Sustainable Green Solutions

Transforming municipal green waste into biochar through innovative, localized carbonization protocols and predictive frameworks.

Sustainable Green Waste Solutions

We convert landscaping residues into biochar, optimizing carbonization through real-time data to enhance sustainable municipal green waste management.

A person is placing pieces of charcoal into a metal container with a small flame visible among the charcoal. The person's hand is smudged with black soot, indicating they have been handling the charcoal. The background is blurred, suggesting a busy environment.
A person is placing pieces of charcoal into a metal container with a small flame visible among the charcoal. The person's hand is smudged with black soot, indicating they have been handling the charcoal. The background is blurred, suggesting a busy environment.
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A collection of black charcoal pieces with scattered, thin, light brown twigs or dried grass strands intertwined among them, creating a contrast against the dark background.
A collection of black charcoal pieces with scattered, thin, light brown twigs or dried grass strands intertwined among them, creating a contrast against the dark background.
A row of green waste bins is aligned on the edge of a paved area next to a grassy slope. Above the slope, a tall communication tower is visible against a clear blue sky. A small white building with ventilation gratings is situated to the left.
A row of green waste bins is aligned on the edge of a paved area next to a grassy slope. Above the slope, a tall communication tower is visible against a clear blue sky. A small white building with ventilation gratings is situated to the left.

Our Mission Statement

We aim to validate decentralized systems for biochar production, addressing challenges of inconsistent data and providing tailored processing instructions for municipalities.

Sustainable Waste Management

Transforming municipal green waste into biochar through innovative, localized carbonization protocols and predictive frameworks.

Optimized Carbonization Process

Utilizing real-time data to enhance carbonization conditions for effective biochar production from landscaping residues.

A scene of outdoor debris featuring a charred log and scattered wooden planks lying on the ground. The setting is surrounded by greenery, with leaves and shrubs visible in the background. A discarded plastic bottle is lying on the ground among a mix of natural and human-made materials.
A scene of outdoor debris featuring a charred log and scattered wooden planks lying on the ground. The setting is surrounded by greenery, with leaves and shrubs visible in the background. A discarded plastic bottle is lying on the ground among a mix of natural and human-made materials.
Site-Specific Solutions

Addressing challenges of inconsistent sensor data to provide tailored processing instructions for green waste management.

Evaluating system performance in handling conflicting metrics for efficient biochar production from diverse biomass types.

Data-Driven Insights
A pile of black charcoal is glowing with red embers in an outdoor grill. The charcoal pieces are arranged in a pile, indicating they might be ready for cooking. In the background, there is a blurred view of greenery, possibly a garden, with soft lighting suggesting a calm day.
A pile of black charcoal is glowing with red embers in an outdoor grill. The charcoal pieces are arranged in a pile, indicating they might be ready for cooking. In the background, there is a blurred view of greenery, possibly a garden, with soft lighting suggesting a calm day.
A single vibrant green plant with multiple leaves emerging from a background of dark charred wood pieces, creating a striking contrast between life and decay.
A single vibrant green plant with multiple leaves emerging from a background of dark charred wood pieces, creating a striking contrast between life and decay.