Ivan Rodriguez Rosello posted this:
Licensing Manager at Universidad de Alicante
Germán Cabañero posted this:
HEAD OF STRATEGIC PARTNERSHIP at CIDETEC
Laijo Jose posted this:
Manager-Tech Transfer at Centre For Future (CFF)
Universidad de Alicante posted this:Stand-alone system for the purification of brackish water directly powered by photovoltaic solar energyThe Applied Electrochemistry and Electrocatalysis Research Group at the University of Alicante has developed an Stand-alone system for the desalination and disinfection of water by Electrodialysis (ED) and the necessary water pre- and post-conditioning steps. The developed system is sustainable and environmentally-friendly being directly powered by a photovoltaic solar plant without using battery racks. This new system substantially decreases both the investment and maintenance costs by eliminating the batteries. Also, it can be adjusted to be used in water from very different sources like seawater, brackish water wells, wastewater treatment plants, industrial processes water, etc. being of particular interest for remote areas isolated from the electric grid. The Research Group has a demonstration Pilot Plant with the capacity to produce up to 1m3 of drinking water per day. The Group is looking for companies interested in the commercial exploitation of this technology through licensing agreements and/or technical cooperation.
uacoopera posted this:
Licensing Manager at uacoopera
Technology Transfer Office
UNIVERSIDAD DE BURGOS posted this:Anaerobic treatment of biodegradable waste liquidsBioreactor formed by two connected closed tanks (anaerobic digestion tank and filtration tank) for the anaerobic treatment of complex wastewater with biogas production. A support material is used, in a non-arranged way, increasing the active biomass accumulation capacity and allowing downwards flow in the digestion tank.
Universidad de Alicante posted this:Production of briquettes for energy recovery of furniture waste with polyurethane foamsThe Research Group "Waste, energy, environment and nanotechnology" (WEEN) from the University of Alicante has developed a new compact material and a production process of briquettes of furniture waste. This process makes it possible to carry out the management and the energy recovery of this waste, avoiding the environmental problems associated with its landfilling and also making it easier to transport, handle and store. The briquettes obtained, show physicochemical characteristics similar to the conventional and they have a high energy density being able to be used as fuel for thermal power plants or industrial boilers. Companies in the waste treatment sector and the furniture industry that are interested in commercial exploitation of this technology through licensing agreements and / or technical cooperation are sought.
Institute of Chemical Research of Catalonia posted this:Valorization of HFC-23: trifluoromethylation reactions- clean production of trifluromethylcopper reagent - process works at room temperature and atmospheric pressure - inexpensive and abundant trifluoromethyl source - environmentally friendly process - low-cost reagents - valorization of fluoroform: a by-product of PTFE production - Versatile reagent allowing for a broad scope of reactivity
Universidad de Alicante posted this:Method for recycling of vessels and other structures composed of fiberglass and resinResearchers at the University of Alicante have developed a method to recycle composite fiberglass structures on a polymer matrix (resin). The process removes the polymer matrix, recovering glass fiber which can be reused. The process is not aggressive with fiberglass. It takes place at room temperature and is able to recover all the fiberglass used. The method is industrially scalable and can be automated. Fiberglass composites and resin are widely used in the construction of boat hulls, tanks, wind turbine blades and many other applications. This method is a very important innovation for the sector and there was no effective method that allowed recovering and reusing these materials.
Universidad de Alcalá-OTRI posted this:Bioremediation strategy in situ for the precipitation and immobilization of uranium and other toxic elements in contaminated soils.A research group from the Geology Department of the University of Alcalá is developing a technology to study the role of the oxidation-reduction processes of humics in the reduction of uranium and other toxic metals in contaminated soils to determine whether stimulating the activity of humic-reducing and oxidizing microbial communities in contaminated soils can be an effective strategy for the in situ immobilization of uranium and other toxic metals. The group is looking for technical cooperation projects with companies.
Universidad de Alicante posted this:New procedure for the elimination of printed ink from plastic filmThe most innovative aspects of this technology are: • The process for the removal of the ink is completely innovative and ecological, because it does not use organic solvents. • The technology has been successfully tested on different plastics, such as Polythene, Polypropylene, Polyester and Polyamide. It is viable for both water and solvent based inks.
Universidad de Alicante posted this:Novel procedure for polymeric foams with various applications from waste plastics.The research group "Processing and Pyrolysis of Polymers", Department of Chemical Engineering at the University of Alicante has developed an innovative process that allows recycling of different types of plastics (EVA, polyethylene, polypropylene, polyurethane, polymer melt, foam, rubber or any combination thereof) to transform in a simple and economical ways products with applications in various industrial sectors. The group is looking for companies interested in acquiring the technology for commercial exploitation. Innovative aspects The inclusion of waste plastic (EVA, polyethylene, polyurethane, polypropylene, polymer melt, foam, rubber, etc. Or any combination thereof) in the composition, permits its recycling in a simple and cheap, and that current procedures are difficult and very expensive. Together with a chemical foaming and dispersion of ferrites in the composition, applies the energy necessary for the cohesion of the materials by microwave. Ferrites dispersed in the mixture capture and transmit microwaves heat required for foaming in every part of the obtained mass. With this new procedure, getting pieces of great uniformity, stability and thickness that determines the user (up to 25 cm. in diameter) at a low cost and quick way.
uacoopera posted this:
Licensing Manager at uacoopera