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市場調查報告書

綠色科技及聚合物的回收:市場分析 (2020-2030年)

Green Technology and Polymer Recycling: Market Analysis 2020-2030

出版商 IDTechEx Ltd. 商品編碼 914235
出版日期 內容資訊 英文 133 Slides
商品交期: 最快1-2個工作天內
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綠色科技及聚合物的回收:市場分析 (2020-2030年) Green Technology and Polymer Recycling: Market Analysis 2020-2030
出版日期: 2019年10月18日內容資訊: 英文 133 Slides
簡介

本報告提供迄今為止聚合物回收的技術進步概要,綜合考慮了影響大規模引入和實施的驅動因素和限制因素,以及正在開發的最新聚合物回收技術的破壞者提供案例研究和SWOT分析。

第1章 摘要整理

第2章 簡介:塑膠廢棄物

  • 社會,經濟及環境的大趨勢
  • 二氧化碳排放量削減指令
  • 循環型經濟是什麼?、其他

第3章 簡介:生物源·可生物降解聚合物

  • 生物源單體的範圍
  • 「生物源聚合物」定義
  • 生物源聚合物及廢棄物管理、其他

第4章 回收技術概要:聚合物的回收工程

  • 回收收集法·設施
  • 回收的4個類型:流程定義
  • 聚合物價值鏈的回收的機會

第5章 回收技術概要:主要聚合物的回收

  • 主要聚合物種類的回收
  • PET的回收
  • 聚合物價值鏈的回收機會

第6章 主要和次要回收:機械性回收

  • 1次機械性回收
  • 2次機械性回收:收集
  • 2次機械性回收:去污、其他

第7章 2次回收:溶劑萃取

  • 溶劑萃取是什麼?
  • Vinyloop - 案例研究
  • 技術供應商、其他

第8章 3次回收:從塑膠轉換到燃料

  • 從塑膠 (PTF)轉換到燃料
  • 焚燒,是氣化,以及熱解?
  • PTF轉換的原料材料、其他

第9章 3次回收:解聚

  • 聚合物解聚為單體和中間體
  • PET的脫聚合
  • 聚苯乙烯的脫聚合、其他

第10章 4次回收:焚燒

  • 廢棄物能源回收 (WtE) :聚合物焚燒
  • MSW vs. 煤炭,石油及天然氣比較
  • 焚化與填埋/回收等之間的競爭、其他

第11章 市場預測·結論

第12章 附錄:用語·定義

目錄

Developing sustainable technologies to create a circular economy for plastics has become increasingly important in industry over the past few years. Increasing customer awareness of the environmental impact of polymers with lifespans of several hundreds of years, as well as a global shift in attitudes towards carbon dioxide emissions from the use of petrochemicals to create new plastics, has resulted in renewed focus on polymer recycling and waste management technologies. Existing technologies have relied upon mechanically sorting and melting plastic waste, which has frequently resulted in "down-cycling" of materials due to high levels of contamination. The issues with current recycling processes are so severe that countries who were previously mass importers of waste for recycling have closed their doors, leading to significant build up of polymer waste. New technologies for recycling contaminated or otherwise unrecyclable polymers are now sought after as a solution to the growing mountain of waste.

Technology and Applications

In 2019, the range of technologies to recycle polymer waste is growing rapidly. Green Technology and Polymer Recycling: Market Analysis 2020-2030 takes an in-depth look into the diverse range of of leading edge companies developing new technologies to process polymer waste. In depth assessments of the latest technologies being developed is provided, with focus on chemical recycling, including depolymerisation, pyrolysis, gasification and solvent extraction. Furthermore, this report cuts through the marketing hype to offer a detailed insight into some of the foremost polymer recycling technology suppliers leading global innovation and bringing potentially disruptive products to market.

Market analysis

This report provides an overview of the technological advancements in polymer recycling to date, a comprehensive insight into the drivers and restraints affecting adoption and implementation at scale, and provides case studies and SWOT analyses for the most prolific disrupters developing novel polymer recycling technologies. IDTechEx conducted exhaustive primary research with companies across a range of industries developing polymer recycling technologies for key insights into the drivers and restraints affecting the growth of this technology.

Key questions that are answered in this report

Who are the key players developing new technologies for polymer recycling? What are the types of new technologies being developed? Which polymers are being actively targeted and why? How do new recycling technologies feed into the polymer value chain? What are the key drivers and restraints of market growth? How can mechanical recycling be disrupted by new polymer recycling technologies? How will revenues from new polymer recycling technologies evolve from 2020-2030?

