Patents by Inventor Dustin W. Demetriou
Dustin W. Demetriou 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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Patent number: 9761508Abstract: Composite heat sink structures and methods of fabrication are provided, with the composite heat sink structures including: a thermally conductive base having a main heat transfer surface to couple to, for instance, at least one electronic component to be cooled; a compressible, continuous sealing member; and a sealing member retainer compressing the compressible, continuous sealing member against the thermally conductive base; and an in situ molded member. The in situ molded member is molded over and affixed to the thermally conductive base, and is molded over and secures in place the sealing member retainer. A coolant-carrying compartment resides between the thermally conductive base and the in situ molded member, and a coolant inlet and outlet are provided in fluid communication with the coolant-carrying compartment to facilitate liquid coolant flow through the compartment.Type: GrantFiled: August 18, 2015Date of Patent: September 12, 2017Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Levi A. Campbell, Milnes P. David, Dustin W. Demetriou, Michael J. Ellsworth, Jr., Roger R. Schmidt, Robert E. Simons
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Patent number: 9686891Abstract: Thermoelectric-enhanced, rack-level cooling of airflow entering an electronics rack is provided by a cooling apparatus, which includes: an air-to-liquid heat exchanger; a coolant loop coupled to the heat exchanger, the coolant loop including a first loop portion and a second loop portion, where the heat exchanger exhausts heated coolant to the first loop portion and receives cooled coolant from the second loop portion. The cooling apparatus further includes a heat rejection unit and a thermoelectric heat pump(s). The heat rejection unit is coupled to the coolant loop between the first and second loop portions, and provides partially-cooled coolant to the second loop portion. The thermoelectric heat pump is disposed with the first and second loop portions coupled to opposite sides to transfer heat from the partially-cooled coolant within the second loop portion to provide the cooled coolant before entering the air-to-liquid heat exchanger.Type: GrantFiled: July 6, 2015Date of Patent: June 20, 2017Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Levi A. Campbell, Milnes P. David, Dustin W. Demetriou, Michael J. Ellsworth, Jr., Roger R. Schmidt, Robert E. Simons
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Patent number: 9648786Abstract: Apparatuses and methods are provided for preventing removal of an air-moving assembly from a chassis when in operating state. The apparatus includes an interlock assembly having a slide element and one or more interlock elements. The slide element is slideably coupled to the air-moving assembly and resides in a first position when the air-moving assembly is in the operating state, and is slidable to a second position when the air-moving assembly is in a quiesced state. The slide element prevents removal of the air-moving assembly from the chassis in the first position, and allows removal of the air-moving assembly from the chassis in the second position. The interlock element(s) is associated with the slide element and prevents sliding of the slide element from the first position to the second position when the air-moving assembly is in the operating state.Type: GrantFiled: September 29, 2014Date of Patent: May 9, 2017Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Levi A. Campbell, Christopher R. Ciraulo, Milnes P. David, Dustin W. Demetriou, John J. Loparco, Robert K. Mullady, Donald W. Porter, Roger R. Schmidt, Richard P. Snider, John G. Torok
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Publication number: 20170127565Abstract: Cooling apparatuses and methods of fabrication are provided which facilitate immersion-cooling of an electronic component(s). The cooling apparatus includes a drawer-level enclosure sized to reside within an electronics rack. The drawer-level enclosure includes a compartment which accommodates one or more electronic components to be cooled. A dielectric fluid is disposed within the compartment. The dielectric fluid includes a liquid dielectric which at least partially immerses the electronic component(s) within the compartment(s). A hinged, liquid-cooled heat sink is also disposed within the compartment of the enclosure. The heat sink operatively facilitates cooling the one or more electronic components via the dielectric fluid within the compartment, and is rotatable between an operational position overlying the electronic component(s), and a service position which allows access to the electronic component(s).Type: ApplicationFiled: October 29, 2015Publication date: May 4, 2017Inventors: Levi A. CAMPBELL, Milnes P. DAVID, Dustin W. DEMETRIOU, Michael J. ELLSWORTH, JR., Roger R. SCHMIDT, Robert E. SIMONS
