Mixed (unsorted) MSW, which is 50-60% organic (biodegradable), is continuously fed into the custom-designed BioDigester.
The BioDigester breaks down the organic fraction into a high-quality Biomass, allowing it to be easily separated from the non-bio fraction (plastics, metals, etc.).
This clean sterile BioMass (pic) is used to produce BioProducts, and/or BioEnergy.
Oil-based synthetic residuals are converted into Clean Energy.
BioMass Recovery Plants - daily capacities of 150 to 1500 tons
The BioDigester breaks down the organic fraction into a high-quality Biomass, allowing it to be easily separated from the non-bio fraction (plastics, metals, etc.).
This clean sterile BioMass (pic) is used to produce BioProducts, and/or BioEnergy.
Oil-based synthetic residuals are converted into Clean Energy.
BioMass Recovery Plants - daily capacities of 150 to 1500 tons
Video/Pic:
The Taiheiyo Cement Company waste recovery plant in Saitama, Japan (pic) is a repurposed cement plant, where a retrofitted BioDigester produces 'Alternative Fuel' from MSW for use on-site in cement production. The Municipality declared that the MSW 'gate fee' revenues were a much better option than the cost of a new incinerator and the on-going ash disposal. In addition, they added that huge carbon emission reductions are achieved when compared to incineration.
The Taiheiyo Cement Company waste recovery plant in Saitama, Japan (pic) is a repurposed cement plant, where a retrofitted BioDigester produces 'Alternative Fuel' from MSW for use on-site in cement production. The Municipality declared that the MSW 'gate fee' revenues were a much better option than the cost of a new incinerator and the on-going ash disposal. In addition, they added that huge carbon emission reductions are achieved when compared to incineration.