The "Global Advanced (Chemical) Recycling Market 2026-2040" report has been added to ResearchAndMarkets.com's offering.

The advanced chemical recycling market represents a transformative approach to plastic waste management, converting end-of-life polymers back into their molecular building blocks or high-value chemical feedstocks. Unlike traditional mechanical recycling, which faces limitations with contaminated, multi-layer, or degraded plastics, chemical recycling technologies can process complex waste streams and produce virgin-quality materials suitable for demanding applications including food packaging, medical devices, and automotive components.

The market is experiencing rapid expansion, with global chemical recycling capacity growing at compound annual growth rates exceeding 25%. This acceleration is driven by multiple converging factors: stringent regulatory frameworks like the European Union's Circular Economy Action Plan requiring increased recycled content, corporate sustainability commitments from major brand owners including Unilever, Nestle, and Procter & Gamble, and the fundamental need for more sophisticated recycling solutions capable of handling mixed plastic waste fractions that conventional technologies cannot process. The transition from linear to circular economy models has aligned economic and environmental incentives, with financial institutions mobilizing over $10 billion in specialized capital for circular plastic initiatives.

The market encompasses four primary technology categories, each with distinct advantages and applications. Pyrolysis, operating at temperatures between 370-550C, thermally decomposes polymers into pyrolysis oils, gases, and char, handling mixed plastic streams with relatively simple technology. Commercial facilities now operate at scales processing 100,000-500,000 tons annually, with companies like Brightmark, Plastic Energy, and Agilyx demonstrating viable integrated value chains.

Gasification, employing higher temperatures of 700-1,200C, converts waste into synthesis gas (syngas) comprising hydrogen and carbon monoxide, which can be transformed into numerous chemical products or fuels. While more complex than pyrolysis, gasification offers exceptional feedstock versatility and multiple product pathways, with leading chemical manufacturers including BASF, Dow, and SABIC integrating plastic waste-derived feedstocks into existing steam cracking operations.

Solvent-based technologies, including dissolution and depolymerization processes, operate at lower temperatures (80-200C) and preserve polymer structures, achieving yields exceeding 95% for certain materials. These methods demonstrate particular effectiveness for polyethylene terephthalate (PET), polyurethanes, and polyamides, producing monomers meeting virgin-grade specifications. Companies like Carbios and Loop Industries have achieved commercial-scale operations, with facilities processing 5,000-80,000 tons annually of difficult-to-recycle materials including textiles and multilayer packaging.

Depolymerization specifically targets condensation polymers like PET, nylon, and polycarbonate, breaking chemical bonds to recover original monomers through processes including hydrolysis, glycolysis, and methanolysis. This approach enables true closed-loop recycling, with recovered materials directly reintegrated into manufacturing without quality degradation.

Advanced chemical recycling serves diverse end markets across packaging, automotive, construction, electronics, and textiles. Food-grade packaging represents a critical application, with chemically recycled polymers meeting stringent safety requirements that mechanical recycling often cannot achieve. Major brands have launched products incorporating chemically recycled content, including Unilever's Magnum ice cream tubs, Mars pet food packaging, and Nestle beverage containers. The automotive sector increasingly specifies chemically recycled materials for under-hood components and interior applications where performance requirements justify premium pricing. Electronics manufacturers utilize recovered engineering plastics for housings and structural components, while textile companies employ depolymerized polyester for apparel and home furnishings.

Despite robust growth, the industry faces significant barriers including high initial capital costs ranging from $50-200 million for commercial-scale facilities, feedstock quality variability, and evolving regulatory frameworks. Energy requirements, particularly for pyrolysis and gasification, necessitate careful process optimization and renewable energy integration to achieve favorable carbon footprints. The market trajectory remains strongly positive, with capacity expansions, technological improvements, and supportive policies creating reinforcing feedback loops. As circular economy principles become mainstream and design-for-recyclability standards proliferate, advanced chemical recycling will transition from alternative technology to essential infrastructure within the global materials economy, fundamentally transforming how society values and manages plastic resources.

The Global Advanced (Chemical) Recycling Market 2026-2040 report delivers comprehensive analysis of the rapidly expanding chemical recycling industry, providing critical intelligence for stakeholders navigating the transition from linear to circular plastics economy. This definitive 450-page market intelligence report examines advanced recycling technologies transforming plastic waste management, including pyrolysis, gasification, solvent-based processes, and depolymerization systems projected to achieve market revenues exceeding $15 billion by 2040.

