Carbon capture technology

SYKLEA process, a new brick after capture : C02 to fuel

Industrial facilities emit continuous streams of carbon dioxide under real operating constraints. Syklea develops microalgae-based industrial CO₂ capture systems that directly integrate with exhaust streams and convert carbon into valuable outputs. Our approach bridges biological carbon capture with industrial deployment, enabling sites to reduce emissions while creating resource value from captured CO₂.

CCS/CCUS

THE ACTUAL CO2 CAPTURE PROCESSES

>  Energetic

>  Uncertain

>  Heavy water consumers

>  Subject to risk

STEP 1: CO2 CCV ANALYSIS

WE DECODE YOUR EMISSIONS

Industrial emissions Input

Smokestack emitting dark smoke, pointing to CO2 capture solutions.

Industrial smoke
Sampled at source

Pre-filtration gas conditioning

CO2 capture system: Blue tank with a black pipe leading to a green arrow indicating output.Temperature & particle control

Data collection & processing

CO2 graph on a monitor, representing carbon capture data and analysis.CO₂ concentration, gas mix profile, flow rate, pressure, etc

Treatment & industrial process

Blue gears interlocking, symbolizing mechanisms or processes related to CO2 capture.Biosynthesis parameters optimized to the gas stream

STEP 2: CO2 VALORISATION

WE CAN PRODUCE

Fuels
Biomass
Oxygen
Dry matter

Unlike storage-based solutions that generate no direct return, ALIUM produces value streams that offset costs and create profit potential. With an annual biomass yield of close to tons, the platform generates materials rich in proteins, lipids, and pigments that can be refined into products for specialty chemicals, bio-based industries, and sustainable agriculture. In addition, purified CO₂ can be supplied to commercial sectors such as greenhouses, beverage carbonation, and industrial processes.

Summary of Microalgae C02 CU Technologies

STATE OF THE ART