Synergies of Bionic µFuel & µSoil
Bionic µFuel and µSoil combine climate protection, energy efficiency, and circular economy in an integrated system. Industrial residues and organic materials are converted into energy, high-quality carbon products, and stable fertilizers – with clearly measurable climate impact and additional revenue potential, including through CO₂ removal.
At the same time, µFuel and µSoil reduce NH₃ and N₂O emissions in agriculture and support key objectives of the EU Green Deal, the Circular Economy, and security of supply in energy and fertilizers. The technologies create measurable synergies between industry, agriculture, policy, research, and mechanical engineering.
CO₂ Sink
Permanent CO₂ removal through biochar/µSoil with certifiable carbon removal credits.
NH₃ & N₂O Saving
Low-emission fertilizer systems that significantly reduce ammonia and nitrous oxide emissions.
Energy & Storage
Pyrolysis oil, gas, and char as flexible energy source and component for power-to-oil concepts.
Industry & Licenses
Building new mechanical engineering ecosystems with local manufacturing and export potential.
More Harvest, Less Watering: How µSoil with Specialized Bionic Biochar Could Revolutionize the Future of Agriculture
Farmers worldwide face a growing challenge: climate change is leading to more frequent droughts and water scarcity, while the global population—and with it, the demand for food—continues to rise. How can we keep plants healthy and productive when water is scarce or irrigation needs to be reduced? A scientific study now provides impressive answers, pointing to a promising path for the future of agriculture. The results confirm that the combination of nutrient-rich µSoil and a specialized biochar from the Bionic µFuel process is the key to more resilient plants.
Based on a comprehensive plant trial conducted at Mendel University in Brno (Faculty of AgriScience), we summarize here why this mixture is far superior to conventional substrates and what this could mean for agriculture.
Bionic µSoil – Fertile Soils for Future Generations
Arable soil is a limited and fragile resource. Erosion, over-cultivation, climate change and the intensive use of synthetic fertilizers have led to compaction, nutrient imbalances and humus loss in many regions. At the same time, large quantities of slurry, manure and other organic residues accumulate, which are often insufficiently utilized or cause additional environmental problems.
The Bionic µSoil system addresses this dual challenge: It links the use of biogenic residues with the targeted production of a highly effective soil enhancer inspired by the legendary South American Terra Preta. According to Bionic, it is a profitable system that transforms biogenic input materials into usable energy carriers and an organic fertilizer – while functioning simultaneously as a CO₂ sink.