1. Introduction to Custom Plastic Recycling Line for Mixed Waste Materials
Mixed waste plastics—including a combination of HDPE, PP, PVC, ABS, PET, and LDPE from industrial, consumer, agricultural, and automotive sources—represent one of the largest untapped resources in the circular economy. Globally, over 300 million tons of plastic waste are generated annually, with 60% being mixed waste that standard recycling lines cannot process efficiently. Standard recycling lines are designed for single-type plastic streams (e.g., only PET bottles or HDPE containers), leading to low recovery rates (30–40%) for mixed waste, high contamination levels in recycled pellets, and significant material loss (up to 25%) during processing.
Wanplas (www.wanplas.com), a leading manufacturer of plastic processing machinery with over 20 years of expertise, specializes in developing custom plastic recycling lines tailored to mixed waste materials. The global market for custom mixed plastic recycling solutions is projected to grow at a CAGR of 8.2% from 2024 to 2030, driven by strict global plastic waste regulations (e.g., EU Circular Economy Action Plan, US EPA Plastic Pollution Reduction Strategy) and rising demand for recycled plastic pellets in packaging, automotive, and construction industries. Investing in a Wanplas custom recycling line enables waste management companies, plastic manufacturers, and industrial facilities to convert mixed plastic waste into high-value recycled pellets, reducing landfill reliance and generating additional revenue streams.
Standard recycling lines lack flexible sorting systems, one-size-fits-all shredding blades, and generic washing processes—all of which fail to address the heterogeneity of mixed waste. For example, processing mixed agricultural plastic waste (mulch films + irrigation pipes + fertilizer bags) with a standard line results in recycled pellets with 15–20% contamination, making them unsuitable for high-grade applications. In contrast, a Wanplas custom line integrates specialized sorting, shredding, and washing modules to reduce contamination to <5% and boost recovery rates to 85% or higher, meeting industry quality standards (e.g., ASTM D4101 for recycled HDPE, ISO 1833 for mixed plastic pellets).
2. Core Design Principles of Custom Plastic Recycling Lines for Mixed Waste
2.1 Custom Sorting System for Mixed Waste
The sorting system is the foundation of an effective mixed plastic recycling line, and Wanplas engineers design custom sorting modules based on the composition of the mixed waste (plastic types, contamination level, particle size). For mixed waste with 3+ plastic types (e.g., HDPE + PP + PVC), the system integrates near-infrared (NIR) sensors with AI-driven sorting algorithms to identify and separate plastics at a speed of 2–3 tons per hour, with a sorting accuracy of 98%. For contaminated mixed waste (e.g., plastic + paper + metal), the line includes magnetic separation (for ferrous metals) and air classification (for lightweight contaminants like paper) before NIR sorting, eliminating 99% of non-plastic contaminants.
Wanplas also customizes the sorting conveyor speed (0.5–2 m/s) and sensor spacing (50–100mm) to match the size of mixed waste materials—critical for processing small items (e.g., plastic bottle caps) and large items (e.g., automotive plastic bumpers) in the same line. For medical mixed waste (non-hazardous), the sorting system is enclosed in a Class 8 cleanroom-compatible housing to meet FDA standards, preventing cross-contamination during processing.
2.2 Shredding & Washing System Optimization
Mixed plastic waste often contains dirt, oil, food residue, or adhesives, making effective shredding and washing critical to producing high-quality recycled pellets. Wanplas customizes shredder blades (made of high-carbon steel, hardness 55–60 HRC) with variable tooth spacing (10–50mm) for different mixed waste types: narrow spacing (10–20mm) for thin materials (e.g., plastic films) and wide spacing (30–50mm) for rigid materials (e.g., plastic pipes). The dual-shaft shredders operate at 15–30 rpm to reduce energy consumption by 10–15% compared to single-shaft models, while minimizing plastic degradation during shredding.
For heavily contaminated mixed waste (e.g., industrial plastic scrap with oil residue), Wanplas integrates a multi-stage washing system: hot water washing (60–80°C) with alkaline detergents (pH 10–11) to remove oil, friction washing to dislodge dirt, and rinsing with deionized water to eliminate detergent residue. The washing system’s water flow rate (500–1500 L/h) is customized to the contamination level, reducing water consumption by 20–25% vs. standard washing systems and enabling water recycling (up to 90% of wash water is reused).
