Dublin, March 10, 2022 (GLOBE NEWSWIRE) -- The "Plastic-to-Fuel (PTF) Market - Global Industry Analysis (2018 - 2020) - Growth Trends and Market Forecast (2021 - 2026)" report has been added to ResearchAndMarkets.com's offering.
The global plastic-to-fuel market has been thriving at a phenomenal pace in recent years as the demand for alternative fuel soars amidst climate change crises.
According to the author, the global plastic-to-fuel (PTF) market was valued at US$900.3 Mn in 2020 and is anticipated to be worth US$1,884.3 Mn in 2026, registering a CAGR of 13.8% during the forecast period. The intensifying recycling initiatives are expected to drive the market as plastic-to-fuel technologies are based on the recovery of clean energy from plastic waste.
Key Insights Into Global Plastic-to-Fuel Market:
Globally, more than 375 million metric tons of plastic were produced. Around 8% of the oil produced in the world is utilized to manufacture plastic.
At a global level, more than 90% of plastic are still not recycled and are dumped, landfilled, or simply drained in the ocean. Thereby, only 10% of waste plastics have been collected and recycled.
Non-recyclable plastics usually land up in landfill facilities. Thus, plastic-to-fuel technologies can recover energy from non-recyclable plastics and thus, minimize excess landfilling on non-recyclable plastics in landfill sites. Along with marketable products such as diesel, gasoline, etc., plastics-to-fuel technologies offer the opportunity to reduce greenhouse gas emissions by up to 60%-70% over new forms of crude oil extraction.
Europe is the world leader in terms of active plastic-to-fuel facilities. In 2020, Europe accounted for the major share of the global market and has plans to add more than 12 new PTF facilities in U.K. in the next few years.
The current COVID-19 pandemic has impacted the global plastic-to-fuel market in terms of delays in funding and procurement of raw material i.e. plastic waste. The sudden halt in operation, delay in plant maintenance, and unavailability of raw material resulted in the temporary shut-down of several facilities across the globe.
A few active players such as Vadxx Energy, RES Polyflow, etc. in the global plastic-to-fuel market were either liquidated/bankrupt/sold existing PTF facilities/or acquired by new players.
Pyrolysis has an Edge Over Other Technologies in Plastic-to-Fuel (PTF) Market
Pyrolysis is the most popularly used technique for the conversion of plastics to fuel. Easy availability of equipment parts and maintenance vendors has been critical to the overall market as it prevents delays in operations. Pyrolysis refers to thermal decomposition, occurring at 400 to 500C in the absence of oxygen.
This technique allows the treated plastic feedstock to be transferred into the pyrolysis reactor through a plug or feed screw. This makes sure that oxygen is excluded. Pyrolysis enables the derivation of gas, liquid and solid.
Europe to Remain Dominant as Plastic-to-Fuel Technologies Tackle Landfill Issues
Geographically, Europe is expected to pave the way in the global plastic-to-fuel market between the forecast years of 2021 and 2025. Ban on plastic waste entering landfills across Europe is expected to encourage the uptake of plastic-to-fuel technologies. As of 2016, about 10 countries have banned the dumping of plastic in landfills. This has allowed improved plastic recovery and recycling across the region. Meanwhile, North America too is expected to make a positive impact on the global plastic-to-fuel market as the U.S. plans to add more PTF facilities in the coming five years.
Some of the key players operating in the global plastic-to-fuel market are Peel L&P Holdings (UK) Limited, Cynar Plc, ALTERRA ENERGY, Brightmark, Rudra Environmental Solutions, NEEDA GREEN ENERGY, Plastic2Oil, MK Aromatics, Agilyx, Klean Industries Inc., Johnson Matthey, RESYNERGI, Nexus, and Global Renewable.
