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"Start Capturing Carbon Today for a Sustainable Tomorrow"

Microalgae-Based Carbon Capture Technology

To provide an alternative, sustainable, and cost-effective solution for carbon capture technologies, we harness microalgae, the oldest-known CO2/O2 converters in nature. Utilizing a specialized lighting system in our bioreactor, we enhance photosynthetic efficiency and efficiently eliminate carbon dioxide emissions from industrial flue gases. Additionally, we add value by developing microalgae grown in the bioreactor for various applications, such as bioplastics, animal feed, and the supplement food industry

The technology of combating the climate crisis in three steps

Breathe life into tomorrow's green technology that respects nature with a microalgae-based carbon capture bioreactor.

1. Microalgae-Based Photo-Bioreactor

Microalgae, generated as a result of industrial applications, is cultivated in specialized production units called photo-bioreactors to eliminate emitted carbon dioxide. With our product, which enhances photosynthetic efficiency to maximize carbon dioxide sequestration, we serve the following areas:
  • Combatting carbon emissions from industrial production

  • Achieving the 2050 net-zero carbon target under the Green Deal

  • Establishing a bio-circular economy model

  • Meeting the demands of green consumers within the scope of sustainability

photo-bioreactor
photo-bioreactor

2. Special Optical Design

To enhance the efficiency of photosynthesis and carbon sequestration, we maximize illumination within the bioreactor and distribute light uniformly throughout the system. We achieve this through an unparalleled optical design using luminescent panels.

3. Microalgae-Based Composite Materials

We conduct composite material studies in the fields of supplements, textiles, animal feed, and bioplastics using the microalgae biomass grown in the bioreactor. In doing so, our aim is to be a leading company in the fight against climate change by creating a sustainable and circular green economy, while efficiently sequestering carbon for extended periods
biocomposite material
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