Advanced chemical recycling technologies are revolutionizing waste plastics management by converting end-of-life polymers into virgin-quality feedstocks, monomers, and chemical intermediates. Unlike mechanical recycling limited by contamination and degradation, chemical recycling processes handle mixed plastic waste streams, multilayer packaging, and contaminated materials, producing food-grade packaging, automotive components, and high-performance materials. This comprehensive market report analyzes technology readiness levels, commercial deployments, capacity expansions, and competitive landscape across thermal processes (pyrolysis and gasification), solvent-based technologies (dissolution and depolymerization), and emerging innovations including enzymatic recycling and plasma-assisted systems.

Market drivers propelling industry growth include stringent Extended Producer Responsibility (EPR) regulations, recycled content mandates in Europe, North America, and Asia, corporate sustainability commitments from Fortune 500 brands, and $10+ billion in circular economy investment. The European Union's Circular Economy Action Plan targeting 50% plastic packaging recycling by 2030, alongside carbon pricing mechanisms creating economic incentives for recycled materials, establishes regulatory frameworks accelerating commercial deployments. Major petrochemical manufacturers including BASF, Dow, SABIC, Shell, and TotalEnergies are integrating chemical recycling feedstocks into existing production infrastructure, validating technology scalability and market viability.

This strategic market intelligence report delivers actionable insights through detailed technology assessments, capacity forecasts, competitive benchmarking, and end-market analysis across packaging, automotive, construction, electronics, and textiles sectors. Comprehensive regional analysis examines Europe, North America, Asia-Pacific, South America, Africa, and Oceania, with polymer-specific demand forecasts for polyethylene (PE), polypropylene (PP), polyethylene terephthalate (PET), polystyrene (PS), polyamides, and specialty polymers through 2040.

Report contents include:

• Global market size and revenue projections by technology type (pyrolysis, gasification, dissolution, depolymerization)
• Revenue forecasts by end-use application (packaging, automotive, construction, electronics, textiles)
• Regional market analysis: Europe, North America, Asia-Pacific, South America, Africa, Oceania
• Polymer demand segmentation: PE, PP, PET, PS, Nylon, specialty polymers
• Capacity analysis: current operational facilities, planned expansions, technology-specific capacities
• Price analysis: recycled plastic pricing versus virgin materials, cost competitiveness assessment
• Investment landscape: funding trends, mergers & acquisitions, strategic partnerships (2020-2025)
• Thermal Processes:
  • Pyrolysis: non-catalytic, catalytic, steam cracking, microwave-assisted, plasma pyrolysis
  • Process parameters, product yields, SWOT analysis, commercial applications
  • Polystyrene pyrolysis, tire recycling, biofuel production pathways
  • Co-pyrolysis of biomass and plastic wastes
  • Companies and operational capacities (130+ facilities profiled)
  • Gasification: technology overview, syngas production, methanol synthesis
  • Biomass gasification, syngas fermentation, thermochemical conversion
  • Multilayer packaging processing capabilities
  • SWOT analysis, companies and planned capacities
• Solvent-Based Technologies:
  • Dissolution: selective dissolution, supercritical fluids, switchable solvents
  • Deep eutectic solvents (DES), ionic liquids, conventional organic solvents
  • Polyolefin dissolution systems, polystyrene recovery, PET solvolysis
  • Mixed polymer stream processing, solvent recovery and recycling systems
  • Economic optimization, life cycle assessment (LCA)
  • Commercial development, pilot plants, demonstration facilities
  • Delamination Technologies: multilayer packaging separation
  • Switchable Hydrophilicity Solvents (SHS), polyethylene-aluminum composites
  • Carton package processing, aluminum recovery methods
  • Economic and environmental benefits analysis
  • Chemical Depolymerization: hydrolysis, enzymolysis, methanolysis, glycolysis, aminolysis
  • Polymer-specific processes for PET, PU, PC, PA, PLA
  • Technology maturity, commercial deployments, capacity analysis
  • Companies and planned facilities
• Emerging Technologies:
  • Hydrothermal Liquefaction (HTL) for multilayer packaging
  • Pyrolysis with in-line reforming
  • Carbon fiber recycling technologies
  • Thermoset recycling routes
  • Nano-catalysts and bio-catalysts applications
  • AI and machine learning optimization
• Polymer Processing Methods:
  • Polyethylene (PE): recovery technologies, quality grades, processing parameters
  • Polypropylene (PP): chemical recycling methods, purity specifications
  • Polyethylene Terephthalate (PET): BHET upgrading, glycolysis, methanolysis
  • Polystyrene (PS): dissolution processes, monomer recovery
  • Polyamides (Nylon): depolymerization pathways, caprolactam recovery
  • Polycarbonate (PC), ABS, PVC: specialized processing techniquesPolyurethanes (PU): flexible and rigid foam recycling
• Complex Waste Streams:
  • Multilayer packaging: barrier materials, food-grade applications
  • Mixed plastics: sorting technologies, selective separation
  • Composite materials: fiber-reinforced polymers, carbon fiber recovery
  • Electronic waste: circuit boards, displays, precious metals recovery
  • Automotive plastics: bumpers, dashboards, under-hood components
  • Construction materials: pipes, insulation, profiles
  • Textiles: natural fibers (cotton, wool, silk), synthetic fibers (polyester, nylon, acrylic)
  • Processing methods and recovery technologies
• End Product Analysis
  • Chemical Feedstocks
  • Fuels
  • Raw Materials
  • Energy Products:
• Global Regulatory Landscape
• Market Drivers
• Market Challenges
• Technology Readiness Levels (TRL) assessment: laboratory scale to commercial deployment
• Life Cycle Assessment (LCA)
• Chemically recycled plastic products: commercial applications, brand partnerships
• Market mapping: value chain analysis, competitive landscape
• Industry news, funding and developments (2020-2025): M&A activity, capacity announcements
• Strategic partnerships: petrochemical companies, brand owners, technology providers

