Urban CCUS Infrastructure with AlgaeTree™

AlgaeTree™ delivers a next-generation biological CCUS (Carbon Capture, Utilization & Storage) system designed for urban and industrial environments.

Using advanced microalgae photobioreactor technology, AlgaeTree captures atmospheric CO₂ directly from polluted environments such as roads, highways, industrial zones, and dense urban areas.

Each AlgaeTree unit continuously absorbs carbon dioxide through photosynthesis while releasing oxygen back into the surrounding atmosphere — creating living carbon sinks within city infrastructure.

Urban CCUS Infrastructure with AlgaeTree™

AlgaeTree™ delivers a next-generation biological CCUS (Carbon Capture, Utilization & Storage) system designed for urban and industrial environments.

Using advanced microalgae photobioreactor technology, AlgaeTree captures atmospheric CO₂ directly from polluted environments such as roads, highways, industrial zones, and dense urban areas.

Each AlgaeTree unit continuously absorbs carbon dioxide through photosynthesis while releasing oxygen back into the surrounding atmosphere — creating living carbon sinks within city infrastructure.

AlgaeTree unit illuminated on a city street at night

Advanced MicroalgaeCarbon Capture forUrban Emission Sources

Unlike traditional CCUS systems designed only for large industrial plants, AlgaeTree™ enables distributed carbon capture networks that operate directly within cities.

The system combines microalgae bioreactors, air filtration, environmental sensors, and renewable energy to capture carbon while improving urban air quality.

A single AlgaeTree™ unit can capture approximately ~700 kg of CO₂ per year while releasing up to ~1 ton of oxygen, helping reduce pollution where people live and work.

This approach allows cities to integrate carbon capture into roads, highways, smart city infrastructure, and public spaces without requiring massive industrial facilities.

Advanced MicroalgaeCarbon Capture forUrban Emission Sources

Unlike traditional CCUS systems designed only for large industrial plants, AlgaeTree™ enables distributed carbon capture networks that operate directly within cities.

The system combines microalgae bioreactors, air filtration, environmental sensors, and renewable energy to capture carbon while improving urban air quality.

A single AlgaeTree™ unit can capture approximately ~700 kg of CO₂ per year while releasing up to ~1 ton of oxygen, helping reduce pollution where people live and work.

This approach allows cities to integrate carbon capture into roads, highways, smart city infrastructure, and public spaces without requiring massive industrial facilities.

Why AlgaeTreeCarbon Captureis Different

Low Energy Operation

Biological photosynthesis replaces energy-intensive chemical capture processes.

IntelligentEnvironmental Monitoring

AI-assisted sensors track CO₂ levels, particulate pollution, and system performance.

ScalableDistributed Networks

Multiple units can form city-wide carbon capture systems.

Urban Infrastructure Integration

Deployable across roads, highways, public spaces, and industrial zones.

ContinuousCarbon Capture

Microalgae absorb carbon dioxide continuously during system operation.

Oxygen Generation

Carbon capture simultaneously produces oxygen through natural biological processes.

Why AlgaeTreeCarbon Capture is Different

Low Energy Operation

Biological photosynthesis replaces energy-intensive chemical capture processes.

IntelligentEnvironmental Monitoring

AI-assisted sensors track CO₂ levels, particulate pollution, and system performance.

ScalableDistributed Networks

Multiple units can form city-wide carbon capture systems.

Urban Infrastructure Integration

Deployable across roads, highways, public spaces, and industrial zones.

ContinuousCarbon Capture

Microalgae absorb carbon dioxide continuously during system operation.

Oxygen Generation

Carbon capture simultaneously produces oxygen through natural biological processes.

Urban CarbonCapture Applications

Roads & Traffic Corridors

Capture carbon emissions from vehicles across busy city roads and intersections.

Highways & Transport Networks

Reduce pollution along high-traffic highways and logistics corridors.

Industrial Zones

Support carbon reduction near manufacturing plants, refineries, and industrial parks.

Smart City Infrastructure

Integrate AlgaeTree™ systems into smart city climate and sustainability initiatives.

Public Spaces & Campuses

Deploy in parks, public plazas, and university campuses to improve urban air quality.

Urban CarbonCapture Applications

Roads & Traffic Corridors

Capture carbon emissions from vehicles across busy city roads and intersections.

Highways & Transport Networks

Reduce pollution along high-traffic highways and logistics corridors.

Industrial Zones

Support carbon reduction near manufacturing plants, refineries, and industrial parks.

Smart City Infrastructure

Integrate AlgaeTree™ systems into smart city climate and sustainability initiatives.

Public Spaces & Campuses

Deploy in parks, public plazas, and university campuses to improve urban air quality.

EnvironmentalImpact

Carbon Capture

~1.5 kg

CO₂ Captured Per Year per activeunit.

Oxygen Output

~1 Ton

Oxygen Released Per Year backinto city air.

Filtration

45-70%

Reduction of PM2.5 and PM10pollutants.

Air Quality

AQI+

Measurable local improvement indense zones.