Patents by Inventor Mohamed A. Salam
Mohamed A. Salam 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: 20240339893Abstract: In one embodiment, an advanced electric propulsion system comprises: a housing; an electric motor within the housing; a motor drive coupled to the motor; a thermal management system comprising: a manifold-mini-channel heat sink integrated into the housing, the manifold-mini-channel heat sink comprises: an inlet manifold having air inlets formed in front of the housing; a set of plurality of circumferentially grooved micro-channels formed in the housing and coupled to the air inlets and conductively thermally coupled to stator windings of the electric motor; an outlet manifold having an air outlets formed at a back of the housing and coupled to the set of plurality of circumferentially grooved micro-channels; wherein the electric motor comprises PEW stator windings that provide a low thermal resistance path from the stator of the electric motor to the housing; wherein the PEW stator windings comprise a high temperature tolerant thermally conductive electrical insulator.Type: ApplicationFiled: December 21, 2023Publication date: October 10, 2024Applicant: Honeywell International Inc.Inventors: Mohamed A. Salam, Robert A. Dietrich, Evgeni Ganev, Stephen L. White
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Patent number: 11894756Abstract: In one embodiment, an advanced electric propulsion system comprises: a housing; an electric motor within the housing; a motor drive coupled to the motor; a thermal management system comprising: a manifold-mini-channel heat sink integrated into the housing, the manifold-mini-channel heat sink comprises: an inlet manifold having air inlets formed in front of the housing; a set of plurality of circumferentially grooved micro-channels formed in the housing and coupled to the air inlets and conductively thermally coupled to stator windings of the electric motor; an outlet manifold having an air outlets formed at a back of the housing and coupled to the set of plurality of circumferentially grooved micro-channels; wherein the electric motor comprises PEW stator windings that provide a low thermal resistance path from the stator of the electric motor to the housing; wherein the PEW stator windings comprise a high temperature tolerant thermally conductive electrical insulator.Type: GrantFiled: June 7, 2021Date of Patent: February 6, 2024Assignee: Honeywell International Inc.Inventors: Mohamed A. Salam, Robert A. Dietrich, Evgeni Ganev, Stephen L. White
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Publication number: 20220239199Abstract: In one embodiment, an advanced electric propulsion system comprises: a housing; an electric motor within the housing; a motor drive coupled to the motor; a thermal management system comprising: a manifold-mini-channel heat sink integrated into the housing, the manifold-mini-channel heat sink comprises: an inlet manifold having air inlets formed in front of the housing; a set of plurality of circumferentially grooved micro-channels formed in the housing and coupled to the air inlets and conductively thermally coupled to stator windings of the electric motor; an outlet manifold having an air outlets formed at a back of the housing and coupled to the set of plurality of circumferentially grooved micro-channels; wherein the electric motor comprises PEW stator windings that provide a low thermal resistance path from the stator of the electric motor to the housing; wherein the PEW stator windings comprise a high temperature tolerant thermally conductive electrical insulator.Type: ApplicationFiled: June 7, 2021Publication date: July 28, 2022Applicant: Honeywell International Inc.Inventors: Mohamed A. Salam, Robert A. Dietrich, Evgeni Ganev, Stephen L. White
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Patent number: 11060374Abstract: Methods for producing a swellable packer in a downhole environment are provided. A method includes introducing a treatment fluid containing a polymeric composition into a wellbore within the downhole environment and exposing the polymeric composition to an acid to produce a swollen polymeric material within the downhole environment. The polymeric composition contains a reaction product of at least one or more monomers, one or more comonomers, and one or more crosslinkers. The acid can be in situ formed from an acid precursor introduced into the downhole environment.Type: GrantFiled: February 20, 2018Date of Patent: July 13, 2021Assignee: Halliburton Energy Services, Inc.Inventors: Sunita Sameer Kadam, Vaishali Mishra, Rahul Chandrakant Patil, Mohamed A. Salam, Ravikant S. Belakshe, Siddharth Roy, Vilas Ramtenki
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Publication number: 20190376363Abstract: Methods for producing a swellable packer in a downhole environment are provided. A method includes introducing a treatment fluid containing a polymeric composition into a wellbore within the downhole environment and exposing the polymeric composition to an acid to produce a swollen polymeric material within the downhole environment. The polymeric composition contains a reaction product of at least one or more monomers, one or more comonomers, and one or more crosslinkers. The acid can be in situ formed from an acid precursor introduced into the downhole environment.Type: ApplicationFiled: February 20, 2018Publication date: December 12, 2019Applicant: Halliburton Energy Services, Inc.Inventors: Sunita Sameer Kadam, Vaishali Mishra, Rahul Chandrakant Patil, Mohamed A. Salam, Ravikant S. Belakshe, Siddharth Roy, Vilas Ramtenki