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Publication number: 20170127576Abstract: Cooling apparatuses and methods of fabrication are provided which facilitate immersion-cooling of an electronic component(s). The cooling apparatus includes a drawer-level enclosure sized to reside within an electronics rack. The drawer-level enclosure includes a compartment which accommodates one or more electronic components to be cooled. A dielectric fluid is disposed within the compartment. The dielectric fluid includes a liquid dielectric which at least partially immerses the electronic component(s) within the compartment(s). A hinged, liquid-cooled heat sink is also disposed within the compartment of the enclosure. The heat sink operatively facilitates cooling the one or more electronic components via the dielectric fluid within the compartment, and is rotatable between an operational position overlying the electronic component(s), and a service position which allows access to the electronic component(s).Type: ApplicationFiled: June 7, 2016Publication date: May 4, 2017Inventors: Levi A. CAMPBELL, Milnes P. DAVID, Dustin W. DEMETRIOU, Michael J. ELLSWORTH, JR., Roger R. SCHMIDT, Robert E. SIMONS
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Publication number: 20170115675Abstract: Aspects include a method, system, and computer program product for determining a time to a threshold temperature of a device in a data center. A method includes measuring parameters for a device and the data center. A rate of change of temperature is determined based on the parameters. The change is compared to a change threshold. It is determined that a cooling system is operating below a threshold when the change is above the threshold. A first time is determined based on the rate of change of temperature and a machine learning model. The first and second time are compared, where the second time is a time to restore the cooling system above the threshold. A signal is transmitted when the first time is less than the second time. A cooling capacity is determined to have the temperature change of the device be equal to or less than the threshold.Type: ApplicationFiled: January 9, 2017Publication date: April 27, 2017Inventors: Dustin W. Demetriou, Roger R. Schmidt, Vidhya Shankar Venkatesan
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Patent number: 9629286Abstract: Thermoelectric-enhanced, rack-level cooling of airflow entering an electronics rack is provided by a cooling apparatus, which includes: an air-to-liquid heat exchanger; a coolant loop coupled to the heat exchanger, the coolant loop including a first loop portion and a second loop portion, where the heat exchanger exhausts heated coolant to the first loop portion and receives cooled coolant from the second loop portion. The cooling apparatus further includes a heat rejection unit and a thermoelectric heat pump(s). The heat rejection unit is coupled to the coolant loop between the first and second loop portions, and provides partially-cooled coolant to the second loop portion. The thermoelectric heat pump is disposed with the first and second loop portions coupled to opposite sides to transfer heat from the partially-cooled coolant within the second loop portion to provide the cooled coolant before entering the air-to-liquid heat exchanger.Type: GrantFiled: September 30, 2015Date of Patent: April 18, 2017Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Levi A. Campbell, Milnes P. David, Dustin W. Demetriou, Michael J. Ellsworth, Jr., Roger R. Schmidt, Robert E. Simons
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Patent number: 9629284Abstract: Apparatuses and methods are provided for preventing removal of an air-moving assembly from a chassis when in operating state. The apparatus includes an interlock assembly having a slide element and one or more interlock elements. The slide element is slideably coupled to the air-moving assembly and resides in a first position when the air-moving assembly is in the operating state, and is slidable to a second position when the air-moving assembly is in a quiesced state. The slide element prevents removal of the air-moving assembly from the chassis in the first position, and allows removal of the air-moving assembly from the chassis in the second position. The interlock element(s) is associated with the slide element and prevents sliding of the slide element from the first position to the second position when the air-moving assembly is in the operating state.Type: GrantFiled: August 20, 2015Date of Patent: April 18, 2017Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Levi A. Campbell, Christopher R. Ciraulo, Milnes P. David, Dustin W. Demetriou, John J. Loparco, Robert K. Mullady, Donald W. Porter, Roger R. Schmidt, Richard P. Snider, John G. Torok