Key Topics Covered:
1. Executive Summary
2. Market Overview
2.1. Market Definitions and Segmentations
2.2. Market Dynamics
2.2.1. Drivers
2.2.2. Restraints
2.2.3. Market Opportunities
2.2.4. Economic Trends
2.3. Value Chain Analysis
2.4. Porter's Five Forces Analysis & PEST Analysis
2.5. Covid-19 Impact
2.5.1. Supply Chain
2.5.2. End-user Customer Impact Analysis
3. Plastic to Fuel (PTF) Facility: Cost Structure Analysis
3.1. Key Highlights
3.2. List of Plastic-to-Fuel Operational Projects (Operator, Technology, Country, Number of Facilities, and Status)
4. Global Plastic-to-fuel (PTF) Market Outlook, 2018 - 2026
4.1. Global Plastic-to-fuel (PTF) Market Outlook, by Technology, Value (US$ Mn), 2018 - 2026
4.1.1. Key Highlights
4.1.1.1. Pyrolysis
4.1.1.2. Depolymerization
4.1.2. BPS Analysis/Market Attractiveness Analysis, by Technology
4.2. Global Plastic-to-fuel (PTF) Market Outlook, by Feedstock, Value (US$ Mn), 2018 - 2026
4.2.1. Key Highlights
4.2.1.1. Polyethylene (PE)
4.2.1.2. Polypropylene (PP)
4.2.1.3. Polyvinylchloride (PVC)
4.2.1.4. Polyethylene Terephthalate (PET)
4.2.1.5. Others
4.2.2. BPS Analysis/Market Attractiveness Analysis, by Feedstock
4.3. Global Plastic-to-fuel (PTF) Market Outlook, by Product, Value (US$ Mn), 2018 - 2026
4.3.1. Key Highlights
4.3.1.1. Diesel
4.3.1.2. Petroleum
4.3.1.3. Kerosene
4.3.1.4. Others
4.3.2. BPS Analysis/Market Attractiveness Analysis, by Product
4.4. Global Plastic-to-fuel (PTF) Market Outlook, by Region, Value (US$ Mn), 2018 - 2026
4.4.1. Key Highlights
4.4.1.1. North America
4.4.1.2. Europe
4.4.1.3. Asia Pacific
4.4.2. BPS Analysis/Market Attractiveness Analysis, by Region
5. North America Plastic-to-fuel (PTF) Market Outlook, 2018 - 2026
6. Europe Plastic-to-fuel (PTF) Market Outlook, 2018 - 2026
7. Asia Pacific Plastic-to-fuel (PTF) Market Outlook, 2018 - 2026
8. Competitive Landscape
8.1. Company Market Share Analysis, 2019
8.2. Strategic Collaborations
8.3. Company Profiles
8.3.1. ALTERRA ENERGY
8.3.1.1. Company Overview
8.3.1.2. Product Portfolio
8.3.1.3. Financial Overview
8.3.1.4. Business Strategies and Development
8.3.2. Brightmark
8.3.2.1. Company Overview
8.3.2.2. Product Portfolio
8.3.2.3. Financial Overview
8.3.2.4. Business Strategies and Development
8.3.3. Rudra Environmental Solutions
8.3.3.1. Company Overview
8.3.3.2. Product Portfolio
8.3.3.3. Financial Overview
8.3.3.4. Business Strategies and Development
8.3.4. NEEDA GREEN ENERGY
8.3.4.1. Company Overview
8.3.4.2. Product Portfolio
8.3.4.3. Financial Overview
8.3.4.4. Business Strategies and Development
8.3.5. Plastic2Oil
8.3.5.1. Company Overview
8.3.5.2. Product Portfolio
8.3.5.3. Financial Overview
8.3.5.4. Business Strategies and Development
8.3.6. MK Aromatics
8.3.6.1. Company Overview
8.3.6.2. Product Portfolio
8.3.6.3. Financial Overview
8.3.6.4. Business Strategies and Development
8.3.7. Agilyx
8.3.7.1. Company Overview
8.3.7.2. Product Portfolio
8.3.7.3. Financial Overview
8.3.7.4. Business Strategies and Development
8.3.8. Klean Industries Inc.
8.3.8.1. Company Overview
8.3.8.2. Product Portfolio
8.3.8.3. Financial Overview
8.3.8.4. Business Strategies and Development
8.3.9. Global Renewable
8.3.9.1. Company Overview
8.3.9.2. Product Portfolio
8.3.9.3. Financial Overview
8.3.9.4. Business Strategies and Development
8.3.10. Johnson Matthey
8.3.10.1. Company Overview
8.3.10.2. Product Portfolio
8.3.10.3. Financial Overview
8.3.10.4. Business Strategies and Development
8.3.11. RESYNERGI
8.3.11.1. Company Overview
8.3.11.2. Product Portfolio
8.3.11.3. Financial Overview
8.3.11.4. Business Strategies and Development
8.3.12. Nexus
8.3.12.1. Company Overview
8.3.12.2. Product Portfolio
8.3.12.3. Financial Overview
8.3.12.4. Business Strategies and Development
8.3.13. Cynar Plc
8.3.13.1. Company Overview
8.3.13.2. Product Portfolio
8.3.13.3. Financial Overview
8.3.13.4. Business Strategies and Development
8.3.14. Peel L&P Holdings (UK) Limited
8.3.14.1. Company Overview
8.3.14.2. Product Portfolio
8.3.14.3. Financial Overview
8.3.14.4. Business Strategies and Development
9. Appendix
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