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Engineered to needs

Numbers about our products

In nature, trees play a crucial role in absorbing carbon dioxide. But let's delve deeper into what our photobioreactor can offer.

Behold our 500,000-liter photobioreactor. When compared with the carbon dioxide absorption capacity of an average human - 400,000 kg per year - the potential becomes evident.

To match the CO2 sequestration capacity of our photobioreactor, you would need approximately 150 square kilometers of forest.

Our innovative solution offers an efficient and scalable way to combat CO2 emissions, contributing to a healthier planet for generations to come.

Basic functioning

We pump high concentrated CO2 in the photobioreactor and use artificial lights to let the algae grow as fast as possible. To improve the process the number of algae have to be limited with the use of a sedimentator that separates the biomass from water. The biomass can be then used in several ways, the one we love is to produce biomethane, in this way we can create value and achieve true circular economy.

A bio inspired approach

A photosynthesis on steroids

In an innovative approach to harness the power of nature, we created a modern algae cultivation system that employ photobioreactors that utilize artificial lights and high concentrations of CO2 to accelerate the growth rate of algae.

In nature, this process primarily occurs through slow photosynthesis, where plants and algae absorb CO2 from the atmosphere and convert it into organic matter, releasing oxygen as a byproduct.Our system optimize the photosyntesis to maximize the biomass and the CO2 fixation rate.

Results

These organisms can efficiently use sunlight and CO2 through photosynthesis with a much higher growth rate and 10–50 times higher carbon fixation capacity than that of terrestrial plants.

Our system can increase this rate up to 500%.