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Table of Contents

1. EXECUTIVE SUMMARY

  • 1.1.What is the circular economy?
  • 1.2.The filthy five: curbing single use plastics
  • 1.3.Global plastics production to grow to 485 Mt in 2028
  • 1.4.Historical management of Municipal Solid Waste
  • 1.5.China's National Sword policy
  • 1.6.Outlook for managing plastic waste in largest producers
  • 1.7.What is solvent extraction?
  • 1.8.Drivers and restraints
  • 1.9.Conversion of plastics to fuels (PTF)
  • 1.10.Drivers and restraints
  • 1.11.Polymer to monomer and intermediate depolymerisation
  • 1.12.Drivers and restraints
  • 1.13.Global revenues from polymer recycling
  • 1.14.What is the future for polymer recycling?

2. INTRODUCTION: PLASTIC WASTE

  • 2.1.Social, economic and environmental megatrends
  • 2.2.Reduced carbon dioxide emissions directives
  • 2.3.What is the circular economy?
  • 2.4.Global supply of plastics has grown exponentially
  • 2.5.Polymer types: thermoplastics , thermosets and elastomers
  • 2.6.The filthy five: curbing single use plastics
  • 2.7.Global plastics production to grow to 485 Mt in 2028
  • 2.8.Historical management of Municipal Solid Waste
  • 2.9.China's National Sword policy
  • 2.10.Outlook for managing plastic waste in largest producers

3. INTRODUCTION: BIOBASED AND BIODEGRADABLE POLYMERS

  • 3.1.The range of biobased monomers
  • 3.2.Defining "biobased polymers"
  • 3.3.Biobased polymers and waste management in 2019
  • 3.4.Are biodegradable plastics the solution?
  • 3.5.Biobased value add: The Green Premium...
  • 3.6....versus the price of Brent Crude
  • 3.7.Environmental costs: the rising tide of plastic pollution
  • 3.8.Feedstock competition: food or fuel (or plastics)?
  • 3.9.Drivers and restraints of market growth

4. RECYCLING TECHNOLOGIES OVERVIEW: POLYMER RECYCLING PROCESSES

  • 4.1.Recycling collection methods and facilities
  • 4.2.The four types of recycling: process definitions
  • 4.3.Opportunities for recycling in the polymer value chain

5. RECYCLING TECHNOLOGIES OVERVIEW: RECYCLING KEY POLYMERS

  • 5.1.Recycling key polymer types
  • 5.2.Recycling PET
  • 5.3.Technology suppliers for PET recycling in this report
  • 5.4.Recycling PE
  • 5.5.Technology suppliers for PE recycling in this report
  • 5.6.Recycling PP
  • 5.7.Technology suppliers for PP recycling in this report
  • 5.8.Recycling PS
  • 5.9.Technology suppliers for PS recycling in this report

6. PRIMARY AND SECONDARY RECYCLING: MECHANICAL RECYCLING

  • 6.1.Primary mechanical recycling
  • 6.2.Secondary mechanical recycling: collection
  • 6.3.Secondary mechanical recycling: decontamination
  • 6.4.Secondary mechanical recycling: melt and extrusion
  • 6.5.Drivers and restraints of secondary mechanical recycling

7. SECONDARY RECYCLING: SOLVENT EXTRACTION

  • 7.1.What is solvent extraction
  • 7.2.Vinyloop- PVC warning case study
  • 7.3.Technology suppliers
  • 7.4.Company profiles
  • 7.5.Drivers and restraints

8. TERTIARY RECYCLING: PLASTIC TO FUEL CONVERSION

  • 8.1.Conversion of plastics to fuels (PTF)
  • 8.2.Incineration, gasification or thermal pyrolysis?
  • 8.3.Feedstock materials for PTF conversion
  • 8.4.PTF conversion outputs and side products
  • 8.5.Technology suppliers
  • 8.6.Company profiles
  • 8.7.Drivers and restraints

9. TERTIARY RECYCLING: DEPOLYMERISATION

  • 9.1.Polymer to monomer and intermediate depolymerisation
  • 9.2.Depolymerisation of PET
  • 9.3.Depolymerisation of polystyrene
  • 9.4.Depolymerisation of polyolefins
  • 9.5.Depolymerisation of biodegradable polymers
  • 9.6.Technology suppliers by feedstock
  • 9.7.Company profiles
  • 9.8.Drivers and restraints

10. QUATERNARY RECYCLING: INCINERATION

  • 10.1.Waste to energy: polymer incineration
  • 10.2.MSW versus coal, oil and gas comparison
  • 10.3.Incineration competing with landfill and recycling
  • 10.4.Incineration uptake: USA versus Europe
  • 10.5.Debate surrounding incineration

11. MARKET FORECASTS AND CONCLUSIONS

  • 11.1.Breakeven price point for mechanical recycling
  • 11.2.Breakeven for solvent extraction
  • 11.3.Breakeven for plastic to fuel conversion
  • 11.4.Breakeven for depolymerisation
  • 11.5.Global revenues from polymer recycling
  • 11.6.What is the future for polymer recycling?

12. APPENDIX: GLOSSARY AND DEFINITIONS

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