Projects Turnkey gasification plants
Research, development and technological innovation applied to the development of turnkey high-performance state-of-the-art…
Solutions Circular economy
The European Commission has adopted a forward-looking package of new measures on the circular economy, (which…
Syngas Advantages
Compared to other waste or biomass recovery technologies, the technology developed by Greene has the following…

Process

Greene's technical core-business is the process engineering developed entirely by the company and is based on an in-depth thermodynamic and kinetic study, resulting in integrated processes that constitute highly efficient solutions for the recovery of waste and biomass.
Image of Process
Images of Process Greene's technical core-business is the process engineering developed entirely by the company and is based on an in-depth thermodynamic and kinetic study, resulting in integrated processes that constitute highly efficient solutions for the recovery of waste and biomass.
Images of Greene's technical core-business is the process engineering developed entirely by the company and is based on an in-depth thermodynamic and kinetic study, resulting in integrated processes that constitute highly efficient solutions for the recovery of waste and biomass.
The thermoconversion process developed by Greene is based on a gasification process by which organic matter is transformed into synthesis gas (Syngas). This gas resulting from the process typically contains carbon monoxide (CO), carbon dioxide (CO2), hydrogen (H2), methane (CH4), small amounts of other heavier hydrocarbons, water (H2O), nitrogen (N2), as well as small carbonaceous particles, ash, and condensable organic compounds that must be removed from the gas stream or, as in the case of the Greene process, transformed into permanent (non-condensable) fuel gases. The CO, H2 and CH4 gases contained in the resulting gas confer calorific value.

The main innovative feature of Greene is the integration of different thermochemical processes carried out separately and simultaneously in different reactors, with global energy self-sufficiency, so that the thermoconversion of the organic matter contained in the waste or biomass takes place.
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