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    Transform Plastic Waste into Green Gold
    A New Path to Low-Carbon Circular Economy

    Using advanced pyrolysis technology to convert plastic waste into renewable oil, achieving dual goals of circular economy and carbon reduction.

    AL

    Alan Liang

    Pacific Region Senior Vice President

    Plastic recycling
    >8M tons
    Taiwan Annual Plastic Waste
    400M tons
    Global Waste Recycling <10%
    >2,000kg
    CO₂ Reduction per Ton
    78%
    Carbon Reduction via Recycled Oil

    Global Plastic Crisis

    Scale and Urgency of the Problem

    Plastic pollution has become one of the world's most severe environmental challenges, generating hundreds of millions of tons of waste annually.

    400M+ tons
    Global Annual Plastic
    8M tons/year
    Ocean Plastic Waste
    <10%
    Traditional Recycling
    8M tons/year
    Taiwan Plastic Waste

    Our Solution

    Core Features of Pyrolysis Technology

    Using anaerobic heating pyrolysis technology to efficiently convert plastic waste into high-quality renewable oil.

    Anaerobic Heating

    High-temperature decomposition in oxygen-free environment prevents harmful gas generation

    Catalyst Tower System

    Patented catalyst technology enhances oil quality and yield

    24/7 Continuous Operation

    Fully automated system ensures stable and efficient production

    Modular Design

    Flexible scalability adapts to different capacity needs

    Smart Monitoring

    Real-time system parameter monitoring ensures optimal operation

    Eco-Friendly

    Waste gas treatment system meets zero-emission standards

    Process Flow

    1

    Plastic Pre-treatment

    Crushing, washing, sorting

    2

    Pyrolysis Reaction

    400-500°C anaerobic decomposition

    3

    Catalytic Refining

    Patented catalyst tower processing

    4

    Oil Collection

    Condensation and separation

    5

    Quality Testing

    CNS standard compliance

    ESG Benefits

    Carbon Reduction Comparison Analysis

    Compared to traditional disposal methods, pyrolysis technology significantly reduces carbon emissions.

    Carbon Emission Comparison (kg CO₂/ton)
    Landfill2500 kg
    Incineration2200 kg
    Traditional Recycling800 kg
    Pyrolysis200 kg
    78%

    Carbon Reduction

    vs Incineration

    85%+

    Energy Recovery

    Energy Conversion Efficiency

    100%

    Land Conservation

    Zero Landfill Required

    Closed Loop

    Circular Economy

    Complete Resource Circulation

    Materials & Regulations

    Acceptable Materials and Restrictions

    Processable Plastics

    Polypropylene (PP)

    Food containers, fibers

    Polyethylene (PE)

    Plastic bags, packaging film

    Polystyrene (PS)

    Styrofoam, utensils

    Nylon

    Fibers, engineering plastics

    EVA

    Foam materials, adhesives

    Restrictions
    PVC Content
    Forbidden
    PET/PVC
    ≤5%
    Impurities
    ≤15%
    Moisture
    ≤5%
    Size
    ≤10×5cm

    Outputs & Applications

    Product Composition and Specifications

    Diesel-Grade Recycled Oil
    60-65%
    Sulfur Content:<50 ppm
    Cetane Number:~60
    Heating Value:~11,100 Kcal/kg

    Applications:

    Industrial Boilers
    Generators
    Marine Fuel
    Heating Equipment
    Light Fuel Oil
    20-25%

    Applications:

    Chemical Raw Materials
    Fuel Additives
    Asphalt Solvents
    Syngas
    10-15%

    Applications:

    Self-Power Generation
    Heat Recovery
    Carbon Residue
    5-8%

    Applications:

    Building Material Additives
    Activated Carbon Production

    Energy Industry

    Chemical Manufacturing

    Transportation & Logistics

    Construction Engineering

    Process & Equipment

    Modular Design and Capacity Planning

    Modular Advantages
    • Flexible capacity expansion
    • Lower initial investment
    • Rapid deployment
    • Optimized maintenance costs
    Capacity Planning
    Annual Capacity~9,500 tons/year
    Equipment10 pyrolysis furnaces
    Operation24/7 continuous operation
    Efficiency85%+ efficiency

    Pre-treatment System

    Crushing, washing, drying

    Feeding System

    Automated continuous feeding

    Furnace Array

    10 pyrolysis reactors

    Catalyst System

    Patented catalyst tower

    Condensation System

    Oil condensation and collection

    Exhaust Treatment

    Environmental emission system

    Control System

    Intelligent central control

    Energy Strategy

    Active Renewable Energy vs Passive Renewable Energy

    Utilizing recycled oil for self-power generation to achieve energy self-sufficiency and stable supply.

    Active Renewable Energy (Pyrolysis)

    Power Generation

    1L ≈ 4kWh

    Operation Mode

    24/7 Stable

    Energy Independence

    100% Self-sufficient

    Weather Independent

    All-weather Operation

    Advantages:

    • Stable power supply unaffected by weather
    • Dispatchable to meet demand
    • Simple storage (oil storage)
    • Baseload power source

    Credibility & Certification

    Patents and International Recognition

    Taiwan Invention Patent
    Pyrolysis technology certified by Taiwan patent
    • Patent No.: I-728850
    • Validity: 20 years
    • Comprehensive technology protection
    Third-Party Testing
    Can replace fossil fuels
    • Certified by Shell, SABIC and other major companies
    • Diesel-grade light fuel
    • Realizing circular economy
    International Visits
    Hosted representatives from multiple governments and enterprises
    • US Department of Energy
    • Japan Ministry of Environment
    • EU Delegation
    • Southeast Asian Governments

    Cooperation Themes

    Diverse Cooperation Models

    Waste-to-Energy Partnership
    Establishing plastic waste supply chain and energy product sales
    Plastic recycling companies
    Sanitation teams/EPAs
    Industrial park authorities
    Energy distributors
    Low-Carbon Material Chain
    Building low-carbon material circular supply chain
    Manufacturing (plastic raw materials needed)
    Petrochemical industry
    Transportation industry
    Green procurement enterprises
    Application Field Expansion
    Developing diverse applications for recycled oil
    Industrial boiler operators
    Power plants
    Shipping industry
    Chemical plants
    Testing & Exchange
    Technology verification and experience sharing
    Academic research institutions
    Testing and certification bodies
    Government research projects
    Industry associations
    Pacific Region Senior Vice President
    AL

    Alan Liang

    Pacific Region Senior Vice President

    Frequently Asked Questions

    FAQ