Patents by Inventor Emil Andersen
Emil Andersen has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20240077141Abstract: The present invention relates to a fluid control system comprising a first chamber, a second chamber and a passage extending between said upstream chamber and said downstream chamber. An elongate valve spool core (8) is moveable arranged in passage in a fluid-tight and snug-fit manner, the spool core containing a groove (9). An actuator (18) typically connected to the elongated valve spool core to move the valve spool core in relation passage. Thereby a flow rate of a fluid flowing from the upstream chamber to the downstream chamber may be changed by moving the spool core relative to the passage to increase an orifice area.Type: ApplicationFiled: January 14, 2022Publication date: March 7, 2024Inventors: Emil Mühlbradt SVEEN, Rolf ANDERSEN
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Patent number: 11726232Abstract: A method for real-time prediction of wind conditions across a wind farm comprising a plurality of wind turbines, the wind farm being arranged at a wind farm site, is disclosed. A first library of site specific mean wind flow patterns related to the wind farm site, and a second library of non-site specific turbulence patterns, are provided. Weather data is measured at a plurality of positions within the wind farm site, and based on the measured weather data, a mean wind flow pattern is selected based on the first library and a turbulence pattern is selected based on the second library. A site specific wind flow field across the wind farm site is modelled, based on the selected mean wind flow pattern and the selected turbulence pattern, and wind conditions across the wind farm are predicted, based on the site specific wind flow field.Type: GrantFiled: December 14, 2022Date of Patent: August 15, 2023Assignee: VESTAS WIND SYSTEMS A/SInventors: Ewan Machefaux, Kim Emil Andersen, Frank Ormel, Mogens Bjerning
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Publication number: 20230193018Abstract: A toy building element made of recycled Acrylonitrile Butadiene Styrene (“ABS”) material and manufactured by processing, of a resin comprising, mechanically recycled ABS polymers and/or chemically recycled ABS polymers recovered from a solvent dissolution recycling process. A method for the manufacture of a toy building element includes providing and screening an ABS waste material. The method includes recovering recycled ABS polymers from the screened ABS waste material by subjecting the ABS waste material to grinding and/or a solvent dissolution recycling process. The method includes obtaining a resin by mixing the recovered ABS polymers with one or more additive(s) and optionally one or more ABS polymers selected from the group consisting of virgin ABS polymers, chemically recycled ABS polymers recovered from pyrolysis and chemically recycled ABS polymers recovered from chemical depolymerisation. The method thereafter includes manufacturing the toy building element by processing the resin.Type: ApplicationFiled: October 14, 2022Publication date: June 22, 2023Inventors: Søren KRISTIANSEN, Søren MØLLER-SØRENSEN, René MIKKELSEN, Bistra ANDERSEN, Emil ANDERSEN, Carina Gejl NIELSEN, Anders Christian JENSEN
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Publication number: 20230184995Abstract: A method for real-time prediction of wind conditions across a wind farm comprising a plurality of wind turbines, the wind farm being arranged at a wind farm site, is disclosed. A first library of site specific mean wind flow patterns related to the wind farm site, and a second library of non-site specific turbulence patterns, are provided. Weather data is measured at a plurality of positions within the wind farm site, and based on the measured weather data, a mean wind flow pattern is selected based on the first library and a turbulence pattern is selected based on the second library. A site specific wind flow field across the wind farm site is modelled, based on the selected mean wind flow pattern and the selected turbulence pattern, and wind conditions across the wind farm are predicted, based on the site specific wind flow field.Type: ApplicationFiled: December 14, 2022Publication date: June 15, 2023Inventors: Ewan Machefaux, Kim Emil Andersen, Frank Ormel, Mogens Bjerning
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Patent number: 11628443Abstract: A device for testing the quality of a biological sample, preferably semen, in cooperation with an electronic apparatus, the device comprising; a slide slot adapted for receiving a slide containing a biological sample; a receiving surface adapted for receiving an electronic apparatus containing a camera, where the receiving surface comprises a through hole extending through said receiving surface; a light source arranged opposite the through hole; a lens arranged between the slide slot and the receiving surface, and adapted to magnify the image received at the receiving surface; where the slide slot is arranged between the light source and the through hole, the device further comprising a housing attached opposite the receiving surface, the housing having a shape allowing for a plurality of stable resting conditions in which the electronic apparatus lies on the receiving surface, and alignment between the camera and the through hole is maintained by friction.Type: GrantFiled: September 7, 2018Date of Patent: April 18, 2023Inventors: Emil Andersen, Morten Gorm Ulsted, Daniel Gewecke Daugaard-Jensen, Carsten Petersen
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Publication number: 20220061824Abstract: Disclosed is a container for collection of a biological sample, specifically semen, comprising a cup having an open top and an opposite, closed bottom, an accommodating space for receiving said sample and a depression defined by a side wall and a raised part of said bottom, a lid attachable to said top of said cup for closing in an assembled position of the container, wherein the lid comprises a pipetting element with a channel, so that when the lid and cup are attached in the assembled position of the container, the pipetting element extends into the depression of said cup, whereby said channel enables fluid communication between an outside environment of the container and said depression.Type: ApplicationFiled: December 30, 2019Publication date: March 3, 2022Inventors: Morten Gorm Ulsted, Emil Andersen
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Publication number: 20200391133Abstract: The present invention relates to a toy building element made of a polymeric poly(ethylene terephthalate) (PET) material and manufactured by injection moulding of a resin comprising PET polyester. The present invention also relates to a method for the manufacture of such a toy building element.Type: ApplicationFiled: November 30, 2018Publication date: December 17, 2020Inventors: René MIKKELSEN, Emil ANDERSEN
