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.
The aims are research works on multifunctional textiles for shielding electromagnetic fields energy in order to protect men and also sensitive special equipment. New shielding textiles for technical and special applications with added-value properties will be obtained.
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.
The project aims to improve the refurbishing processes through technology, automatization and standardization of operations as well as integrating the environmental indicators that allows to communicate the benefits of refurbished products.
Pilot plant involving electrocoagulation to remove silicate in raw water; this silicate has a negative impact on existing plants (reverse osomosis, filtration adsorption) installed in chile for mining and food industry; we pretend to improve life time of equipment and save operation cost
The aim of this project is to develop natural bioingredients from brewing, wine/grapes yeasts biomass enriched in vitamin b (biotin), glucans and from collagen hydrolysates or solutions and silica from rice husk for processing safe cosmetics, improving thus the health and life quality of people.
Validate a standard for microbial environment monitoring in two meat processing plants and to engineering corresponding device/materials. Sampling techniques and methodology are innovative.System to be applied in every bio-risk situation.
Development of a low cost, highly operational prototype system based on multiple autonomous underwater vehicles for environmental/oceanographic data sampling in coastal waters with adequate spatial-temporal resolution.
The main objectives are the design, development and manufacturing of a special electrometrical complex modelling device for the geological and environmental study of the baltic shelf and coastal zone.
Develop a water purification/recycling platform which will make it possible to purify water directly from the source of pollution so it will be possible to scale/modify/trim the purification system for use in a wide range of sectors.