Powder detergent production includes energy intensive processes in terms of thermal and electrical energy consumption. In this project, we will develop a pioneering process to valorise all contents of exhaust gas into value added resources, which will bring "zero emission concept" into reality.
Design and construct a compact system for cleaning and deodorization of the oil produced in pyrolysis end of life tyres (elt). With a size adequate to the small and modular size of pyrolysis plants. This enables decentralize models adequate to elt distribution.
Verification of the possibility of using bed and fly ash from fluidised bed coal combustion and steel manufacturing in agriculture, landscape creation, highway construction and for the production of slag cements.
The intermittent aeration activated sludge process, where aerobic and anoxic phases are created in the same reactor, will be modified for nitrogen control to ensure compliance with stringent nutrient limits in sensitive coastal areas.
The project will establish: the ecological concept of storing and sorting textile waste, classical and non-conventional technologies for recoverable fibres, directions for operational, decisional and strategic management in the field.
To develop a new visible light active technology for water detoxification and precious metal recovery from wastewater in the silversmith - goldsmith (electroplating) industry.
To prepare suitable commercial products from waste materials for use in the building industry and water management.