The Thermeleon Heat Battery paves the way for Sustainable Cultivation
HOW TO CULTIVATE ENERGY EFFICIENTLY?
The Thermeleon Heat Battery enhances the energy efficiency of greenhouses. By strategically storing excess heat during the day, this product provides sustainable heating at night. This leads to a significant reduction in energy demand and a more sustainable greenhouse.
A TAILOR-MADE PRODUCT
The product is fully customizable for any greenhouse size and type. In collaboration with the grower, we create a tailored solution: with the appropriate dimensions, pricing, and corresponding energy savings.
Ideal for any grower looking to use energy more efficiently—without sacrificing productivity.
The Thermeleon Heat Battery
Our product offers three key advantages that enhance greenhouse efficiency
Sustainable Cooling & Heating
Heating and cooling energy costs are reduced by 15-30%. By strategically storing excess heat during the day, it delivers sustainable cooling by day, and sustainable heating by night. We tailor the system characteristics to your cultivation strategy, in order to realise optimal energy efficiency. The passive system does not require energy (gas, or electricity) to operate, resulting in no operating costs.
Reduction of CO2 used for crop growth
The use of the Heat Battery significantly reduces the need for window ventilation, allowing valuable CO2 to be retained within the greenhouse. By this, growers can maintain higher levels of carbon dioxide, which is essential for optimal plant growth and photosynthesis.
This reduction in ventilation not only enhances resource management but also leads to substantial cost savings. With less CO2 needing to be supplemented, growers can reduce their expenses while simultaneously increasing the efficiency of their operations.
Optimal temperature, reducing crop heat & cold stress
The Heat Battery ensures a more stable greenhouse climate, and crops throughout the greenhouse will experience less heat and cold stress. This optimal temperature supports efficient photosynthesis, water and nutrients uptake and increased crop growth. A more stable climate also derisks cultivation, making the greenhouse better equipped for more flexible use of CHP, extreme weather and cultivation mistakes.
With Additionally, with improved climate homogeneity, cultivation can be further optimized at higher relative humidity (RH). This leads to enhanced crop quality with minimal energy loss.