We propose a technology simple enough at first sight but extremely complex considered in detail.

The waste truck arrived on the platform. It is washed, weighed and then it enters toward a waste preparation station, on a well-determined route. It is directed to a special area where the waste is discharged. Then the car leaves the platform, not before being weighed again. Before leaving the plant it is cleaned and washed out.

Next we call waste raw material. Inside the station there is a device which eliminates the water from the raw material. After that, it will be sorted by groups of caloric value (high caloric, normal caloric, low caloric and inert). Then baling and storage occurs. Accorded to our testing results after dewatering and removal of inert materials remains only about 30% from the discharged quantity. The difference is water extracted, inert materials, glass,ferrous and nonferrous materials which cannot be gasified.

Before the feeding of gasification station, inert materials, metals ferrous / nonferrous are directed to a separate storage. According to economic reasons, glass, ferrous and nonferrous materials, are sent to recovery and collection centers.

Construction waste cannot be gasified because they are inert, and they are removed from the process.

Now sorted and baled material is prepared. The preparation is a mixture forming a feeding receipt (balers are broken, minced and homogenized). After that, the raw material feeds the gasification station. The raw material goes into the first stage of the gasification module being dried. In the second stage, the waste will be gasified. Stationary time is given by the chemical composition of the raw materials and by the quality of dewatering process.

During gasification, the syngas will be produced. This gas is captured by means of fans and passed through a reactor where it is thermal treated. The thermal treatment consists in breaking chemical bonds of the toxic molecules at a very high temperature. We use a plasma torch heating system as a conditioning of the process. Then the syngas is sent to a heat exchanger device and it is cooled to a temperature that allows the continuation of the cleaning process. The Sulfur and Chlorine will be eliminated in special scrubbers and contaminated water will be sent to a waste water treatment station.

We can process any type of waste. Waste water resulted from the treatment of the syngas is sent to water treatment station, ensuring the cleaning, and avoid the soil pollution. At the end of the process will result a cooled and clean syngaz ready to be used as fuel in any application we want. It can be used as a fuel to feed the power plants . It can be used to feed special engines to produce power and thermal energy too.

The whole installation is closed and no emissions are allowed outside.

For more details please contact us.