The Future of Mechanical vs Chemical Recycling to 2027

Table of Contents Key Facts and Figures

Use of post-consumer recycled (PCR) plastics in packaging is expected to reach 5.6 million tonnes in 2026, with growth forecast at 8.6% CAGR
Currently 64.7% of this is PET. Chemical recycling will be vital in broadening the range of quality polymers available to converters
Chemical recycling is receiving major investment, with US plastics companies investing $8.7 billion across the past five years.

This report explores the growing market for mechanically recycled plastics for packaging, and the impending arrival of chemically recycled feedstocks at scale. It combines expert profiles of competing chemical recycling approaches, with critical analysis of key enabling technologies and market barriers to both chemical and mechanical recycling of plastics. This is pursued within a holistic analysis of the polymer manufacture, use, disposal/collection and reprocessing chain; to identify the most promising growth markets across the five years to 2027. Beyond the availability of PCR feedstocks in a new generation of packaging it explores potential uses for such materials in other applications, including automotive manufacturing.

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Mechanical and chemical recycling both have vital roles in delivering a truly circular economy for plastics. This Smithers study quantifies current and future production of each process across all leading polymer types, end-use applications, and geographic regions. This is contextualised with data on forthcoming capacity expansions, and how each approach can be leveraged by industry to achieve new minimum content requirements, in an evolving regulatory landscape.

What will you discover?

The report provides market data for each recycling process and evaluates the competing solutions, with expert forecasting of developments in the industry to 2027
The study analyses the current state-of-the-art for each technology; the structure of chemical and mechanical recycling markets for 2017–27; and examines how commercial-scale chemical recycling will reshape the materials supply for packaging and other end-use sectors.

The Smithers methodology
This report is based on extensive primary and secondary research. Primary research consisted of targeted interviews with material suppliers, converters and experts drawn from key markets. This was supported by secondary research in the form of extensive literature analysis of published data, official government statistics, domestic and international trade organisation data, company websites, industry reports, trade press articles, presentations, and attendance at trade events.

About the author
Patrick Ellis has spent over 50 years working in the European plastics industry, in a variety of technical, marketing and management roles. He has worked for a number of multi-national organisations, including Shell, Borg-Warner, Monsanto, Hercules, Himont, Neste and the RTP Company. He has written multiple market and technology reports for Smithers on a range of subjects, including thermoset and thermoplastic elastomers, as well as chemical recycling.

Who should buy the report?

Packaging converters
Suppliers of plastic materials
Recycling companies
Waste management companies

Name The Future of Mechanical vs Chemical Recycling to 2027

Date 07/07/2023

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Executive summary

Introduction
The global market for recycled polymers for automotive, packaging, and other applications
Revue of mechanical and chemical recycling processes, their position, and their future
The need for recycling plastics and elastomers
Positive and negative aspects for recycling plastics and elastomers
The future of mechanical recycling
The future of chemical recycling

Introduction and methodology

Introduction
Scope
- Thermoplastics recycling processes
- Vulcanized elastomers recycling processes
- Thermoplastics and elastomer raw materials used in automotive, packaging, and other applications
  - Thermoplastics
  - Elastomers
- Processes used in the production of thermoplastics’ applications
- Geographical coverage
Objectives
Methodology
Definitions
Abbreviations and glossary

Regulations and legislation

Introduction
Legislation governing recycling in the automotive industry
- Introduction
- Europe
- North America
- Central and South America
- Asia/Pacific
- Rest of World
Legislation governing recycling in the packaging industry
- Introduction
- Europe
- North America
  - US
  - Canada
  - Mexico
- Central and South America
  - Brazil
  - Other Central and South American countries
- Asia/Pacific
  - China
  - Japan
  - South Korea
  - Philippines
  - Taiwan
  - Australia
  - New Zealand
- Rest of World

Technological forecasts for mechanical and chemical recycling

Introduction
Current and future position of mechanical and chemical recycling processes – general overview
Mechanical recycling processes
Chemical recycling processes
- Pyrolysis
  - Hydrothermal cracking
  - FCC (fluid catalyst cracking
  - Gasification
  - Catalytic hydrogenation
  - Gasification
  - Catalytic hydrogenation
- Other chemical recycling systems
  - Dissolution or solvent extraction
  - Depolymerisation
Benefits of chemical recycling systems

Mechanical and chemical recycling markets by polymer type

Overview
- Automotive recycling
- Packaging recycling
Polymers used in packaging applications
- Polyethylene terephthalate (PET)
- Polyethylene
  - Low density and linear low density polyethylene LDPE/ (LDPE)
  - High density Polyethylene (HDPE)
- Polypropylene (PP)
- Other thermoplastics
  - Polyamides (PA)
  - Polyvinyl chloride (PVC)
  - Cyclic olefin copolymers (COC)
  - Polystyrene (PS)
- Thermoplastic elastomers