2.3 Pelletizing System Customization
The pelletizing system converts cleaned and dried mixed plastic flakes into uniform pellets, and Wanplas customizes the extruder and die head to match the melting characteristics of mixed polymers. For mixed waste with incompatible plastics (e.g., HDPE + PP), the extruder screw (diameter 65–120mm) features a low-shear mixing section to prevent thermal degradation, with a temperature control range of 160–220°C (±2°C precision) to ensure consistent melting. The die head has interchangeable screens (mesh size 20–80) to filter out fine contaminants (e.g., sand, small metal fragments) and produce pellets of uniform size (2–5mm diameter).
For mixed waste with high moisture content (e.g., post-consumer plastic packaging), Wanplas adds a vacuum degassing system to the pelletizing line, removing moisture (down to <0.5%) and volatile organic compounds (VOCs) from the molten plastic. This prevents bubble formation in the final pellets and improves their mechanical properties (tensile strength, elongation at break), making them suitable for use in injection molding and extrusion applications.
2.4 Control System Customization
Custom plastic recycling lines for mixed waste require flexible control systems to adjust process parameters (sorting speed, shredder rpm, washing temperature) for different waste compositions. Wanplas equips all custom lines with a PLC (Programmable Logic Controller) and 12-inch HMI touchscreen, allowing operators to store up to 50 process recipes for different mixed waste streams (e.g., agricultural mixed waste, automotive mixed waste). This eliminates manual parameter adjustment when switching waste types, reducing changeover time from 3 hours to 30 minutes and increasing overall equipment effectiveness (OEE) to 85% or higher.
For large-scale recycling facilities, Wanplas integrates real-time monitoring systems that track key metrics (recovery rate, contamination level, energy consumption) and send alerts if parameters deviate from set ranges. This automation reduces human error by 85% and ensures consistent pellet quality—critical for meeting customer specifications for recycled plastic materials.
3. Types of Mixed Waste Plastics Processed by Custom Recycling Lines
3.1 Industrial Mixed Plastic Waste
Industrial mixed plastic waste includes scrap from manufacturing facilities (e.g., HDPE/PVC pipe offcuts, ABS automotive component scraps, PP packaging film waste) and often contains oil, grease, or chemical contaminants. Wanplas custom recycling lines for industrial waste (processing capacity 500–2000 kg/h) feature heavy-duty shredders, high-temperature washing systems, and anti-corrosive extruder barrels (PTFE-lined) to handle chemical contamination. The cost of processing industrial mixed waste with a Wanplas line is $0.10–$0.18 per kg, compared to $0.20–$0.30 per kg with standard lines (due to higher recovery rates and lower energy use).
For industrial mixed waste with high PVC content (up to 30%), Wanplas lines include a PVC separation module to remove PVC before pelletizing (PVC degrades at high temperatures and contaminates other plastics), ensuring recycled pellets meet EU REACH regulations for PVC content (<0.1%).
3.2 Consumer Mixed Plastic Waste
Consumer mixed plastic waste (post-consumer) includes household packaging (bottles, films, containers), toy scraps, and appliance shells—typically a mix of PET, HDPE, PP, and LDPE with high levels of dirt and food residue. Wanplas small-to-medium custom lines (processing capacity 200–800 kg/h) for consumer waste prioritize compact design (suitable for urban waste facilities) and high-efficiency washing systems to remove food residue. A Wanplas 500 kg/h line for consumer mixed waste costs $120,000–$180,000, with an operational cost of $0.08–$0.12 per kg, and produces recycled pellets that meet food-contact standards (FDA 21 CFR Part 177) when processed with food-grade detergents.
3.3 Medical Mixed Plastic Waste (Non-Hazardous)
Non-hazardous medical mixed plastic waste includes PP syringes (without needles), HDPE medical containers, and LDPE tubing scraps—requiring compliant processing to meet healthcare regulations (e.g., EU MDR, US FDA 21 CFR Part 1040). Wanplas custom lines for medical waste feature stainless steel contact parts, HEPA filtration systems, and sterilization modules (thermal treatment at 135°C) to eliminate pathogens. The lines process 100–500 kg/h of medical mixed waste, producing recycled pellets suitable for non-medical applications (e.g., construction plastic components) at a cost of $0.25–$0.35 per kg.
