Trade
Water
Energy
Agriculture
Food Security
Net-Zero GHG Emissions
WINNER: ‘Excellent Start-up Award’
Federation of Hong Kong Business Associations Worldwide
Leveraging our disruptive
innovations
through blockchain
for sustainable
global solutions
WINNER: ‘Top In Tech Awards’
Mississippi Business Journal
WINNER: ‘Exceptional Women of Excellence’
Women Economic Forum
Net-Zero Greenhouse Gas Emission Energy Generation
Modular designs and configurations allow
for system expansion as commercial opportunities develop.
Requirements for pre-processing of feed-stocks are greatly reduced because of our multi-cell material capacities and processing range with automated sequencing.
Once loaded and prepared, the feedstock cells are handled and coordinated through the process via our software-controlled pick & place cell manipulator.
Solutions to Reduce Global Greenhouse Gas Emissions, Net Zero CO2 Energy Generation, and Conversion
of
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Multi-cell processing module allows flexibility in material selection.
A standard 6-module configuration plant layout could produce combined liquid and gas outputs capable of fuelling 2000kw per hour of electrical energy and a further 2MW of usable thermal energy per hour.
• Sewage Sludge
• Tires & other rubber
• Waste
• Plastics
• Waste Oil
• Tar Sands
• Oil contaminated soils
• RDF (Refuse Derived Fuels)
• Bone Meal
• Biomass
• Electronic Waste
• Hospital Waste
• Automotive batteries including
Lead Recovery
Net-Zero Greenhouse Gas Emission Energy Generation
Process Outputs
The Genus-BioEnergy system converts 100% of the organic and synthetic content of the input material into usable energy outputs in the form of high calorific process gas and liquid fuels all of which are reconfigured into high value commodity products suitable for use across a wide range of business sectors.
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Under consistent software monitored operating conditions, the system produces a range of liquid fuels using an inbuilt Distillation Unit, and also various types of gases:
•Diesel Fuel
•Heating Oil
•Marine Fuel
•CH4
•H2 Gas produced at a minimum of 150kg per hour
•CxHy
•N2
•O2