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Publication number: 20200282402Abstract: A device for testing the quality of a biological sample, preferably semen, in cooperation with an electronic apparatus, the device comprising; a slide slot adapted for receiving a slide containing a biological sample; a receiving surface adapted for receiving an electronic apparatus containing a camera, where the receiving surface comprises a through hole extending through said receiving surface; a light source arranged opposite the through hole; a lens arranged between the slide slot and the receiving surface, and adapted to magnify the image received at the receiving surface; where the slide slot is arranged between the light source and the through hole, the device further comprising a housing attached opposite the receiving surface, the housing having a shape allowing for a plurality of stable resting conditions in which the electronic apparatus lies on the receiving surface, and alignment between the camera and the through hole is maintained by friction.Type: ApplicationFiled: September 7, 2018Publication date: September 10, 2020Applicant: EXSEED HEALTH APSInventors: Emil Andersen, Morten Gorm Ulsted, Daniel Gewecke Daugaard-Jensen, Carsten Petersen
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Publication number: 20170034483Abstract: A cloud-based network service provides intelligent access to surveillance camera views across multiple locations and environments. A cloud computing server maintains a database of time periods of interest captured by the cameras connected to the network. The server also maintains defined motion data associated with recorded video content. Video segments are generated from the recorded video content according to both the motion data and the time periods of interest. The server causes the video segments to be transmitted to a user interface, where a user can remotely monitor an environment through the video segments.Type: ApplicationFiled: December 23, 2013Publication date: February 2, 2017Applicant: Pelco, Inc.Inventors: Farzin Aghdasi, Tony T. DiCroce, Scott M. Rippee, Barry Velasquez, Emil Andersen, III, Greg M. Millar, Kirsten A. Medhurst, Stephen J. Mitchell
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Publication number: 20160357762Abstract: A cloud-based network service provides intelligent access to surveillance camera views across multiple locations and environments. A cloud computing server maintains a database of the views captured by the cameras connected to the network. The database is indexed by one or more classes according to tags characterizing the views obtained by each camera. In response to a user search string, the string is robustly interpreted against the classes and other indicators to search the database and determine a selection of views. The server causes the selection of views to be transmitted to a user interface, where a user can remotely monitor an environment through the selected views.Type: ApplicationFiled: December 23, 2013Publication date: December 8, 2016Inventors: Farzin Aghdasi, Tony T. DiCroce, Scott M. Rippee, Barry Velasquez, Emil Andersen, III, Greg M. Millar, Kirsten A. Medhurst, Stephen J. Mitchell
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Publication number: 20150278405Abstract: A method for evaluating a performance prediction for a wind farm comprising a plurality of wind turbines is disclosed. The method comprises providing a siting model, said siting model being capable of predicting performance of a wind farm, based on performance estimates of individual wind turbines forming part of the wind farm; applying the siting model to one or more existing wind farms, thereby predicting performance of the existing wind farms; and comparing the predicted performance of the existing wind farms to historical performance data of the existing wind farms. The performance prediction provided by the siting model is evaluated, based on the comparison.Type: ApplicationFiled: March 31, 2014Publication date: October 1, 2015Applicant: VESTAS WIND SYSTEMS A/SInventors: Kim Emil ANDERSEN, Sven Jesper KNUDSEN
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Patent number: 8495911Abstract: A computer-implemented method for determining a site for a wind turbine within a confined geographical target region on the basis of an estimate of a maintenance parameter comprises determining a wind climate at the target region, the wind climate including e.g. average wind speed, pre-dominant wind directions, or turbulence intensities. A function expressing the maintenance parameter of the wind turbine as a function of the flow characteristics is defined, and the function is applied to the geographical position to compute an estimated value of the maintenance parameter at that position. Meteorological measurements may be used to obtain the flow characteristics. Wind measurements performed at one location may be numerically extrapolated by numerical methods, e.g. by CFD, to other locations. The maintenance parameter may be expressed as a maintenance risk, number of component replacements, or as a maintenance cost per energy unit. Three-dimensional visualization of wind turbines, e.g.Type: GrantFiled: August 29, 2008Date of Patent: July 30, 2013Assignee: Vestas Wind Systems A/SInventors: Kim Emil Andersen, Lars Christian Christensen, Henrik Kanstrup Jørgensen
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Publication number: 20100312594Abstract: A computer-implemented method for determining a site for a wind turbine within a confined geographical target region on the basis of an estimate of a maintenance parameter comprises determining a wind climate at the target region, the wind climate including e.g. average wind speed, pre-dominant wind directions, or turbulence intensities. A function expressing the maintenance parameter of the wind turbine as a function of the flow characteristics is defined, and the function is applied to the geographical position to compute an estimated value of the maintenance parameter at that position. Meteorological measurements may be used to obtain the flow characteristics. Wind measurements performed at one location may be numerically extrapolated by numerical methods, e.g. by CFD, to other locations. The maintenance parameter may be expressed as a maintenance risk, number of component replacements, or as a maintenance cost per energy unit. Three-dimensional visualization of wind turbines, e.g.Type: ApplicationFiled: August 29, 2008Publication date: December 9, 2010Applicant: Vestas Wind Systems A/SInventors: Kim Emil Andersen, Lars Christian Christensen, Henrik Kanstrup Jørgensen