A Wanplas 300 kg/h medical mixed waste recycling line costs $180,000–$250,000, with an ROI of 24–30 months for a medical waste handler processing 500 tons of waste annually (generating $150–$200 per ton of recycled pellets).
3.4 Automotive Mixed Plastic Waste
Automotive mixed plastic waste includes interior trim (PVC/ABS), bumpers (PP/EPDM), and fuel tank scraps (HDPE)—requiring processing that preserves mechanical properties (impact resistance, heat stability). Wanplas custom lines for automotive waste (processing capacity 800–2000 kg/h) integrate low-shear extruders to avoid polymer degradation, producing recycled pellets with tensile strength >25 MPa (meeting ISO/TS 16949 automotive standards). A Wanplas 1000 kg/h automotive recycling line costs $250,000–$350,000, reducing automotive manufacturers’ raw material costs by 15–20% by replacing virgin plastic with recycled pellets.
3.5 Agricultural Mixed Plastic Waste
Agricultural mixed plastic waste includes mulch films (LDPE), irrigation pipes (HDPE), and fertilizer bags (PP)—often contaminated with soil, pesticides, and UV stabilizers. Wanplas custom lines for agricultural waste (processing capacity 300–1000 kg/h) feature robust washing systems with brush rollers to remove soil, and UV stabilizer removal modules to improve pellet quality. A small-scale Wanplas 300 kg/h agricultural recycling line costs $80,000–$120,000, ideal for rural waste facilities, with an operational cost of $0.06–$0.10 per kg and a recovery rate of 80–85%.
4. Wanplas Custom Plastic Recycling Lines: Product Advantages
Wanplas custom plastic recycling lines outperform standard and generic custom lines due to tailored design, energy efficiency, and end-to-end support—addressing the unique challenges of mixed waste processing. Unlike off-the-shelf lines that require costly retrofits (adding $20,000–$50,000 in modifications) to handle mixed waste, Wanplas lines are engineered from the ground up for specific waste compositions, eliminating retrofit costs and reducing upfront investment by 10–15%.
4.1 Custom Sorting Adaptability
Wanplas engineers collaborate with customers to design sorting systems for even the most complex mixed waste streams (e.g., 5+ plastic types + non-plastic contaminants). The in-house R&D team tests customer waste samples in Wanplas’ lab-scale recycling facility to optimize sensor placement, conveyor speed, and separation logic—reducing sorting testing time by 50% and ensuring 98% sorting accuracy for target plastics. For customers with existing sorting equipment, Wanplas modifies the line to integrate legacy systems, eliminating the need to replace costly machinery.
4.2 High Recovery Rate & Low Material Loss
The biggest advantage of Wanplas custom lines is their high recovery rate (80–90%) for mixed waste, compared to 30–40% for standard lines. This is achieved through optimized shredding (minimizing plastic breakage), efficient washing (reducing contamination-related discard), and precision pelletizing (filtering only fine contaminants, not usable plastic). For a recycling facility processing 1000 tons of mixed waste annually, a Wanplas line recovers 500+ additional tons of plastic, generating $50,000–$100,000 in extra revenue from recycled pellets (valued at $100–$200 per ton).
4.3 Energy Efficiency & Cost Savings
Wanplas custom lines integrate variable frequency drives (VFD) for shredders and extruders, heat recovery systems (reusing waste heat from pelletizing to preheat wash water), and low-power NIR sensors—reducing energy consumption by 20–25% compared to standard lines. For a 1000 kg/h line operating 8000 hours per year (at $0.15/kWh), this translates to annual energy savings of $12,000–$18,000. The lines also use water recycling systems (90% water reuse), cutting water costs by $5,000–$10,000 annually for large-scale facilities.
4.4 Global Compliance & Certification
All Wanplas custom recycling lines comply with CE (European Conformity), ISO 9001:2015 (quality management), and EPA (US Environmental Protection Agency) standards for plastic waste processing. The lines also meet EU Ecolabel requirements for recycled plastic production and US ASTM standards for pellet quality, eliminating the need for additional certifications when exporting recycled pellets to global markets. This compliance saves customers $5,000–$10,000 in certification costs per line.
