Patents by Inventor Lars Christian Christensen
Lars Christian Christensen 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: 20240075007Abstract: The present invention relates to the field of treating iron deficiency with IV iron carbohydrate complexes such ferric carboxymaltose, monitoring or identifying subjects to determine their eligibility for being administered said IV iron carbohydrate complexes, and combining said IV iron carbohydrate complexes with additional drugs in order to mitigate or reduce side effects induced by said IV iron carbohydrate complexes.Type: ApplicationFiled: November 6, 2023Publication date: March 7, 2024Inventors: Tobias Sidelmann CHRISTENSEN, Philip SCHAFFALITZKY DE MUCKADELL, Lars Lykke THOMSEN, Claes Christian STROM
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Publication number: 20230275447Abstract: According to embodiments described herein managing power storage and discharge from or charge to a battery array that includes a plurality of individual batteries, is provided by: determining an aggregate demand for power from the battery array; performing one of discharging or charging via a first battery of the plurality of individual batteries from a first state of charge to a second state of charge based on a test profile configured to characterize the first battery, wherein the test profile is unrelated to the aggregate demand; and performing the one of discharging or charging via a second battery of the plurality of individual batteries to compensate for a difference between power discharged or charged by the first battery according to the test profile and the aggregate demand.Type: ApplicationFiled: June 28, 2021Publication date: August 31, 2023Inventors: Chunyang ZHAO, Lars Christian CHRISTENSEN
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Publication number: 20230261490Abstract: According to embodiments described herein, adaptive augmentation for load response is provided via monitoring operational characteristics of members of first and second groups of power storage units; monitoring demand characteristics of power demand on the storage array, wherein the first group of power storage units is activated to supply power for a first component of the power demand and the second group of power storage units is activated to supply power for a second component of the power demand; and while the members of the first and second groups of power storage units remain installed and available to respond to the power demand on the storage array: reassigning a given member of the first group to be a new member of the second group in response to at least one of a change in the operational characteristics or a change in the demand characteristics.Type: ApplicationFiled: June 3, 2021Publication date: August 17, 2023Inventors: Chunyang Zhao, Lars Christian Christensen
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Publication number: 20230246446Abstract: A grid connected battery storage system comprising two or more DC/AC power converter systems, two or more DC/DC power converters, and two or more DC electrical storage units is disclosed. Each DC/DC power converter has at least one DC electrical storage unit connected thereto, in such a manner that the voltage capability of the storage unit(s) matches the DC voltage level rating of the DC/DC power converter, thereby forming at least one DC block having a voltage capability defined by the voltage capability of the storage unit(s) of the DC block and a DC voltage level rating defined by the DC voltage level rating(s) of the DC/DC power converter(s) . Each DC block is connected to a DC/AC power converter system via a DC bus bar and at least one switch, in such a manner that the DC voltage level ratings of the DC/AC power converter systems match the voltage capability of the DC blocks.Type: ApplicationFiled: April 29, 2021Publication date: August 3, 2023Inventors: Karthikeya Balladi RAGHUCHANDRA, Michel Maher Naguib REZKALLA, Lars Christian CHRISTENSEN
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Patent number: 11174089Abstract: A method of manufacturing a foil for enclosing or wrapping a product configured to be heated in an oven includes: providing an aluminium layer, applying a first ink material at a surface of the aluminium layer to form a first ink layer, and applying a second ink material at a surface of the first ink layer to form a second ink layer. The first ink layer is positioned between the aluminium layer and the second ink layer, and is configured to absorb radiant energy. The second ink layer is configured to allow radiant energy to pass through to reach the first ink layer. A binder system of the first ink material or the second ink material is based at least in part on polyvinyl butyral (PVB).Type: GrantFiled: October 13, 2017Date of Patent: November 16, 2021Assignee: Danapak Flexibles A/SInventors: Lars Wiggers Hyldgaard, Peter Jørgensen, Lars Christian Christensen
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Publication number: 20190315552Abstract: A method of manufacturing a foil for enclosing or wrapping a product configured to be heated in an oven includes: providing an aluminium layer, applying a first ink material at a surface of the aluminium layer to form a first ink layer, and applying a second ink material at a surface of the first ink layer to form a second ink layer. The first ink layer is positioned between the aluminium layer and the second ink layer, and is configured to absorb radiant energy. The second ink layer is configured to allow radiant energy to pass through to reach the first ink layer. A binder system of the first ink material or the second ink material is based at least in part on polyvinyl butyral (PVB).Type: ApplicationFiled: October 13, 2017Publication date: October 17, 2019Applicant: Danapak Flexibles A/SInventors: Lars Wiggers Hyldgaard, Peter Jørgensen, Lars Christian Christensen
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Publication number: 20170267416Abstract: The present disclosure relates to a transparent lid sheet for being punched to a transparent sheet lid to be attached to a container to produce a package, said lid sheet comprising: a transparent base layer, which comprises a transparent polyethylene terephtalate layer with a barrier layer coated onto the polyethylene terephtalate layer, the base layer having a first major surface, which preferably substantially coincides with an outer major surface of the barrier layer, and a top layer providing a welding layer for welding the sheet lid to the container, the top layer coinciding with the first major surface.Type: ApplicationFiled: November 30, 2015Publication date: September 21, 2017Inventors: Peter Lass Johansen, Lars Christian Christensen
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Patent number: 9533812Abstract: The present invention relates to a blister package consisting of a lower web in which a row of cavities is provided, and an upper web which is welded to the provided lower web, and wherein perforation lines are provided between adjoining cavities, and wherein there is an area in connection with each cavity where the upper web is not welded to the lower web, such that a snip is created, said upper web being welded to the lower web by a first inner weld which surrounds the cavity completely, as well as a second outer weld which surrounds the cavity around the first weld and adjoins the area where the upper web is not welded to the lower web. The invention also relates to a method of making the blister package.Type: GrantFiled: January 23, 2014Date of Patent: January 3, 2017Assignee: DANAPAK FLEXIBLES A/SInventors: Ole Broedsgaard, Peter Johansen, Else Dydensborg, Sanne Norup Westad, Lars Christian Christensen
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Publication number: 20150368018Abstract: The present invention relates to a blister package (1) consisting of a lower web in which a row of cavities (3) is provided, and an upper web (12) which is welded to the provided lower web, and wherein perforation lines (7) are provided between adjoining cavities, and wherein there is an area (6) in connection with each cavity where the upper web is not welded to the lower web, such that a snip is created, said upper web being welded to the lower web by a first inner weld (4) which surrounds the cavity completely, as well as a second outer weld (5) which surrounds the cavity around the first weld and adjoins the area where the upper web is not welded to the lower web. The invention also relates to a method of making the blister package.Type: ApplicationFiled: January 23, 2014Publication date: December 24, 2015Inventors: Ole Broedsgaard, Peter Johansen, Else Dydensborg, Sanne Norup Westad, Lars Christian Christensen
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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