China Hermetic Motor Market Overview, 2030

The evolution of plastic recycling in Mexico has been shaped by rapid industrialization, urbanization, and growing concern over environmental impacts of plastic waste. Recycling initiatives began to take root in the late 1990s, primarily driven by informal collection networks that gathered post-consumer PET bottles for export or local reprocessing. By the early 2000s, Mexico had developed one of the most advanced PET recycling markets in Latin America, with the establishment of large-scale facilities supported by beverage and packaging industries. A major milestone came in 2002 with the creation of ECOCE Ecología y Compromiso Empresarial, an industry-led nonprofit responsible for coordinating PET collection programs across the country. ECOCE has since expanded its scope to promote packaging recycling and public awareness campaigns. In 2014, Coca-Cola FEMSA and Alpla launched Planta PetStar, one of the world’s largest food-grade PET recycling plants, capable of processing over 80,000 tons annually, marking a turning point in scaling industrial recycling capacity. Over the past decade, Mexico has steadily increased PET bottle recovery rates, reaching above approx. 56% by 2022 one of the highest rates in the Americas while other plastics such as HDPE, PP, and LDPE lag behind due to weaker collection infrastructure. The market was further influenced by global developments, including China’s 2018 National Sword policy, which restricted plastic waste imports and incentivized Mexico to expand domestic processing. Today, Mexico is advancing chemical recycling pilots and expanding post-consumer collection under voluntary industry commitments, positioning itself as a regional leader in PET recycling while working to close gaps in polyolefins and flexible plastics.

According to the research report ""Mexico Plastic Recycling Market Overview, 2030,"" published by Bonafide Research, the Mexico Plastic Recycling market is anticipated to grow at more than 8.79% CAGR from 2025 to 2030. Plastic recycling in Mexico delivers measurable environmental and social benefits while also reflecting a competitive and evolving industry landscape. From an environmental standpoint, recycling PET and HDPE provides significant carbon footprint savings compared to virgin resin, with life-cycle studies showing energy reductions of up to 60% and greenhouse gas savings of around 25–30%. Mexico’s advanced PET recycling capacity, highlighted by facilities such as PetStar, diverts more than 80,000 tons of plastic annually from landfills and supports circular economy integration through closed-loop bottle-to-bottle systems. Despite these advances, other polymers such as LDPE, PP, and polystyrene face low recovery rates due to contamination, inadequate curbside infrastructure, and higher processing costs, limiting their landfill diversion potential. On the social side, the informal waste sector remains critical, with thousands of pepenadores responsible for collecting large volumes of PET and other recyclables, supplying both municipal and industrial systems. While this ensures high recovery in urban areas, workers often face precarious conditions, prompting industry and nonprofit initiatives to formalize labor through cooperatives, fair-price contracts, and safer collection networks. Competitively, Mexico is led by industry alliances such as ECOCE and large-scale recyclers like PetStar, backed by Coca-Cola FEMSA and Alpla, while global players such as Indorama, BASF, and LyondellBasell are expanding partnerships and chemical recycling projects to diversify feedstock streams. Market activity shows consolidation trends as recyclers scale operations, alongside mergers, acquisitions, and joint ventures designed to secure raw material flows. Partnerships between recyclers and FMCG brands remain central, ensuring consistent demand for rPET and rHDPE while positioning Mexico as a regional leader in PET circularity.

In Mexico, recycling performance varies significantly across plastic product types, driven by collection infrastructure, polymer characteristics, and industrial demand. Polyethylene Terephthalate (PET) is the most successfully recycled plastic, supported by deposit return systems (DRS) in provinces and large-scale industrial initiatives such as PetStar, one of the world’s largest food-grade PET recycling plants. PET recovery rates exceed approx. 55–60%, and recycled PET (rPET) is widely used in beverage bottles, packaging, and textiles. High-Density Polyethylene (HDPE), primarily sourced from milk jugs, detergent bottles, and household containers, is also actively recycled, though recovery rates are lower than PET due to less consistent municipal collection and limited DRS coverage. Recycled HDPE is used for bottles, piping, and rigid packaging. Polypropylene (PP) recycling remains limited because municipal programs often do not accept PP containers, and contamination challenges exist, though industrial scrap recovery for automotive and packaging applications is gradually increasing. Low-Density Polyethylene (LDPE), mainly from films, bags, and wraps, is difficult to recycle due to contamination and lightweight properties, with recovery mainly occurring through retail drop-off programs and industrial scrap collection. Polyvinyl Chloride (PVC) recycling is minimal, restricted to niche applications in construction and industrial products because of additives and contamination risks. Polystyrene (PS) faces low recovery due to food contamination and low density, though chemical recycling pilots are being explored to convert it back to styrene monomers. The Others category, including ABS, polycarbonate, and nylon, is recovered primarily from industrial or electronic waste streams in small volumes for automotive and specialty applications. Overall, PET and HDPE dominate Mexico’s recycling market, while investment in advanced and chemical recycling technologies is gradually expanding recovery for harder-to-recycle resins.

