Juan Casado posted this:
R&D Manager at UAB
UATEC - Unidade de Transferência de Tecnologia posted this:Innovative method for extraction of triterpenic acidsIt is a process that, with a simple set of unitary operations, allows to get extracts with high triterpenic acids contents , from crude extracts of eucalyptus bark. This process can be easily integrated with existing pulp production, allowing even the subsequent exploitation of bark for energy production.
DIT Hothouse posted this:Wind Urchin: A 3D Spherical AnemometerThe Wind Urchin is a novel instrument for the simultaneous measurement of wind speed, direction and turbulence. It is effectively a multidirectional anemometer which uses multiple Pitot tubes incorporated into a unique spherical design to provide simultaneous real-time data on all elements of wind and uniquely turbulence.
Centre Technology Transfer CITTRU posted this:Ecological solid fuel additive, which improve fuel combustion efficiency and decrease soot generation.Solid fuel eco-additive reduces soot production and deposition on chimney walls, flues and boiler installation. Moreover it doesn't cause boiler corrosion. Consequently it improves boiler thermal efficiency and fuel combustion effectiveness. That means lower costs of heating. It also modifies soot to be biodegradable, prevents releasing soot-related pollutions and isn't harmful to human health.
Research & Technology Organization
Universidad de Alcalá-OTRI posted this:Improved process for selective oxidation of sulfide groups to sulfone by silsesquioxane catalysts.A Spanish-Portuguese research group from the department of Inorganic Chemistry at Alcalá University and ITQB-Universidad Nova of Lisboa of Oeiras, has developed a process of synthesis of titanium silesquioxane compounds and its applications in oxidation catalyst of organic sulphur compounds. The group looks for licencing agreements and commercial or collaboration agreements with pharmaceutical and petrochemical industry, and those industries in charge of the fertilizer preparation and production of compounds for the treatment of environmental problems.
Yissum - Research Development Company of the Hebrew University posted this:Enhanced Production of Conductive and Opto-Electrical Nanoparticle CoatingsEnhanced Production of Conductive and Opto-Electrical Nanoparticle Coatings Project ID : 9-2010-2490
Centre Technology Transfer CITTRU posted this:Catalysts for low-temperature combustion of methane from low-caloric sources and methods for their preparationDue to the rising emission of methane and its extensive contribution to the greenhouse effect, the reduction of CH4 emissions from low-caloric anthropogenic sources is currently a vital importance. The main sources of the methane emission are: exploitation of oil pools, coal mining, pas power stations, landfills, agriculture and biomass. The most popular method of the reduction of methane is its catalytic combustion. Unfortunately, this method has few limitations associated mainly with hard activation of the C-H bond in CH4 and low concentrations of methane in the emitted gases. The catalytic oxidation of methane is limited also by the very large airflows (of order 105 m3/min), passing through the catalyst bed during the process. There is still a lack on the market of a technological solution based on total catalytic combustion of CH4 in the economically reasonable low-temperature window, i.e. below 400 °C. The most popular method among the methods limiting the emission of methane to the atmosphere is the one based on its catalytic combustion. However, this procedure has disadvantages, mainly due to the high activation energy of methane molecules and also because of the low concentration of methane emitted from anthropogenic sources. There is no technology allowing effectively combusting of methane with the concentration of 1-2 % and in the economically justified temperatures, i.e. lower than 400 °C. The fundamental advantages of offered solutions are: - method for preparing catalysts that ensures the repeatability of the parameters and high efficiency in the reactions of methane combustion, - increased both the activity and the thermal stability of the catalysts in comparison with other systems described in the literature, - possibility of using the catalysts in the total oxidation of methane emitted from the low-caloric sources at temperatures below 400 °C.
Fundació URV posted this:Nitrates-nitrites removal from water by Selective catalytic Hydrogenation technologyThe chemical formula of the catalyst designed by the researchers of the Rovira i Virgili University, is the key of the process, therefore is protected and commercialized by APLICAT. Winner of the enviromental award of the Catalan Government. Two semi industrilal plants are constructed and working in two towns of Tarragona, obtaining concentrations of nitrates lower than 20ppm
Centre Technology Transfer CITTRU posted this:Catalyst for low-temperature decomposition of dinitrogen oxide in tail gases from a nitric acid plantLow-temperature catalytic decomposition of dinitrogen oxide, carried out by the developed catalytic system which is the subject of the offer, is much more favorable in comparison with other solutions because of: •lack of necessity to use any reducing agents; •relatively low operating temperature; •high catalytic activity in the presence of other components of tail gases (oxygen, water and other oxides of nitrogen). Experimental studies, both in the laboratory scale and in the pilot plant at the Fertilizers Research Institute in Puławy (Poland), carried out for several prototype catalysts confirmed the high catalytic activity of materials offered. These studies consisted of: •passing a mixture of nitrous oxide and helium through the bed of a catalyst placed in a quartz reactor, •passing a tail gases from the pilot plant of nitric acid manufacturing, characterized by the same composition as the tail gases in the real industrial plant, through the catalytic system, and then determining the tail composition after reaction. The degree of decomposition of dinitrogen oxide in a mixture of N2O and He, at a temperature of 300°C was 95%, while decomposition products were only molecular nitrogen and oxygen. The pilot plant at a temperature of 350°C revealed the degree of decomposition of dinitrogen oxide was higher than 90%.
Yissum - Research Development Company of the Hebrew University posted this:Transparent Conductive Coatings for Optoelectronic and Electronic DevicesTransparent Conductive Coatings for Optoelectronic and Electronic Devices Project ID : 9-2009-2330
Yissum - Research Development Company of the Hebrew University posted this:Removal of mercury and heavy metals from contaminated soilsRemoval of mercury and heavy metals from contaminated soils Project ID : 31-2016-4345
Technology Transfer Office
RAMOT at Tel Aviv University Ltd. posted this:Iron oxide nanoparticles (IOP) for the treatment of acute myocardial infarction (AMI) and other inflammatory conditionsA novel approach for the treatment of AMI has been developed using IOPs. IOPs, when injected into the infarcted myocardium, lead to improved heart function after MI. IOPs activate anti-inflammatory macrophages and thus promote tissue healing and repair and prevent myocardial remodeling and dysfunction. Potential Applications IOPs can be used to treat AMI and other inflammatory conditions associated with pro-inflammatory activated macrophages and to promote tissue healing and repair. Advantages ? IOPs are nontoxic ? IOPs are FDA approved for use in humans for MRI imaging Stage In vivo studies in mouse and rat models of MI and heart failure Project ID : 10-2011-247
Yissum - Research Development Company of the Hebrew University posted this:Novel Photocatalysts for Water Treatment and PurificationNovel Photocatalysts for Water Treatment and Purification Project ID : 15-2010-2421