4.5 Comprehensive Technical Support & After-Sales Service
Wanplas provides full lifecycle support for custom recycling lines: on-site installation (including electrical and plumbing connections), operator training (2–3 days for 3–5 operators), and 24/7 technical support. The global spare parts network ensures replacement parts (shredder blades, screens, sensors) are delivered within 48 hours for urgent repairs, minimizing downtime (critical for facilities processing time-sensitive waste). Wanplas also offers annual maintenance contracts ($4,000–$8,000 per year) that include preventive maintenance, calibration, and operator refresher training—extending line lifespan by 3–5 years and reducing unplanned downtime by 75%.
5. Cost & Price Analysis of Custom Plastic Recycling Lines
The price of a Wanplas custom plastic recycling line for mixed waste is determined by four key factors: processing capacity (kg/h), customization level (sorting complexity, compliance features), automation level (manual/semi-automated/fully automated), and additional modules (sterilization, PVC separation, water recycling).
5.1 Key Cost Drivers
- Processing Capacity: Small lines (100–500 kg/h) have a base price of $60,000–$100,000; mid-sized (500–1500 kg/h) $120,000–$250,000; large (1500–3000 kg/h) $280,000–$700,000.
- Customization Level: Basic customization (standard sorting + washing) adds 5–10% to the base price; full customization (AI sorting + medical compliance + PVC separation) adds 40–60%.
- Automation Level: Semi-automated lines (manual bagging of pellets) cost 15–20% less than fully automated lines (robotic pellet handling + in-line quality testing), which add $30,000–$80,000 to the base price.
- Additional Modules: Water recycling adds $8,000–$15,000; medical sterilization adds $20,000–$35,000; PVC separation adds $15,000–$25,000.
5.2 Wanplas Price Range Breakdown
Wanplas offers transparent pricing with no hidden fees—all quotes include basic installation, operator training (3 operators), and a 12-month warranty on parts and labor:
- Entry-Level (100–500 kg/h): $75,000–$130,000. Ideal for small waste facilities or rural agricultural waste processing. Includes basic AI sorting, single-stage washing, and semi-automated pelletizing. A 300 kg/h agricultural line costs $80,000–$110,000 (optional water recycling upgrade for $9,000).
- Mid-Range (500–1500 kg/h): $140,000–$300,000. Suited for urban waste management companies and industrial facilities. Includes advanced NIR/AI sorting, multi-stage washing, and PLC automation. A 1000 kg/h industrial mixed waste line costs $200,000–$280,000 (includes PVC separation module).
- High-End (1500–3000 kg/h): $320,000–$750,000. Designed for large-scale recycling plants and medical waste handlers. Features fully automated sorting/pelletizing, cleanroom compatibility (medical use), and IoT monitoring (optional for $25,000). A 2000 kg/h medical mixed waste line costs $450,000–$600,000 (includes sterilization and HEPA filtration).
5.3 Hidden Costs & ROI Calculation
Beyond upfront purchase price, customers must account for hidden costs:
- Installation: $4,000–$12,000 (on-site for mid/high-end lines, including utility connections).
- Training: $2,000–$5,000 (hands-on training for operators and maintenance staff).
- Wear Parts: $3,000–$8,000 annually (shredder blades, screens, conveyor belts).
- Utilities: $10,000–$30,000 annually (energy + water, depending on capacity).
- Waste Transportation (optional): $5–$15 per ton (for facilities collecting waste from external sources).
For a mid-range Wanplas line ($200,000 total investment, including installation/training) processing 1000 kg/h for 8 hours/day (250 days/year = 2000 tons/year), the annual revenue from recycled pellets (valued at $150/ton) is $300,000. Annual operational costs (utilities + wear parts) are ~$40,000, resulting in annual profit of $260,000. The ROI is ~9 months (excluding waste transportation) or 12 months (including transportation costs).
5.4 Wanplas Pricing Advantages
Wanplas custom lines are 25–35% more affordable than European (e.g., Erema, Starlinger) or North American (e.g., Cumberland) brands for equivalent capacity and customization, while maintaining the same quality and certification standards. Flexible payment options are available:
- 30% down payment, 60% on delivery, 10% after 6 months of successful operation.
- Lease-to-own: Monthly payments of $3,000–$8,000 for mid-range lines (3–5 year term).
- Bulk order discounts: 10–15% off for 2+ lines (ideal for multi-site waste management companies).
