TECHOLOGIES
To put in place the best strategies for waste treatment, the following technologies are applied:
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α - CONVERTER from SOLID WASTE to Recovered Derived Fuel (RDF)
Designed for the sterilisation of waste that may contain infectious pathogens such as viruses and bacteria, this technology normalises solid waste into a material with constant humidity, density and calorific value.
In the event that the incoming waste consists of a solid urban waste or a waste assimilated to the urban, the resulting material is normally made up of a normalised Recovered Derived Fuel (RDF) that can be energetically recovered.
Available in sizes from 0.05 to 5 m3 per waste treatment cycle, this technology represents an excellent solution for the immediate treatment of waste in the places where it is produced (villages, hospitals, ports, airports, shopping mall, resorts, large buildings ...), neutralising its impact on human health and reducing its size (up to 5 times in volume) to facilitate its transportation to the treatment plants.
σ - SMOX from SRF to HEAT
This technology offers an easy and eco-friendly solution that through a slow oxidation in oxygen deficiency and the subsequent combustion of the produced syngas at high temperature (1000°C) valorise the waste energy content into heat, releasing inert ash at the end of the process.
Available in any size from 5 cubic meter per day, the system recovers into thermal energy about the 80% of the waste energy content.
If the amount of heat produced allows it, the system can be equipped with devices for the conversion of thermal energy into electricity.
λ - LIQUID SYNTHETIC FUELS from SRF to LIQUID HYDROCARBONS
This technology, through a cracking process of the organic material, and its subsequent distillation, is able to transform the SRF into liquid hydrocarbons with characteristics similar to those of diesel fuel.
The fuel produced by the MSW has the same density and calorific value as fossil fuel with a sulphur content usually less than 0.5 %.
π - PLANT INTEGRATION Plant Integrated technologies engineering
The π plants are designed to properly integrate different technologies, partly proprietary, and partly selected on the market, to combine the different needs of efficiency, economy and environmental impact required from time to time.
The objective of the π systems is to provide the best appropriate and efficient solution to solve the needs of disposal, recycling and recovery of the waste materials.
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