Patents by Inventor Alexander Ruege
Alexander Ruege 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: 20230268655Abstract: Disclosed is a sensing system to evaluate and monitor the status of a material forming part of a refractory furnace, integrating an antenna and a grating structure that might be part of the furnace. The system is operative to identify flaws and measure the erosion profile and thickness of different materials, including refractory materials of an industrial furnace, using radiofrequency signals. The system is designed to integrate the antenna with a grating adjacent to an external furnace wall to improve the overall performance of the sensing system as compared to that of the antenna alone during an inspection of the furnace, even in regions of difficult access. Furthermore, the system comprises a mechanism to physically attach the antenna to the furnace grating or to modify the grating configuration around the antenna to improve the system performance for better estimating the remaining operational life and maintenance plan of the furnace.Type: ApplicationFiled: June 30, 2020Publication date: August 24, 2023Inventors: Yakup Bayram, Alexander Ruege
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Patent number: 10151709Abstract: Disclosed is an improved device and method to evaluate the status of a material by scanning an area that overlaps a region of the material under evaluation. The device and method are operative to identify a leakage of a first material into a second material, such as a molten material surrounded by a refractory material, to measure the thickness of the second material, using electromagnetic waves, and to generate images. The device is designed to reduce a plurality of reflections associated with the propagation of electromagnetic waves launched into the material under evaluation, by a sufficient extent so as to enable detection of electromagnetic waves of interest reflected from remote discontinuities present in between the device and the enclosed material. Furthermore, the device can be configured to scan areas of interest in either a portable or fixed configuration, manually in a standalone mode or as part of an automated system.Type: GrantFiled: June 8, 2015Date of Patent: December 11, 2018Assignee: PaneraTech, Inc.Inventors: Yakup Bayram, Alexander Ruege, Eric Walton, Peter Hagan
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Patent number: 10054367Abstract: Disclosed is a system to evaluate and monitor the status of a material forming part of an asset, such as a refractory furnace. The system is operative to identify flaws and measure the erosion profile and thickness of different materials, including refractory materials of an industrial furnace, using radiofrequency signals. The system is designed to integrate software with a plurality of sensors and additional hardware to collect data during an inspection of the furnace, even in regions of difficult access. Furthermore, the system comprises a software management subsystem configured to implement signal processing techniques to process the data collected and generate reports to visualize the status, estimate the remaining operational life, and determine the level of penetration of molten material into the surrounding layers of the furnace. Moreover, the system's software enables a user to monitor the status of the furnace both locally and remotely.Type: GrantFiled: October 28, 2016Date of Patent: August 21, 2018Assignee: PANERATECH, INC.Inventors: Yakup Bayram, Alexander Ruege, Justin Knowles
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Publication number: 20170131033Abstract: Disclosed is a system to evaluate and monitor the status of a material forming part of an asset, such as a refractory furnace. The system is operative to identify flaws and measure the erosion profile and thickness of different materials, including refractory materials of an industrial furnace, using radiofrequency signals. The system is designed to integrate software with a plurality of sensors and additional hardware to collect data during an inspection of the furnace, even in regions of difficult access. Furthermore, the system comprises a software management subsystem configured to implement signal processing techniques to process the data collected and generate reports to visualize the status, estimate the remaining operational life, and determine the level of penetration of molten material into the surrounding layers of the furnace. Moreover, the system's software enables a user to monitor the status of the furnace both locally and remotely.Type: ApplicationFiled: October 28, 2016Publication date: May 11, 2017Inventors: Yakup Bayram, Alexander Ruege, Justin Knowles
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Patent number: 9413059Abstract: Disclosed is an antenna feeding system and method to optimize the design of the feeding system to feed an antenna made of a resistive sheet. The system and method are operative to design a topology of the antenna feeding system to adapt to a topology of the resistive sheet antenna to mitigate the adverse effects caused by the inherent losses of resistive sheets while operating as antennas. The system is designed to reduce a convergence of radiofrequency currents that may create a localized high density current concentration, such as “hot spots” and “pinch points,” on the resistive sheet, by a sufficient extent so as to prevent power losses that substantially decrease the radiation efficiency of the antenna as compared with feeding systems designed using traditional design techniques.Type: GrantFiled: May 12, 2014Date of Patent: August 9, 2016Assignee: PANERATECH, INC.Inventors: Yakup Bayram, Wladimiro Villarroel, Alexander Ruege, Eric Walton
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Patent number: 9391360Abstract: Disclosed is an antenna system and method to optimize the design of an antenna using resistive sheets. The system and method are operative to design a topology of a resistive sheet to mitigate the adverse effects caused by the inherent losses of resistive sheets while operating as antennas. The system is designed to reduce a plurality of radiofrequency current “hot spots” and “pinch points,” associated with the flow of a current on a resistive sheet, by a sufficient extent so as to enable radiation of electromagnetic waves at substantially higher radiation efficiency as compared with antennas designed using traditional design techniques.Type: GrantFiled: April 15, 2014Date of Patent: July 12, 2016Assignee: PANERATECH, INC.Inventors: Yakup Bayram, Wladimiro Villarroel, Alexander Ruege, Eric Walton
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Publication number: 20150362439Abstract: Disclosed is an improved device and method to evaluate the status of a material by scanning an area that overlaps a region of the material under evaluation. The device and method are operative to identify a leakage of a first material into a second material, such as a molten material surrounded by a refractory material, to measure the thickness of the second material, using electromagnetic waves, and to generate images. The device is designed to reduce a plurality of reflections associated with the propagation of electromagnetic waves launched into the material under evaluation, by a sufficient extent so as to enable detection of electromagnetic waves of interest reflected from remote discontinuities present in between the device and the enclosed material. Furthermore, the device can be configured to scan areas of interest in either a portable or fixed configuration, manually in a standalone mode or as part of an automated system.Type: ApplicationFiled: June 8, 2015Publication date: December 17, 2015Inventors: Yakup Bayram, Alexander Ruege, Eric Walton, Peter Hagan
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Publication number: 20140340279Abstract: Disclosed is an antenna feeding system and method to optimize the design of the feeding system to feed an antenna made of a resistive sheet. The system and method are operative to design a topology of the antenna feeding system to adapt to a topology of the resistive sheet antenna to mitigate the adverse effects caused by the inherent losses of resistive sheets while operating as antennas. The system is designed to reduce a convergence of radiofrequency currents that may create a localized high density current concentration, such as “hot spots” and “pinch points,” on the resistive sheet, by a sufficient extent so as to prevent power losses that substantially decrease the radiation efficiency of the antenna as compared with feeding systems designed using traditional design techniques.Type: ApplicationFiled: May 12, 2014Publication date: November 20, 2014Applicant: PaneraTech, Inc.Inventors: Yakup Bayram, Wladimiro Villarroel, Alexander Ruege, Eric Walton