6. Industrial Applications of Wanplas Custom Recycling Lines
6.1 Plastic Recycling Plants
A leading European recycling plant uses a Wanplas 2000 kg/h custom line to process mixed post-consumer plastic waste (PET/HDPE/PP/LDPE). The line’s AI sorting system achieves 98% accuracy, producing recycled pellets with <3% contamination—sold to packaging manufacturers at $180/ton. The line cost $400,000, with an ROI of 10 months (processing 4000 tons/year, generating $720,000 in annual revenue).
6.2 Packaging Industry
A global food packaging manufacturer uses a Wanplas 800 kg/h custom line to recycle in-house mixed plastic waste (HDPE/PP packaging scraps). The line reduces virgin plastic usage by 30%, cutting raw material costs by $120,000 annually. The line cost $160,000, with an ROI of 14 months (savings + revenue from excess recycled pellets sold to third parties).
6.3 Automotive Manufacturing
A major Asian automotive manufacturer uses a Wanplas 1500 kg/h custom line to process mixed automotive plastic waste (bumpers/interior trim). The recycled pellets are used to produce non-critical automotive components (e.g., wheel arch liners), reducing raw material costs by 18% and meeting the company’s sustainability goals (30% recycled content by 2027). The line cost $280,000, with an ROI of 11 months.
6.4 Agricultural Waste Management
A Brazilian agricultural cooperative uses a Wanplas 300 kg/h custom line to recycle mixed farm plastic waste (mulch films/irrigation pipes). The recycled pellets are sold to local plastic manufacturers for $100/ton, generating $60,000 annually (processing 600 tons/year). The line cost $90,000, with an ROI of 18 months (includes government sustainability grants of $15,000).
6.5 Medical Waste Handling
A US medical waste company uses a Wanplas 500 kg/h custom line to process non-hazardous medical mixed plastic waste (syringes/containers). The line meets FDA and EPA standards, producing recycled pellets for construction plastics (valued at $120/ton). The line cost $220,000, with an ROI of 22 months (processing 1000 tons/year, generating $120,000 in annual revenue).
7. How to Select the Right Custom Recycling Line from Wanplas
7.1 Assess Mixed Waste Specifications
First, define key waste characteristics: plastic types (e.g., HDPE+PP+PVC), contamination level (soil/oil/food residue), moisture content (<5% vs. >10%), and particle size (small flakes vs. large bumpers). For example, wet consumer mixed waste requires a vacuum degassing module, while oil-contaminated industrial waste needs a high-temperature washing system.
Wanplas offers free waste testing: send 5–10 kg of mixed waste samples for lab-scale processing to determine optimal line design, recovery rate, and pellet quality—ensuring the line meets your quality requirements before purchase.
7.2 Evaluate Production Volume & Speed Requirements
Production volume dictates line capacity: a small facility processing 50 tons/year needs a 100–300 kg/h line, while a large plant processing 5000 tons/year requires a 1500+ kg/h line. Oversizing leads to high energy costs (OEE < 60%), while undersizing causes bottlenecks and missed revenue opportunities.
7.3 Collaborate with Wanplas Engineering Team
Wanplas assigns a dedicated engineering team to each custom project, providing 3D line drawings, process flow diagrams, and cost estimates within 10 business days of initial consultation. Customers can request modifications (e.g., adding a water recycling module, upgrading to fully automated sorting) before finalizing the order to align with long-term sustainability goals.
7.4 Factory Acceptance Testing (FAT) & Sample Validation
Wanplas conducts FAT for all custom lines: customers witness the line processing their mixed waste sample and verify key metrics (recovery rate, contamination level, pellet size). This ensures the line meets specifications before delivery, reducing post-installation rework costs by 80%.
After FAT, Wanplas provides 50–100 kg of recycled pellets for customer testing (e.g., injection molding trials, quality certification), critical for high-value applications like automotive or food packaging.
8. Maintenance & Operational Best Practices
8.1 Routine Maintenance Schedule
To maximize line lifespan (10–15 years), follow this maintenance schedule:
- Daily: Check shredder blade alignment, washing system water level, and pelletizer temperature; clean NIR sensors to prevent contamination buildup.
- Weekly: Inspect conveyor belts for wear, lubricate sorting system motors, and replace washing system filters.
- Monthly: Calibrate NIR sensors, check extruder screw for damage, and test emergency stop systems.
- Annual: Overhaul shredder drive system, replace pelletizer screens, and validate all safety systems (e.g., fire suppression for pelletizing).
