India Hermetic Motor Market Overview, 2030

The United Kingdom’s plastic recycling market has evolved over the past four decades through a combination of regulatory initiatives, industrial investments, and public awareness campaigns. Early efforts in the 1980s and 1990s focused on municipal curbside collection of basic packaging plastics, such as PET and HDPE bottles, supported by local authority schemes and pilot recycling programs. A major milestone occurred in 1997 with the introduction of Recycling Credits and voluntary producer responsibility schemes, which incentivized manufacturers and retailers to support collection and sorting infrastructure. In 2001, the Packaging (Essential Requirements) Regulations introduced mandatory reporting for packaging waste and encouraged higher recovery and recycling targets. The following decade saw significant expansion of municipal recycling infrastructure, the adoption of advanced sorting technologies, and the creation of partnerships between local authorities and private recyclers, enabling PET bottle recovery rates to reach above 60% by the 2010s.The market faced a turning point in 2018 with the closure of export channels to China under the National Sword policy, highlighting the UK’s reliance on overseas processing and prompting investment in domestic recycling capacity. More recently, the Resources and Waste Strategy for England (2018) and associated Extended Producer Responsibility (EPR) reforms have strengthened obligations for producers to finance recycling, improve collection, and achieve higher recycled-content targets. Industrial scaling has progressed alongside innovations in mechanical and chemical recycling, enabling greater recovery of mixed plastics, LDPE films, and packaging. Today, the UK’s plastic recycling sector combines mature PET and HDPE streams with emerging chemical recycling solutions, supported by regulatory mandates, brand commitments, and public engagement, reflecting a transition from basic municipal recycling to a more structured and circular economy-focused system.

According to the research report "" United Kingdom Plastic Recycling Market Overview, 2030,"" published by Bonafide Research, the United Kingdom Plastic Recycling market is expected to reach a market size of more than USD 2.67 Billion by 2030. The United Kingdom’s plastic recycling sector is characterized by a mix of domestic leaders and emerging innovators, operating within a regulatory environment increasingly focused on extended producer responsibility (EPR) and circular economy targets. Major domestic recyclers include companies such as Viridor, Biffa, and DS Smith, which operate large-scale mechanical recycling facilities processing PET, HDPE, and mixed packaging waste. These players benefit from established municipal contracts and partnerships with local authorities, ensuring consistent feedstock supply and economies of scale. Global chemical and materials companies, including Indorama Ventures, ExxonMobil, and Veolia, are increasingly involved in advanced and chemical recycling projects, either through direct investment or technology licensing agreements, targeting difficult-to-recycle plastics such as LDPE films, polypropylene, and multilayer packaging. The market has witnessed significant mergers and acquisitions, with smaller regional recyclers consolidating to improve operational efficiency and secure long-term offtake agreements with FMCG brands. Strategic partnerships between recyclers and brand owners, including Coca-Cola, Nestlé, and Unilever, are prevalent, with agreements to supply high-quality rPET and rHDPE for food-contact and packaging applications, ensuring steady demand while meeting sustainability and recycled-content mandates. Start-ups and technology innovators are also emerging, piloting chemical recycling and AI-driven sorting solutions to expand processing of mixed and contaminated streams. Public-private collaboration, often supported through government subsidies and green financing initiatives, further strengthens market capacity. Overall, the UK’s competitive landscape reflects a mature recycling ecosystem, integrating mechanical and advanced technologies, with a balance of industrial scale, regulatory compliance, brand partnerships, and innovation driving sector growth and circular economy objectives.

In the United Kingdom, recycling efficiency varies significantly by plastic type, influenced by collection infrastructure, industrial demand, and regulatory support. Polyethylene Terephthalate (PET) is the most successfully recycled polymer, largely due to the combination of municipal curbside collections, kerbside sorting, and voluntary deposit return schemes implemented by brands and local authorities. PET recovery rates exceed 60%, with recycled PET (rPET) used extensively in beverage bottles, packaging, and textiles. High-Density Polyethylene (HDPE), sourced from milk jugs, detergent containers, and rigid packaging, is also widely recovered, supplying rHDPE for bottles, industrial containers, and piping. Polypropylene (PP) recycling remains limited, as many municipal programs historically do not collect PP containers, though post-industrial streams and targeted pilot programs are expanding its use in automotive, packaging, and industrial applications. Low-Density Polyethylene (LDPE), including films and flexible packaging, presents collection and contamination challenges, with recovery primarily through retail drop-off programs and industrial scrap. Polyvinyl Chloride (PVC) recycling is minimal in the UK, largely restricted to industrial and construction applications due to contamination risks and additive complexity. Polystyrene (PS), particularly foamed PS, is challenging to recycle mechanically, though chemical recycling pilots aim to recover monomers for reuse. The “Others” category, including ABS, polycarbonate, and nylon, is largely recovered from post-industrial and electronic waste streams, supplying high-value applications in electronics, automotive components, and specialty products. Overall, PET and HDPE dominate the UK recycling market, while growing investment in chemical recycling and advanced sorting technologies seeks to increase recovery rates for LDPE, PP, PS, and other challenging polymers, supporting national circular economy and sustainability targets.

