Carbon Capture

right here, right now.

Direct Carbon provides cities and industries with technology and products for carbon capture. Utilizing CO2 from indoor as well as outdoor air.

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The separation of CO2 from any kind of air flow allows Direct Carbon to apply the technology to a range of different industries. Products removing CO2 and products producing highly sustainable CO2.
What can this mean for you and your industry?

Making indoor

Direct Carbon provides indoor farms with sustainable CO2-enrichment. We do this by providing you with an easy, low-maintenance product, which will make your operations more sustainable and increase your yield at the same time.

Carbon Direct is the next step in indoor farming

The stand-alone product allows you to capture and utilize CO2 from ambient air or from an HVAC-system in order to enhance the growing process of your plants. Combined with smart algorithms, greenhouse climate control becomes fully automated and will lower the energy consumption of up to 50 %.

CO2-removal for indoors

Direct Carbon’s carbon capture has been designed for indoor environments where CO2 is captured from the building, in order to create better indoor air quality. Traditional ventilation relies on fresh air from the outside, which creates a challenge when ambient air is polluted and even harmful. 

By introducing carbon capture for buildings, Direct Carbon creates new opportunities for safe indoor environments and circular economy within buildings.

Maximize yield and save time

In vertical farming, a correct air circulation rate in a closed system is critical to prevent stratification, stagnant air pockets and to ensure that the crop is not subject to excessively hot or cold draughts of air from the air conditioning.

Specific rates of air exchange are necessary to provide optimal growth. Climate uniformity is a vital factor for success.

Direct Carbon’s smart optimization algorithm uses data analytics, artificial intelligence, and machine learning for climate control and optimization of vapor pressure deficit (VPD). Real-time optimization is done by using the input from sensors for temperature, humidity, soil moisture, and root temperature, also based on plant physiology, and photosynthetic active radiation (PAR).

This service is already implemented in buildings owned by some of the largest real estate companies globally. It’s easily integrated into any BMS and controls the indoor air quality in a safe and sustainable way with energy savings of up to 50 %.

Carbon Capture and Climate Control

Commercial Greenhouse Farming

  • Integration to existing climate control system
  • Optimization of existing climate control hardware
  • CO2 captured from ambient air and released inside the greenhouse
  • The Vapor Pressure Deficit is constantly monitored with data-driven optimization

Indoor farm connected to a building (Retail, Office, Residential)

  • Integration to existing BMS
  • Optimization of the building’s HVAC-system
  • CO2 captured from return air and released inside the farm
  • The Vapor Pressure Deficit is constantly monitored with data-driven optimization