8.2 Wear Part Replacement Cycles
Replacement intervals depend on waste type:
- Agricultural/Consumer Waste (low abrasion): Shredder blades – 12–18 months; screens – 8–12 months; belts – 18–24 months.
- Industrial/Automotive Waste (high abrasion): Shredder blades – 6–12 months; screens – 4–8 months; belts – 12–18 months.
- Medical Waste (compliant processing): Shredder blades – 18–24 months (stainless steel); screens – 12–18 months; belts – 24 months (FDA-approved materials).
Wanplas offers 12-month warranties on wear parts and 10–15% discounts on bulk orders, reducing annual replacement costs by $1,500–$4,000.
8.3 Troubleshooting Common Issues
Common issues with mixed waste recycling lines:
- Low sorting accuracy: Caused by dirty NIR sensors or incorrect algorithm settings – clean sensors or recalibrate sorting parameters.
- Clogged pelletizer: Caused by oversized plastic flakes or contaminated wash water – adjust shredder blade spacing or increase washing time.
- High contamination in pellets: Caused by incomplete washing or sorting errors – add a second washing stage or revalidate NIR sensor calibration.
- Pellet quality issues (bubbles): Caused by high moisture content – increase drying time or check vacuum degassing system for leaks.
Wanplas provides a detailed troubleshooting guide with each line and 24/7 technical support (response time <4 hours) for urgent issues.
9. Future Trends in Custom Plastic Recycling for Mixed Waste
Wanplas invests 20% of annual revenue in R&D to develop next-generation custom recycling lines, focusing on three key trends:
9.1 Smart Sorting (AI + IoT Integration)
Wanplas is integrating advanced AI algorithms (machine learning) into sorting systems to adapt to new mixed waste types (e.g., biodegradable plastics mixed with conventional plastics) in real time. The AI system learns from processing data to improve sorting accuracy by 5–10% over time and predicts maintenance needs (e.g., blade wear) to reduce unplanned downtime by 50%. This smart upgrade costs $20,000–$30,000 for existing lines.
9.2 Carbon-Neutral Recycling
To meet global net-zero goals, Wanplas is developing custom lines powered by renewable energy (solar/wind) and integrating carbon capture systems for pelletizing emissions. These lines reduce carbon footprint by 60–70% compared to standard lines and qualify for sustainability tax incentives (e.g., EU Emissions Trading System credits). A carbon-neutral 1000 kg/h line costs $250,000–$350,000 (10–15% premium over standard lines) with an ROI of 18–24 months (due to tax savings).
9.3 Miniaturized/Mobile Custom Recycling Lines
Wanplas is developing compact, mobile custom lines (processing capacity 50–200 kg/h) for on-site waste processing (e.g., farms, retail stores, manufacturing facilities). These lines fit in a standard shipping container, require no permanent installation, and process mixed waste into pellets on-site—eliminating transportation costs. A mobile 100 kg/h line costs $50,000–$80,000, ideal for small businesses and rural communities.
10. Conclusion
Custom plastic recycling lines for mixed waste materials are critical to unlocking the full potential of the circular economy, converting low-value mixed plastic waste into high-value recycled pellets. Wanplas’ custom lines are engineered to address the heterogeneity of mixed waste, with tailored sorting, shredding, and pelletizing systems that deliver high recovery rates (80–90%), low contamination (<5%), and energy-efficient operation—all at a competitive price point vs. global competitors.
Investing in a Wanplas custom recycling line is a sustainable and profitable decision: it reduces landfill waste, complies with global regulations, and generates recurring revenue from recycled pellets. The ROI for most lines ranges from 9 to 30 months, driven by high recovery rates, low operational costs, and growing demand for recycled plastic materials. As global plastic waste regulations tighten and recycled content targets increase (e.g., EU’s 30% recycled plastic in packaging by 2030), partnering with Wanplas ensures access to cutting-edge custom recycling technology, comprehensive support, and flexible pricing to meet evolving market needs.
To learn more about Wanplas custom plastic recycling lines for mixed waste materials, visit www.wanplas.com or contact the Wanplas sales team for a free waste testing service and custom quote. Whether you are a small agricultural cooperative or a large global recycling plant, Wanplas has the expertise to design a custom recycling solution that matches your waste composition, capacity needs, and sustainability goals.
