Modular industrial platform for controlled thermal waste processing and scalable infrastructure deployment.
Eco Recycling Energy (E.R.E.) is a modular industrial platform for controlled thermal waste processing with simultaneous generation of thermal and electrical energy and recovery of valuable secondary products. The project addresses a core infrastructure challenge: environmentally safe and economically sustainable treatment of complex and hazardous waste streams.
The pilot module, designed with a capacity of up to 24 tons per day, serves as a validation stage for technological and operational performance under real industrial conditions. The architecture is modular by design, enabling phased expansion while preserving core engineering integrity.
Controlled Thermal Decomposition
Processing occurs in an oxygen-limited or inert environment where organic materials decompose into combustible gases, liquid hydrocarbon fractions, and carbon-rich residues. Part of the generated energy supports internal operations, while surplus output may be directed toward external use.
Integrated Process Architecture
The system incorporates feedstock preparation, thermal processing, multi-stage gas cleaning, and energy recovery within a unified technological framework.
Feedstock Flexibility
The platform is designed to process a broad spectrum of waste types, including municipal waste, plastics, rubber, sewage sludge, medical and hazardous waste, and selected industrial residues. Output parameters depend on feedstock characteristics and are determined through material analysis.
EU Regulatory Alignment
Proprietary and patented engineering solutions, including advanced emission control systems, are designed to ensure adherence to applicable European environmental standards.
Operational Maturity
A functioning prototype operating within the European Union confirms industrial feasibility and technological maturity, supported by independent technical evaluation.
Eco Recycling Energy is structured as a long-term infrastructure platform. The pilot facility forms the foundation for the gradual development of an engineering and technology center focused on modular unit deployment and operational support.
Complementary directions, including logistics integration and service capabilities, are envisioned to enhance operational resilience and diversify long-term revenue exposure.
Through scalable deployment, engineering integration, and controlled energy recovery, the platform positions itself as an infrastructure-oriented industrial solution designed for sustainable long-term development.