Mechanical and chemical recycling market by region

Europe
- Germany
- France
- UK
- Italy
- Spain
- Other Europe
North America
- US
- Canada
- Mexico
South and Central America
- Brazil
- Other South and Central America
Asia Pacific
- China
- Japan
- South Korea
- India
- Australia
- New Zealand
- Other Asia Pacific
Rest of World
- South Africa
- Saudi Arabia and the Emirates, and the Maghreb

Competitive landscape

Aduro Clean Technologies
Agilyx
Alterra
Amsty
Arcus
Axens
BASF Chemcycling
BiologiQ
Coca-Cola
Dow
Eastman
ExxonMobil
Mondelēz International
Neste
Plastic Energy
SABIC
Unilever
Others

Tables

Material composition of an average motor vehicle (%)
Positive and negative needs for recycling plastics and elastomers for automotive applications
Positive and negative aspects of recycling plastics and elastomers for packaging applications
Transition of mechanical recycling of automotive components in the next few years
Transition of mechanical recycling of packaging applications in the next few years
Transition of chemical recycling of automotive components in the next few years
Transition of chemical recycling of packaging applications in the next few years
Definitions used in the context of chemical and mechanical recycling technologies and related matters
Miscellaneous definitions used in thermoplastics, elastomers, and thermoplastics elastomers
Principal thermoplastics used for automotive, packaging, and other applications
Other thermoplastics used for automotive, packaging, and other applications
Other abbreviations used in the context of chemical and other recycling technologies
Elastomer abbreviations and definitions used by the global TPE market
Elastomer abbreviations and definitions used in the thermoset rubber industry
Definitions of components produced from automotive elastomers
Products other than elastomers used and involved with the global elastomer industries
Electric vehicles and components
Benefits and limitations of mechanical recycling systems
Benefits and limitations of chemical recycling systems
Specific gravities of commonly found thermoplastics and thermoplastic elastomers in MSW waste streams
Global market for plastics and elastomers consumption for nontire automotive markets by material, 2022–27 (‘000 tonnes)
Global mechanically recycled plastics and elastomers from non-tire automotive applications by material, 2022–27 (‘000 tonnes)
Percentage of global mechanically recycled plastics and elastomers from non-tire automotive applications by material, 2022–27 (%)
Global chemically recycled plastics and rubbers from non-tire automotive applications by material, 2022–27 (‘000 tonnes)
Percentage of global chemically recycled plastics and rubbers from non-tire automotive applications by material, 2022–27 (%)
Global mechanically recycled plastics from packaging applications by material, 2022–27 (‘000 tonnes)
Percentage of global mechanically recycled plastics from packaging applications by material, 2022–27 (%)
Global chemically recycled plastics from packaging markets by material, 2022–27 (‘000 tonnes)
Percentage of global chemically recycled plastics from packaging markets by material, 2022–27 (%)
European mechanical recycling of automotive plastics (‘000 tonnes)
European mechanical recycling of packaging plastics (‘000 tonnes)
European chemical recycling of packaging plastics (‘000 tonnes)
North American mechanical recycling of automotive plastics (‘000 tonnes)
North American mechanical recycling of packaging plastics (‘000 tonnes)
North American chemical recycling of packaging plastics (‘000 tonnes)
Central and South American mechanical recycling of automotive plastics (‘000 tonnes)
Central and South American mechanical recycling of packaging plastics (‘000 tonnes)
Central and South American chemical recycling of packaging plastics (‘000 tonnes)
Asian/Pacific mechanical recycling of automotive plastics (‘000 tonnes)
Asian/Pacific mechanical recycling of packaging plastics (‘000 tonnes)
Asian/Pacific chemical recycling of packaging plastics (‘000 tonnes)
Rest of the World mechanical recycling of automotive plastics (‘000 tonnes)
Rest of the World mechanical recycling of packaging plastics (‘000 tonnes)
Rest of the World chemical recycling of packaging plastics (‘000 tonnes)

Figures

Chemical and mechanical recycling market by polymer types, 2022 (%)
Chemical and mechanical recycling market by polymer types, 2027 (%)
Chemical and mechanical recycling market by region, 2022 (%)
Chemical and mechanical recycling market by region, 2027 (%)
Chemical and mechanical recycling market growth by region, (CAGR 2022–27, %)
Chemical and mechanical recycling market growth by region, (CAGR 2022–27, %)
Chemical and mechanical recycling market by end-use market, 2022 (%)
Chemical and mechanical recycling market by end-use market, 2027 (%)

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