 Pages | 商品交期: 最快1-2个工作天内

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简介目录

新技术透过创新方式处理废弃物推动变革性成长

化学回收,也称为先进回收,包含一组分解废弃物分子以生产原料的技术。该製程可将难以回收的塑胶(例如多层或受污染的材料)转化成可用于製造新化学品和塑胶的「类似原始」的原料。机械回收通常涉及在不改变塑胶化学成分的情况下进行再加工,而化学回收则不同,它使用热解、气化和解解聚合等技术将聚合物分解成基本成分。虽然化学回收领域已经有成熟的技术(如热解和气化),但还有许多其他技术仍处于实验室开发阶段,主要由新兴企业和小型公司开发。该行业已设定了雄心勃勃的目标,需要取得重大进展才能实现这些目标。

在本次分析中,Frost & Sullivan检验了2024 年的产能,并对 2031 年各个技术和地区的产能进行了预测。该报告还对轮胎、纺织品、水处理污泥、塑胶和废弃食用油等一系列材料的化学回收现状进行了定性分析,并重点介绍了几家值得关注的公司。研究期间为2024年至2031年,以2024年为基准年,2025年至2031年为预测期间。

目录

范围和定义

  • 亮点
  • 分析范围
  • 定义和范围
  • 化学回收技术

成长环境:化学回收市场的转型

  • 为何成长变得越来越困难?
  • The Strategic Imperative 8(TM)
  • 三大策略要务对化学回收业的影响

化学品回收市场生态系统

  • 化学回收业的物料流
  • 当前情势下的化学回收
  • 供应链
  • 竞争环境
  • 回收技术的主要竞争对手
  • 化学回收的优点和缺点
  • 原料:轮胎
  • 原料:轮胎用例
  • 材质:塑料
  • 原料:水处理废弃物
  • 原料:UCO
  • 原料:纤维的商业案例
  • 原料:农业废弃物及其用于夫喃甲醇生产的利用
  • 原料:废油、润滑油(使用过的)

主要企业

  • 特色公司

化学品回收市场的成长引擎

  • 成长指标
  • 成长动力
  • 成长抑制因素

回收能力预测

  • 基准情境:2024 年和 2031 年区域和全球能力
  • 预测性观察

成长机会宇宙

  • 成长机会1:预处理催化剂和吸附剂
  • 成长机会2:多样化的化学回收技术
  • 成长机会三:废弃物分类技术
  • 成长机会4:原料品管的数位化工具

附录:后续步骤

  • 成长机会的益处和影响
  • 后续步骤Next steps
  • 免责声明
简介目录
Product Code: KB27-92

New Technologies are Driving Transformational Growth by Processing Waste Materials in Innovative Ways

Chemical recycling, also known as advanced recycling, encompasses a group of technologies that break down the molecules in waste to produce raw materials. This process enables the conversion of difficult-to-recycle plastics, such as multi-layered or contaminated materials, back into "virgin-like" feedstocks that can be used to create new chemicals or plastics. Unlike mechanical recycling, which typically reprocesses plastics without changing their chemical composition, chemical recycling uses techniques like pyrolysis, gasification, and depolymerization to break down polymers into their basic components. The chemical recycling sector has some mature technologies (such as the dominant pyrolysis and gasification), alongside numerous others still in laboratory development, primarily driven by start-ups and small companies. The industry has set ambitious targets, and significant progress will be necessary to achieve them.

In this analysis, Frost & Sullivan examines the input capacity for 2024 and offers forecasts for 2031 across various technologies and regions. The report highlights several companies to watch and provides qualitative insights into the current state of chemical recycling for various materials, including tires, textiles, water treatment sludge, plastics, used cooking oils, and more. The study period spans from 2024 to 2031, with 2024 as the base year and the forecast period from 2025 to 2031.

Table of Contents

Research Scope and Definitions

  • Highlights
  • Scope of Analysis
  • Definitions and Scope
  • Chemical Recycling Technologies

Growth Environment: Transformation in the Chemical Recycling Market

  • Why is it Increasingly Difficult to Grow?
  • The Strategic Imperative 8™
  • The Impact of the Top 3 Strategic Imperatives on the Chemical Recycling Industry

Ecosystem in the Chemical Recycling Market

  • Material Flow in the Chemical Recycling Industry
  • Chemical Recycling in Context
  • Supply Chain
  • Competitive Environment
  • Key Competitors by Recycling Technology
  • Pros and Cons of Chemical Recycling
  • Input Feedstocks: Tires
  • Input Feedstocks: Tires Use Cases
  • Input Feedstocks: Plastics
  • Input Feedstocks: Water Treatment Waste
  • Input Feedstocks: UCOs
  • Input Feedstocks: Textiles Business Cases
  • Input Feedstocks: Agricultural Waste and its Use in Furfural Production
  • Input Feedstocks: Waste Oil and Used Lubricants

Companies to Action

  • Companies to Watch

Growth Generator in the Chemical Recycling Market

  • Growth Metrics
  • Growth Drivers
  • Growth Restraints

Recycling Capacity Forecast

  • Base Scenario: Input Capacity 2024 and 2031, Regional and Global
  • Forecast Discussion

Growth Opportunity Universe

  • Growth Opportunity 1: Catalysts and Adsorbents for Pre-treatment
  • Growth Opportunity 2: A Wide Variety of Chemical Recycling Technologies
  • Growth Opportunity 3: Waste Sorting Technologies
  • Growth Opportunity 4: Digital Tools for Feedstock Quality Control

Appendix & Next Steps

  • Benefits and Impacts of Growth Opportunities
  • Next Steps
  • Legal Disclaimer