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Patent number: 9622379Abstract: Cooling apparatuses and methods of fabrication are provided which facilitate immersion-cooling of an electronic component(s). The cooling apparatus includes a drawer-level enclosure sized to reside within an electronics rack. The drawer-level enclosure includes a compartment which accommodates one or more electronic components to be cooled. A dielectric fluid is disposed within the compartment. The dielectric fluid includes a liquid dielectric which at least partially immerses the electronic component(s) within the compartment(s). A hinged, liquid-cooled heat sink is also disposed within the compartment of the enclosure. The heat sink operatively facilitates cooling the one or more electronic components via the dielectric fluid within the compartment, and is rotatable between an operational position overlying the electronic component(s), and a service position which allows access to the electronic component(s).Type: GrantFiled: October 29, 2015Date of Patent: April 11, 2017Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Levi A. Campbell, Milnes P. David, Dustin W. Demetriou, Michael J. Ellsworth, Jr., Roger R. Schmidt, Robert E. Simons
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Publication number: 20170049010Abstract: A method of providing a cooling apparatus for cooling a heat-dissipating component(s) of an electronics enclosure includes: providing a thermal conductor to couple to the heat-dissipating component(s), the thermal conductor including a first conductor portion coupled to the heat-dissipating component, and a second conductor portion to position along an air inlet side of the electronics enclosure, so that in operation, the first conductor portion transfers heat from the component(s) to the second conductor portion; coupling at least one air-cooled heat sink to the second conductor portion to facilitate transfer of heat to airflow ingressing into the enclosure; providing at least one thermoelectric device coupled to the first or second conductor portion to facilitate providing active auxiliary cooling to the thermal conductor; and providing a controller to control operation of the thermoelectric device(s) and to selectively switch operation of the cooling apparatus between active and passive cooling modes.Type: ApplicationFiled: October 26, 2015Publication date: February 16, 2017Inventors: Levi A. CAMPBELL, Milnes P. DAVID, Dustin W. DEMETRIOU, Michael J. ELLSWORTH, JR., Roger R. SCHMIDT, Robert E. SIMONS
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Publication number: 20170043437Abstract: A method of fabricating a liquid-cooled heat sink assembly, including: providing a heat transfer element including a heat transfer base having opposite first and second sides, and a plurality of thermally conductive fins extending from the first side of the heat transfer base, the second side of the heat transfer base to couple to a component(s) to be cooled; providing a coolant-carrying structure including a coolant-carrying base and a coolant-carrying compartment through which liquid coolant flows, the coolant-carrying base including a plurality of fin-receiving openings sized and positioned for the plurality of thermally conductive fins of the heat sink base to extend through; and attaching the heat transfer element and coolant-carrying structure together with the plurality of thermally conductive fins extending through the fin-receiving openings in the coolant-carrying base into the coolant-carrying compartment.Type: ApplicationFiled: October 26, 2015Publication date: February 16, 2017Inventors: Dylan J. BODAY, Levi A. CAMPBELL, Milnes P. DAVID, Dustin W. DEMETRIOU, Michael J. ELLSWORTH, JR., Roger R. SCHMIDT, Robert E. SIMONS, Prabjit SINGH, Jason T. WERTZ
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Publication number: 20170045300Abstract: Liquid-cooled heat sink assemblies are provided which include: a heat transfer element including a heat transfer base with opposite first and second sides and a plurality of thermally conductive fins extending from the first side, and with the second side of the heat transfer base to couple to a component(s) to be cooled. The heat sink assembly further includes a coolant-carrying structure attached to the heat transfer element. The coolant-carrying structure includes a coolant-carrying base, and a coolant-carrying compartment through which liquid coolant flows. The coolant-carrying base includes a plurality of fin-receiving openings sized and positioned for the plurality of thermally conductive fins to extend therethrough. The plurality of thermally conductive fins extend into the coolant-carrying compartment through which the liquid coolant flows. In one or more embodiments, the heat transfer element is a metal structure and the coolant-carrying structure is a plastic structure.Type: ApplicationFiled: August 12, 2015Publication date: February 16, 2017Inventors: Dylan J. BODAY, Levi A. CAMPBELL, Milnes P. DAVID, Dustin W. DEMETRIOU, Michael J. ELLSWORTH, JR., Roger R. SCHMIDT, Robert E. SIMONS, Prabjit SINGH, Jason T. WERTZ
