Technology G2-Next Gen

Responsive and intelligent design, the G2-Next Gen serves to increase the availability of high-quality biochar, meeting the requirements for various applications.

G2 Next generation

Game-changing technology

With five years of experience in the operation of the last models of the G1 series, the G2-Next Gen has been enhanced with pioneering features and an advanced internal structure.

This improved technology can better eliminate the presence of heavy metals and impurities in biochar, extract a wider range of biomass (type and quality) and significantly increase the porosity and internal surface area of biochar in the production process.

G2-Next Gen 100 Container Unit

The greatest advantages G2-Next Gen 100

Energy self-sufficiency

We are aware of the importance of using post-process gases in the production of renewable energy. The continuous production capacity of the G2-Next Gen model frees you from dependence on energy from fossil fuels. Using an energy efficient model, syngas is diverted to combustion; hot gases are used to activate biochar and processed in an energy recovery boiler to produce steam or hot water which is then used for various production purposes; e.g. pre-drying biomass, powering a small electric turbine and others.

Samowystarczalność energetyczna2-min
Różnorodna biomasa-min

Diverse biomass

Advances in the ability to process different biomass in reactors allow better control of the desired properties of the final product. Control of temperature, residence time and better internal raw material moisture management allows for a wider range of raw material types and qualities. This new range of acceptable raw materials is then processed to produce high-quality biochar. In addition to traditional wood-based and agricultural materials, raw materials can include municipal waste and residual sludge from sewage or fruit and vegetable pressing.

Reduced amount of impurities

Precise control of temperature and residence time facilitates additional release of light hydrocarbon gases during roasting. Additional exposure to hot exhaust gases during rapid heating in the activation phase further removes toxic elements such as cadmium and mercury from the biochar, resulting in biochar that has a higher carbon content and contains less impurities

Zmniejszona ilość zanieczyszczeń-min
Zaprojektowany z możliwością skalowania-min

Scalability

Designed to scale to operational requirements. Our G2-Next Gen reactor can typically process 12 tonnes of bio-based feedstock per day, producing 100 kg of biochar per hour of operation. This means an annual production capacity of 800 tons of high-carbon biochar.