A new milestone in "waste to elctricity" innovation. We have created a three-stage gasification know-how that produces tar-free, NOx-free and hydrogen-rich synt

A new milestone in "waste to elctricity" innovation. We have created a three-stage gasification know-how that produces tar-free, NOx-free and hydrogen-rich synthesis gas from municipal waste and tires. We design and build power plants in many countries around the world. The power plant's energy source is the synthesis gas from waste gasification. In the molecular recycling of organic waste, we see a storehouse of carbon, hydrogen and oxygen atoms – the same atoms that make up our fuels, products and built environment. E.g. methanol synthesis, energy storage in liquid hydrogen at ambient temperature and atmospheric pressure. The three-stage gasification heart of the technology is the gravity coal bed, the self-regulating reactor, in the reactor the following happens: a) The hot syngas that flows out pyrolyzes the fresh feedstock b) Activated carbon is formed, the syngas is filtered through this bed c) The tar is already bound and decomposed in this stage d) The tarry coal is gasified in the lower part. Microwave steam plasma – Complete tar degradation - The plasma zone is directly integrated into the carbonization/filtration stage. - Generates temperatures above 1200°C - 1800°C - Produces radicals that completely degrade tar and heavy hydrocarbons - The plasma here is not a separate reactor, but part of the filter carbonization zone, which is completely different from current plasma tar reformers. Properties of the resulting synthesis gas - Completely tar-free - Completely NOx-free - Hydrogen-rich >60% e.g. for methanol synthesis - CO2 reduction - Ideal for gas engines, gas turbines - Stable and predictable composition The four main pillars of tar-free gasification in the system: 1. Hot coal bed pre-phase. Hot synthesis gas + steam → carbonization + tar degradation + gas quality improvement before downdraft. 2. Oxygen-free, reductive medium. No air, no classic combustion, only thermally controlled pyrolysis/gasification. 3. High temperature zones. Locally up to 1000°C, but the bed average can be kept around 700–800°C → good tar decomposition, still acceptable carbon yield. 4. The coal bed as an active tar reactor Not only filters, but also works chemically: thermal cracking, steam reforming, adsorption. 5. “Tar-free gasification with its own coal bed pre-reactor” produces 100% tar-free synthesis gas Competitive advantages of the technology: 1) Low investment cost (CAPEX) - no fluidization, - no catalyst bed, - no separate tar treatment unit, - no complicated air distribution, - the filter regenerates itself. We are open to business cooperation: - technology partnerships, - power plant development projects, - and investment cooperation.