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Patent number: 9568923Abstract: Aspects include a method, system, and computer program product for determining a time to a threshold temperature of an electronic device in a data center. A method includes measuring parameters for an electronic device and the data center. A rate of change of temperature is determined for the device based on the parameters. The rate of change is compared to a rate of change threshold. It is determined that a cooling system is operating below a threshold when the rate of change is above the threshold. A first time is determined, where the first time is based the rate of change of temperature and a machine learning model. The first time and second time are compared, where the second time is a time to restore the cooling system to above the threshold. A signal is transmitted when the first time is less than the second time.Type: GrantFiled: October 27, 2015Date of Patent: February 14, 2017Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Dustin W. Demetriou, Roger R. Schmidt, Vidhya Shankar Venkatesan
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Patent number: 9546576Abstract: Systems and methods are provided for data center cooling by vaporizing fuel using data center waste heat. The systems include, for instance, an electricity-generating assembly, a liquid fuel storage, and a heat transfer system. The electricity-generating assembly generates electricity from a fuel vapor for supply to the data center. The liquid fuel storage is coupled to supply the fuel vapor, and the heat transfer system is associated with the data center and the liquid fuel storage. In an operational mode, the heat transfer system transfers the data center waste heat to the liquid fuel storage to facilitate vaporization of liquid fuel to produce the fuel vapor for supply to the electricity-generating assembly. The system may be implemented with the liquid fuel storage and heat transfer system being the primary fuel vapor source, or a back-up fuel vapor source.Type: GrantFiled: August 19, 2015Date of Patent: January 17, 2017Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Levi A. Campbell, Milnes P. David, Dustin W. Demetriou, Roger R. Schmidt, Robert E. Simons
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Patent number: 9546575Abstract: Systems and methods are provided for data center cooling by vaporizing fuel using data center waste heat. The systems include, for instance, an electricity-generating assembly, a liquid fuel storage, and a heat transfer system. The electricity-generating assembly generates electricity from a fuel vapor for supply to the data center. The liquid fuel storage is coupled to supply the fuel vapor, and the heat transfer system is associated with the data center and the liquid fuel storage. In an operational mode, the heat transfer system transfers the data center waste heat to the liquid fuel storage to facilitate vaporization of liquid fuel to produce the fuel vapor for supply to the electricity-generating assembly. The system may be implemented with the liquid fuel storage and heat transfer system being the primary fuel vapor source, or a back-up fuel vapor source.Type: GrantFiled: November 19, 2014Date of Patent: January 17, 2017Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Levi A. Campbell, Milnes P. David, Dustin W. Demetriou, Roger R. Schmidt, Robert E. Simons
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Publication number: 20170013746Abstract: Thermoelectric-enhanced, rack-level cooling of airflow entering an electronics rack is provided by a cooling apparatus, which includes: an air-to-liquid heat exchanger; a coolant loop coupled to the heat exchanger, the coolant loop including a first loop portion and a second loop portion, where the heat exchanger exhausts heated coolant to the first loop portion and receives cooled coolant from the second loop portion. The cooling apparatus further includes a heat rejection unit and a thermoelectric heat pump(s). The heat rejection unit is coupled to the coolant loop between the first and second loop portions, and provides partially-cooled coolant to the second loop portion. The thermoelectric heat pump is disposed with the first and second loop portions coupled to opposite sides to transfer heat from the partially-cooled coolant within the second loop portion to provide the cooled coolant before entering the air-to-liquid heat exchanger.Type: ApplicationFiled: July 6, 2015Publication date: January 12, 2017Inventors: Levi A. CAMPBELL, Milnes P. DAVID, Dustin W. DEMETRIOU, Michael J. ELLSWORTH, Jr., Roger R. SCHMIDT, Robert E. SIMONS