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Patent number: 9701414Abstract: A system and method are provided for controlling the movement of an aircraft engine cowl door between an open position and a closed position. The system includes an electric motor, at least one actuator, and an electrically operated brake. The actuator is coupled to the motor and is operable to move the cowl door between the closed and the open position. The electrically operated brake is coupled to the electric motor and the at least one actuator and is configured, upon being energized, to supply a unidirectional resisting torque load to the electric motor that does not prevent motor rotation.Type: GrantFiled: October 25, 2013Date of Patent: July 11, 2017Assignee: HONEYWELL INTERNATIONAL INC.Inventors: Ron Vaughan, Leroy Allen Fizer, James Wawrzynek, Kevin K. Chakkera, Mohamed A. Salam, William Warr, Stephen Birn
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Publication number: 20150303677Abstract: A system for generating and supplying electrical power to DC loads on an aircraft may include a permanent magnet machine (PMM) generating an output voltage at a plurality of output terminals and a solid-state switch connected to each of the output terminals to short-circuit the output terminal when the switch is ON. A control unit may be configured to detect an unbalanced fault in the system and, responsively to said detection, to close all of the switches simultaneously to convert the unbalanced fault to a balanced fault so that DC currents are precluded from circulating within the PMM.Type: ApplicationFiled: April 16, 2014Publication date: October 22, 2015Applicant: HONEYWELL INTERNATIONAL INC.Inventors: Mohamed A. Salam, Evgeni Ganev, William Warr
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Publication number: 20150078879Abstract: A system and method are provided for controlling the movement of an aircraft engine cowl door between an open position and a closed position. The system includes an electric motor, at least one actuator, and an electrically operated brake. The actuator is coupled to the motor and is operable to move the cowl door between the closed and the open position. The electrically operated brake is coupled to the electric motor and the at least one actuator and is configured, upon being energized, to supply a unidirectional resisting torque load to the electric motor that does not prevent motor rotation.Type: ApplicationFiled: October 25, 2013Publication date: March 19, 2015Inventors: Ron Vaughan, Leroy Allen Fizer, James Wawrzynek, Kevin K. Chakkera, Mohamed A. Salam, William Warr, Stephen Birn
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Patent number: 7527207Abstract: Methods are disclosed for triggering a source of visible light in connection with a data reader in response to a sensed proximity of an item. In one configuration, a data reader includes a imaging reader, such as a CMOS imager, that is sensitive to both infrared illumination and visible light. The imaging reader may be operable to read a symbol, such as a barcode or other optical code, via reflected infrared illumination, reflected visible light, or both. When characteristics of reflected illumination received by the imaging reader indicate that presence or movement of an item in the visible scan zone, the visible light source may be triggered to illuminate the item and thereby facilitate reading of the symbol using the same imagine reader as is used to sense the presence of the item. The visible light source may also be triggered to provide visual feedback.Type: GrantFiled: December 1, 2005Date of Patent: May 5, 2009Assignee: Datalogic Scanning, Inc.Inventors: Jorge L. Acosta, Mohamed A. Salam
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Publication number: 20060180670Abstract: Methods are disclosed for triggering a source of visible light in connection with a data reader in response to a sensed proximity of an item. In one configuration, a data reader includes an imaging reader, such as a CMOS imager, that is sensitive to both infrared illumination and visible light. The imaging reader may be operable to read a symbol, such as a barcode or other optical code, via reflected infrared illumination, reflected visible light, or both. When characteristics of reflected illumination received by the imaging reader indicate the presence or movement of an item in the visible scan zone, the visible light source may be triggered to illuminate the item and thereby facilitate reading of the symbol using the same imaging reader as is used to sense the presence of the item. The visible light source may also be triggered to provide visual feedback.Type: ApplicationFiled: December 1, 2005Publication date: August 17, 2006Applicant: PSC Scanning, Inc.Inventors: Jorge Acosta, Mohamed Salam