Technology
The Plastic Waste Crisis
Plastic waste is one of the biggest environmental challenges of our time. Every year, millions of tons of plastic are produced, but over 90% is never recycled. Instead, it ends up in landfills, incinerators, or polluting our oceans, threatening ecosystems and human health.
Why Traditional Recycling Fails
- Limited Recycling CapabilitiesMost systems can’t handle mixed and contaminated plastics effectively.
- High Costs & InefficienciesSorting, processing, and logistics make traditional recycling expensive and unsustainable.
- Downcycling, Not RecyclingMany plastics degrade in quality after being recycled, limiting their reuse potential.
- Reliance on Virgin PlasticsCheap fossil-based plastics dominate the market, reducing demand for recycled materials.
The Urgent Need for Innovation
We can’t solve today’s waste crisis with yesterday’s solutions. The world needs a scalable, cost-effective, and sustainable way to transform plastic waste into valuable resources—and that’s exactly what we’re building.
💡 It’s time to rethink plastic waste. Let’s turn the problem into an opportunity. 🚀
💡 It’s time to rethink plastic waste. Let’s turn the problem into an opportunity. 🚀
What We Have Developed:
Modular Chemical Recycling Plant for High-Quality Hydrocarbons
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Fast-Assembling Modular Chemical Plant• Plug-and-play design enables rapid deployment and scalability.
• Modular units can be installed anywhere with plastic waste, reducing logistics costs.
• Quick assembly minimizes capital expenditure and downtime. -
Advanced Chemical Recycling Technology• Converts mixed and contaminated plastic waste into high-quality hydrocarbon products.
• No need for complex sorting, making recycling more efficient and cost-effective.
• Outputs commercial-grade products suitable for reuse in petrochemical and industrial applications. -
Scalable & Decentralized Approach• Operates efficiently at various scales, from urban centers to industrial zones.
• Deployable near waste sources, reducing transportation costs and emissions.
• Scalable network of units can be expanded based on demand. -
Sustainable & Economically Viable• Produces high-value recycled hydrocarbons, making the business model profitable.
• Reduces reliance on virgin fossil fuels, supporting sustainability goals.
• Aligns with government regulations and circular economy initiatives. -
Industry-Ready & Future-Proof• Provides reliable, commercially viable alternatives to traditional recycling.
• Supports various industries: petrochemicals, manufacturing, and energy sectors.
• Future-proof design allows for adaptation to evolving waste management needs.
Chemical recycling
Chemical recycling consists of a set of processes and technologies that convert plastic waste into its original monomers or other valuable chemicals through chemical reactions. Unlike mechanical processing, which physically alters plastic, chemical processing breaks down polymers at the molecular level, allowing for the recovery of high-purity raw materials.
This method enables the processing of mixed, contaminated, and difficult-to-recycle plastics that are unsuitable for mechanical processing. Chemical recycling technologies include pyrolysis, gasification, depolymerization, and solvolysis, among others. These processes provide a sustainable solution for managing plastic waste, reducing landfill use, and promoting a circular economy by enabling the continuous reuse of plastic materials.
This method enables the processing of mixed, contaminated, and difficult-to-recycle plastics that are unsuitable for mechanical processing. Chemical recycling technologies include pyrolysis, gasification, depolymerization, and solvolysis, among others. These processes provide a sustainable solution for managing plastic waste, reducing landfill use, and promoting a circular economy by enabling the continuous reuse of plastic materials.
Have questions? Want to collaborate? Let’s connect and shape the future of sustainable plastic recycling together! ♻️ 🌍