Power up sustainability: our biogas solution goes beyond manure. SusBDe can work with a variety of agricultural waste streams, such as maize, sorghum, wheat, etc. In addition, by cultivating specialized energy crops on low-quality, non-arable land, we generate clean biogas and electricity—without competing with food production. This smart use of underutilized soils supports circular agriculture, reduces emissions, and delivers renewable energy where it's needed most. It's a future-forward solution that turns marginal land into a powerful asset for a greener world.
Don't let waste go to waste in large landfills but convert it into valuable recyclables. In addition, SusBDe creates immediate savings equal the costs of storage and landfill management, which are 50% of the total waste handling costs today. From waste to wealth in dfferent forms!.
We operate the installation for 40 years (20 year extension), using Zero Waste, Energy- and water management, based on modern and proven sustainable technologies, based on latest EU- and US- standards. Total Cost of Ownership is not a choice, it is at the bases of our approach.
SusBDe provides a comprehensive insurance program worldwide, covering both the development and operational phases of each project.
Our program includes an insured performance guarantee for the entire installation, ensuring EBITDA security. This offers financial peace of mind to investors new to the SusBDe concept.
Organic materials form the basis for biogas fermentation. Therefore, the organic matter gets separated from other fractions in the waste, through a segregation system, designed to handle the unsorted MSW waste with high moisture contents and contamination.
The mechanical system comprises of a hopper, a steel slag conveyor, trommel screens, belt conveyors, an air separator, magnets, etc. In case of any escape of small quantity, it will not affect the biogas production as well as compost.
Biogas is generated through the anaerobic digestion process, in which bacteria break down organic materials like solid animal manure, biowaste, and food waste in an oxygen-deprived environment. This sustainable approach harnesses the potential of these organic resources, transforming them into biogas—a valuable source of energy in the form of gas, as well as beneficial soil products in the form of liquids and solids. Biogas systems leverage anaerobic digestion to efficiently repurpose these organic materials, promoting both environmental conservation and energy production.
During fermentation, biogas is extracted from the resulting mass. This process is closely monitored to allow for optimal gas extraction.
Afterwards, biogas is further purified. The Biogas purification technique is based on Membrane upgrading technology, as this is consistent and delivering of the highest possible methane.
The fourth step is Composting. This is an organic method of producing compost manure by decomposition and stabilization of organic matter. Composting process is a commonly used method and results in the production of stable compost product reduced in size (when compared to initial size) and free from offensive odors.
Composting can be carried out in ways including aerobically, anaerobically, vermi-composting and by any other biological mechanism.
We’d love to guide the journey to achieving your business sustainability goals. SusBDe helps you find the right solution to make more out of your waste.