The report profiles 191 leading companies pioneering advanced chemical recycling technologies, including:

• Aduro Clean Technologies
• Advanced Plastic Purification International (APPI)
• Aeternal Upcycling
• Agilyx
• Alpha Recyclage Composites
• Alterra Energy
• Ambercycle
• Anellotech
• Anhui Oursun Resource Technology
• APChemi
• Aquafil
• ARCUS Greencycling
• Arkema
• Axens
• BASF
• Bcircular
• BioBTX
• Biofabrik Technologies
• Birch Biosciences
• Blest (Microengineer)
• Blue Cycle
• BlueAlp Technology
• Borealis
• Boston Materials
• Braven Environmental
• Breaking
• Brightmark
• Cadel Deinking
• Carbios
• Carboliq
• Carbon Fiber Recycling
• Cassandra Oil
• CIRC
• China Tianying
• Chevron Phillips Chemical
• Clariter
• Clean Energy Enterprises
• Clean Planet Energy
• Corsair Group International
• Covestro
• CreaCycle
• CuRe Technology
• Cyclic Materials
• Cyclize
• DeepTech Recycling
• DePoly
• Dow Chemical Company
• DyeRecycle
• Eastman Chemical Company
• Eco Fuel Technology
• Ecopek
• Ecoplasteam
• Eeden
• Emery Oleochemicals
• Encina Development Group
• Enerkem
• Enespa
• Enval
• Environmental Solutions (Asia)
• Epoch Biodesign
• Equipolymers
• ESTER Biotech
• Evonik Industries
• Evoralis Limited
• Evrnu
• Extracthive
• ExxonMobil
• Fairmat
• Fulcrum BioEnergy
• Futerro
• Freepoint Eco-Systems
• Fych Technologies
• Garbo
• Greenback Recycling Technologies
• GreenMantra Technologies
• Greyparrot
• Gr3n
• Guangdong Dongyue Chemical Technology
• Handerek Technologies
• Hanwha Solutions
• Honeywell
• Hyundai Chemical
• Impact Recycling
• Indaver
• InEnTec
• INEOS Styrolution
• Infinited Fiber Company
• Ioncell
• Ioniqa Technologies
• Itero Technologies
• Jeplan
• JFE Chemical Corporation
• Kaneka Corporation
• Khepra
• Klean Industries
• LanzaTech
• Licella
• Loop Industries
• LOTTE Chemical

and more.....

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