In Mexico, plastic recycling is primarily sourced from post-consumer and post-industrial streams, each exhibiting distinct characteristics and challenges. Post-consumer plastic waste comes from households, businesses, and commercial establishments, including PET and HDPE bottles, food containers, packaging films, and shopping bags. Collection occurs through municipal curbside programs, retail drop-off points, and deposit return systems (DRS) implemented in several states. The establishment of ECOCE in 2002 significantly improved PET collection, achieving recovery rates exceeding 55–60% for beverage bottles, one of the highest in Latin America. Despite these achievements, post-consumer streams face contamination issues, mixed-resin collection, and irregular participation, limiting the recovery of PP, LDPE, and PS. Extended Producer Responsibility (EPR) programs and public-private partnerships have increasingly shifted responsibility for post-consumer collection to producers, enhancing infrastructure and incentivizing higher-quality recyclate production.Post-industrial plastic waste originates from manufacturing and processing facilities and includes production scrap, offcuts, trimmings, and rejected components. This source is cleaner, more homogeneous, and easier to recycle compared to post-consumer waste. In Mexico, post-industrial streams supply a significant portion of HDPE, PP, and engineering plastics to local recyclers, often re-entering closed-loop production in packaging, automotive, and industrial applications. While post-industrial waste represents a smaller proportion of the total plastic stream, it provides consistent quality and volume, making it highly valuable for recyclers and manufacturers. Collectively, post-consumer and post-industrial sources complement each other post-consumer waste drives circularity and landfill diversion, while post-industrial waste ensures high-quality feedstock, supporting Mexico’s growing ambitions for sustainable plastics management and expanded recycling infrastructure.

In Mexico, the plastic recycling market is primarily dominated by mechanical recycling, with chemical recycling emerging as a complementary solution for hard-to-recycle streams. Mechanical recycling, the conventional method, involves collection, sorting, cleaning, and reprocessing plastics into pellets or flakes for reuse. PET and HDPE dominate this segment, driven by beverage bottles and rigid packaging. Facilities such as PetStar exemplify large-scale mechanical recycling operations, processing tens of thousands of tons of post-consumer PET annually and producing food-grade rPET for the domestic and export markets. Mechanical recycling benefits from established infrastructure, relatively low operational costs, and regulatory acceptance, but faces challenges with mixed plastics, flexible films, multilayer packaging, and contamination, which limit efficiency and recyclate quality. Chemical recycling, also called advanced recycling, is gaining traction in Mexico to address plastics that cannot be efficiently processed mechanically, including LDPE films, PS, PP, and mixed-resin streams. Technologies such as pyrolysis, depolymerization, and solvolysis are being piloted by companies like Pyrowave and through collaborations with international technology licensors. These processes break plastics down into monomers or feedstock oils that can be reused in virgin-quality plastic production. While chemical recycling offers the potential to expand circularity and increase recycled-content compliance for brands, it remains in the early commercial phase, with higher capital expenditure and energy requirements compared to mechanical recycling. Mexico’s plastic recycling sector is evolving toward a hybrid model mechanical recycling continues to handle high-volume, high-quality streams such as PET and HDPE, while chemical recycling is positioned to manage complex, contaminated, or flexible plastics, helping the country increase recovery rates and meet national sustainability targets.

In Mexico, the packaging industry is the dominant consumer of recycled plastics, particularly PET and HDPE, driven by beverage bottles, food containers, and household product packaging. Industry-led initiatives such as ECOCE and large-scale recyclers like PetStar ensure a reliable supply of high-quality rPET for bottle-to-bottle and fiber applications, while deposit return systems and municipal collection programs facilitate high recovery rates. The electronics and electrical industry represents a smaller but growing segment, utilizing recycled ABS, polycarbonate, and polypropylene in appliance casings, connectors, and consumer electronics. Recovery of engineering plastics from e-waste streams is expanding through formal recycling partnerships, though volumes remain limited due to contamination and complex product designs. The automotive sector incorporates recycled plastics, particularly PP, PET fibers, and nylon, into interior trims, bumpers, and non-structural components. Mexican automotive manufacturers and suppliers are increasingly adopting recycled materials to meet corporate sustainability goals and comply with North American recycled-content expectations. In building and construction, recycled HDPE, PVC, and polypropylene are used in piping, insulation, panels, and composite materials, with post-industrial scrap providing high-quality feedstock. Growth in this sector is linked to infrastructure development, green building certifications, and corporate sustainability policies. The “others” category includes textiles, furniture, and consumer goods, where recycled PET fibers are used in carpets, clothing, and upholstery. Overall, packaging remains the largest driver of recycled plastic demand, while electronics, automotive, and construction are emerging markets that benefit from improved recycling infrastructure and growing regulatory and brand commitments to circularity in Mexico.


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