Overview

STERCORE represents a breakthrough initiative in the field of sustainable waste valorisation. The company applies innovative, technical, and eco-efficient processes in collaboration to achieve significant CO₂ reduction by converting renewable organic residues into high-quality organic fertilizers and green energy.

The core philosophy of Stercore is to create a balance between ecology, economy, and society by utilizing animal manure—one of the most abundant renewable organic resources available globally—as a valuable raw material.

Enecovery Waste Solutions Pvt. Ltd., in collaboration with Stercore Systems B.V. (Netherlands), is executing its first international project in the Netherlands for reforming animal manure into Bio-Based Carbon and green gas. The produced green gas will be fed directly into the local gas grid, while the Bio-Based Carbon will serve as a high-value organic fertilizer and soil conditioner, effectively reducing dependence on chemical fertilizers and enhancing soil health.

Project Overview

Enecovery has custom-engineered a 72 Tons Per Day (TPD) Waste-to-Energy plant for Stercore, based on its proprietary Thermo-Catalytic Conversion (TCC) technology.

The project is designed to:

• Convert organic manure into clean, renewable energy and bio-based carbon.
• Eliminate the environmental impact associated with animal waste management.
• Achieve a Negative Carbon Footprint (CFT)—making it one of the world’s first large-scale carbon-negative manure conversion plants.

Once commissioned, the facility will offset approximately 100 million kilograms of CO₂ annually, contributing significantly toward Net-Zero and climate-positive goals.

In addition to producing green gas, the system enables further conversion of this gas into value-added sustainable derivatives, such as methanol, expanding its environmental and economic benefits.

Key Benefits

• Total Waste Processed: 72 tons of organic manure per day.
• Carbon Footprint Reduction: Achieves a negative Total Carbon Footprint (CFT) equivalent to approximately 100 million kg of CO₂ offset annually.
• Emission Control: The Thermo-Catalytic Conversion (TCC) process ensures no dioxins, furans, or toxic emissions, with all parameters maintained well below international permissible limits.
• Energy Efficiency: Enables energy recovery and reuse of by-products, fostering a circular resource economy and maximizing system sustainability.
• Operational Sustainability: Designed for low maintenance, zero effluent discharge, and continuous environmental compliance under European operational standards.
• Socio-Economic Impact: Generates local employment, promotes regional energy independence, and contributes to the preservation of local flora and fauna through responsible resource management.

Strategic Significance

The plant is expected to be installed by September 2026.

The project marks a transformational step for Enecovery in entering the European renewable energy and bio-carbon market. It demonstrates the scalability and adaptability of TCC technology for agri-industrial applications, positioning both companies at the forefront of the bio-based circular economy.

By integrating sustainability with innovation, the project showcases how waste can be redefined as a resource, driving climate resilience, soil regeneration, and clean energy generation—a true model for carbon-negative industrial ecosystems of the future.