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Publication number: 20170013739Abstract: Thermoelectric-enhanced, rack-level cooling of airflow entering an electronics rack is provided by a cooling apparatus, which includes: an air-to-liquid heat exchanger; a coolant loop coupled to the heat exchanger, the coolant loop including a first loop portion and a second loop portion, where the heat exchanger exhausts heated coolant to the first loop portion and receives cooled coolant from the second loop portion. The cooling apparatus further includes a heat rejection unit and a thermoelectric heat pump(s). The heat rejection unit is coupled to the coolant loop between the first and second loop portions, and provides partially-cooled coolant to the second loop portion. The thermoelectric heat pump is disposed with the first and second loop portions coupled to opposite sides to transfer heat from the partially-cooled coolant within the second loop portion to provide the cooled coolant before entering the air-to-liquid heat exchanger.Type: ApplicationFiled: September 30, 2015Publication date: January 12, 2017Inventors: Levi A. CAMPBELL, Milnes P. DAVID, Dustin W. DEMETRIOU, Michael J. ELLSWORTH, JR., Roger R. SCHMIDT, Robert E. SIMONS
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Publication number: 20160363352Abstract: Systems and methods are provided for data center cooling by vaporizing fuel using data center waste heat. The systems include, for instance, an electricity-generating assembly, a liquid fuel storage, and a heat transfer system. The electricity-generating assembly generates electricity from a fuel vapor for supply to the data center. The liquid fuel storage is coupled to supply the fuel vapor, and the heat transfer system is associated with the data center and the liquid fuel storage. In an operational mode, the heat transfer system transfers the data center waste heat to the liquid fuel storage to facilitate vaporization of liquid fuel to produce the fuel vapor for supply to the electricity-generating assembly. The system may be implemented with the liquid fuel storage and heat transfer system being the primary fuel vapor source, or a back-up fuel vapor source.Type: ApplicationFiled: August 29, 2016Publication date: December 15, 2016Inventors: Levi A. CAMPBELL, Milnes P. DAVID, Dustin W. DEMETRIOU, Roger R. SCHMIDT, Robert E. SIMONS
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Publication number: 20160363353Abstract: Systems and methods are provided for data center cooling by vaporizing fuel using data center waste heat. The systems include, for instance, an electricity-generating assembly, a liquid fuel storage, and a heat transfer system. The electricity-generating assembly generates electricity from a fuel vapor for supply to the data center. The liquid fuel storage is coupled to supply the fuel vapor, and the heat transfer system is associated with the data center and the liquid fuel storage. In an operational mode, the heat transfer system transfers the data center waste heat to the liquid fuel storage to facilitate vaporization of liquid fuel to produce the fuel vapor for supply to the electricity-generating assembly. The system may be implemented with the liquid fuel storage and heat transfer system being the primary fuel vapor source, or a back-up fuel vapor source.Type: ApplicationFiled: August 29, 2016Publication date: December 15, 2016Inventors: Levi A. CAMPBELL, Milnes P. DAVID, Dustin W. DEMETRIOU, Roger R. SCHMIDT, Robert E. SIMONS
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Patent number: 9504189Abstract: A cooling apparatus is provided, which includes: a thermal conductor to cool a heat-dissipating component(s) of an electronics enclosure, the enclosure including an air inlet side through which airflow ingresses. The thermal conductor includes a first conductor portion coupled to the heat-dissipating component(s), and a second conductor portion positioned along the enclosure's air inlet side. The apparatus further includes one or more air-cooled heat sinks coupled to the second conductor portion to facilitate transfer of heat from the second conductor portion to the airflow ingressing into the enclosure, and one or more thermoelectric devices coupled to at least one of the first or second conductor portions to selectively provide auxiliary cooling.Type: GrantFiled: August 12, 2015Date of Patent: November 22, 2016Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Levi A. Campbell, Milnes P. David, Dustin W. Demetriou, Michael J. Ellsworth, Jr., Roger R. Schmidt, Robert E. Simons