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 | Seeking a solution to eliminate spatter from the welding process in steel assemblies production |
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We are seeking a solution to eliminate spatter from the welding process. The solution should be able to be incorporated into an actual GMAW process. Welding spatter is usually measured by the quantity of balls or welding beads that are added to the assembly parts (which latter have to be removed) and/or the amount of sparks that jump from the arc weld. We are seeking innovative new methods that are capable of efficient and complete removal of the spatter effect during the GMAW process. |
 | Zagblade: Reduction of aero acoustic pollution by introducing novel serrated trailing edges |
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An aerofoil blade design that reduces trailing edge noise by means of a saw-tooth serration filled with a porous material. The serration and porous material work constructively with each other to significantly improve the aero-acoustic performance. An optimal choice of the porous materials has been identified, where it can achieve broadband noise reduction whilst completely suppressing the vortex shedding tone. This new device is more industrially-ready than the conventional “add-on” type serration due to its superior structural integrity. In addition it produces an aerodynamic performance similar to that of the baseline aerofoil. Applicable to a wide range from applications from drones, UAVs, aircraft engines, wind turbines and fan blades. |
 | Soft Computing techniques applied to wind prediction for generation |
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The Group of Modern Heuristics of Optimization and Design of Communication Networks of the University of Alcalá offers the use of modern soft computing techniques, widely contrasted, to obtain automated systems that allow wind prediction in wind farms and maximize the benefits associated with the production of this type of energy. The algorithms have already been developed and tested. The group is looking for companies from the renewable energy sector to reach commercial agreements with technical assistance, cooperation agreements or joint venture agreements. |
 | High precision High speed Robotic Laser cutting for Metals and Plastics |
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Using a patented robot encapsulated Beam guide system Jenoptik can offer robot laser cutting of 3D Metal and Plastic parts. High accessibility due to the fact that there is no external beam delivery (e.g. no fiber or no mirror arm). High speeds of up to 300mm/sec Laser power of up to 4kW Beam source can be selected based on application (e.g. CO2 Laser for plastic cutting; Fiber Laser for metal cutting) |
 | Technology to Modify Alcohol Content in Alcoholic Beverages |
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The company has developed an innovative process which removes only the alcohol while preserving all other flavours in beer. The patented technology is currently in system prototype state (TRL 6) and the company is keen to partner with global breweries and other global beverage companies to develop low-alcoholic or non-alcoholic beverages. Shifting beverage consumption patterns along with rising preference for low liquor content beverages are the key factor propelling non-alcoholic beer demand. Increasing health awareness among consumers towards the harmful effects of liquor coupled with changing lifestyle is expected to propel industry growth. Considerable shift of young individuals to purchase a variety of alcohol-free or low alcohol variants is expected to drive product penetration. The changing demographic trends of growing Muslim population has also provided a positive outlook for non-alcoholic beer market. But TASTE is still a major issue which has held back a real boom of non-alcoholic beer. Market shares could easily rise to 20-25% of total sales volume from today's 3-4%, if the right technology comes along. Current biological or physical processes so far used to remove or prevent alcohol often also remove taste-related flavours or alter the flavour profile of the finished product. |
 | Self-regulated heat sink device for uniform temperature distribution |
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The invention consists of a heat sink with an array of fins which are parallel-oriented to the flow direction at low temperature but, as the temperature locally increases, deform to perturb the flow. The main applications of the device are computers, telecommunications, medical devices, industrial electronics, aerospace/military, concentrated photovoltaics, consumer electronics and automotive. |
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