In the United Kingdom, plastic recycling is sourced from post-consumer and post-industrial streams, each contributing differently to the circular economy. Post-consumer plastic waste originates from households, commercial establishments, and retail, including PET and HDPE bottles, LDPE films, PP containers, and mixed packaging materials. Collection occurs via municipal curbside programs, kerbside sorting, and voluntary deposit return schemes implemented by major beverage brands. PET bottle recovery rates are among the highest, exceeding 60%, while HDPE collection is robust, and other plastics such as PP and LDPE remain more challenging due to contamination and infrastructure limitations. Extended Producer Responsibility (EPR) frameworks and brand-led take-back initiatives help ensure feedstock quality and incentivize investment in collection and sorting technologies, aligning with national circular economy objectives. Post-industrial plastic waste originates from manufacturing processes, including offcuts, trimmings, and rejected or surplus materials from injection molding, extrusion, and packaging production. This stream is cleaner, more homogeneous, and easier to recycle than post-consumer waste, providing consistent high-quality feedstock for mechanical and industrial applications. Post-industrial recyclates are widely used in automotive parts, construction materials, and packaging, often in closed-loop systems that reduce reliance on virgin plastics. While post-consumer sources drive landfill diversion and broader circularity, post-industrial streams ensure reliable quality and supply for industrial end users. Together, these sources support the UK’s high recycling efficiency in PET and HDPE, while ongoing investments in advanced sorting, chemical recycling, and EPR programs aim to increase recovery rates for more challenging plastics, fostering a robust and sustainable plastic recycling ecosystem.

The United Kingdom’s plastic recycling industry is primarily dominated by mechanical recycling, while chemical recycling is emerging as a complementary solution for challenging plastics. Mechanical recycling, the conventional approach, involves collection, sorting, washing, shredding, and remelting plastics into pellets or flakes for reuse. PET and HDPE dominate this segment, with recovery facilitated by municipal curbside programs, kerbside sorting, and voluntary deposit return schemes. Mechanical recycling is well-established, cost-effective, and widely approved for food-grade and industrial applications. However, it faces limitations when processing flexible films, multilayer packaging, and contaminated streams, which can compromise recyclate quality and limit market applications. Chemical recycling, also known as advanced or feedstock recycling, is gaining traction in the UK to address polymers that are difficult to process mechanically, such as LDPE, PP, PS, and mixed multilayer materials. Chemical recycling technologies pyrolysis, depolymerization, and solvolysis convert plastics into monomers, oils, or feedstock suitable for producing virgin-quality polymers. Several pilot projects and early commercial facilities are being developed by global and local players, often in partnership with FMCG brands and technology providers. While chemical recycling offers potential to increase overall recycling rates and produce high-value recyclates, it requires higher capital investment, energy input, and careful environmental oversight to ensure net sustainability benefits. The UK’s recycling market uses a hybrid model: mechanical recycling handles high-volume, high-quality streams such as PET and HDPE, while chemical recycling is positioned to expand recovery for hard-to-recycle plastics, supporting circular economy initiatives and national sustainability targets.

In the United Kingdom, the packaging industry is the primary consumer of recycled plastics, particularly PET and HDPE, driven by beverage bottles, food containers, and household product packaging. Collection is supported by municipal curbside programs and voluntary deposit return schemes, ensuring high-quality rPET and rHDPE for food-grade and industrial applications. Brand commitments from companies such as Coca-Cola, Nestlé, and Unilever, combined with regulations under the Resources and Waste Strategy and upcoming Extended Producer Responsibility (EPR) reforms, further secure demand for recycled-content materials. The electronics and electrical sector utilizes recycled ABS, polycarbonate, and polypropylene for appliance housings, connectors, and components, sourced mainly from post-industrial scrap and formalized e-waste collection streams, though volumes remain moderate due to product complexity. In the automotive industry, recycled PP, PET fibers, and nylon are increasingly incorporated into interior trims, bumpers, and non-structural components, with manufacturers including Jaguar Land Rover and major UK suppliers adopting recycled materials to meet sustainability goals and EU recycled-content directives. Building and construction applications include HDPE and PVC piping, insulation, composite panels, and other durable components, where post-industrial recyclates ensure high-quality feedstock. The “others” category encompasses textiles, furniture, and consumer goods, where rPET fibers are used in carpets, upholstery, and clothing. while packaging dominates recycled plastic demand in the UK, automotive, electronics, and construction sectors are emerging as significant growth markets, driven by regulatory mandates, advanced sorting technologies, and circular economy initiatives that strengthen supply chains and increase the adoption of high-quality recyclates.


Considered in this report
• Historic Year: 2019
• Base year: 2024
• Estimated year: 2025
• Forecast year: 2030

Aspects covered in this report
• Plastic Recycling Market with its value and forecast along with its segments
• Various drivers and challenges
• On-going trends and developments
• Top profiled companies
• Strategic recommendation

By Product Types
• Polyethylene Terephthalate (PET)
• High-Density Polyethylene (HDPE)
• Polypropylene (PP)
• Low-Density Polyethylene (LDPE)
• Polyvinyl Chloride (PVC)
• Polystyrene (PS)
• Others (ABS, Polycarbonate, Nylon, ETC.)

By Source
• Post-Consumer Plastic Waste
• Post-Industrial Plastic Waste

By Recycling Process
• Mechanical Recycling market
• Chemical recycling
• By End User Industries
• Packaging
• Electronics & Electrical
• Automotive
• Building & Construction
• Others 

Considered in this report
• Historic Year: 2019
• Base year: 2024
• Estimated year: 2025
• Forecast year: 2030

Aspects covered in this report
• Hermetic Motor Market with its value and forecast along with its segments
• Various drivers and challenges
• On-going trends and developments
• Top profiled companies
• Strategic recommendation

By Power Output
• Fractional Horsepower (Up to 1HP)
• Integral Horsepower (Above 1HP)

By Voltage
• Upto 1kV
• 1kV-6.6kV
• Above 6.6kV

By Application
• Industrial Machinery
• Motor Vehicles
• HVAC Equipment
• Electrical Appliances
• Others Show more