Comparison

Competing products and-processes

Waste incineration plants
No plants are built to for throughputs less then 60.000 to/a. They having strong demands to the homogeneity of the initial products which only can be adhered to with additional effort and under restriction of the substances used. For a problem-oriented, site-specific waste-/ rest substance utilization in smaller plants burning technology is unsuitable.

Pyrolysis produces a gas polluted with dust and complex hydrocarbons, tars and pyrolysis oils to the gas-production (low temperature to approx. 800° degrees Celsius) which is unsuitable in gas engines for the production of electricity. This gas-production refinances itself almost exclusively by the acceptance of rest-/ waste materials since the gas quality can be consulted only for low caloric processes, such as hot-water production, or production of electricity with steam plants at very low degree of effectiveness and high investment and operating costs.

Pressure gasification large plants for the gasification of synthesis substances which work and are led according to the principle of the pressure gasification thermally and catalytically. It is prerequisite that further material utilization of the arising gasses takes place (e.g. hydrogen is produced and divided off) since for an energetic use no economy could be reached.

High temperature gasification (e.g. Thermolysis select management) based on very high gasification temperatures (to approx. 2000°C). As such, they can obtain gas high in hydrogen and carbon monoxide by and achieve a gasification from celebration be or the flight current with that with a high hydrogen and carbon monoxide amount of arising gas.

High temperature technology causes high operating costs and can not suppress the enormous wear problems.

Advantages of the Thermolysis plant

- decentralised plants
- synergy effects
- gas quality
- price-/ performance relationship
- procedure features.