1
Jean-luc Dubois
Jean Luc Dubois: Plate-type reactor with in-situ injection. ARKEMA FRANCE, Buchanan Ingersoll & Rooney P C, December 8, 2015: US09205403

A chemical reactor including: a plurality of heat exchange plates which between them define reaction compartments, in which reactor each heat exchange plate includes two walls between them defining at least one heat exchange space, the respective walls being fixed together by joining regions, and th ...


2
Stéphane Bilodeau
Stéphane Bilodeau: Energy accummulator system. Groupe Énerstat, Norton Rose Or, January 31, 2012: US08107804

An energy accumulator system for accumulating heat from a heat source for subsequent supply to a heat demand, comprises an energy accumulator having a storage material in a heat-exchange relation with the heat source so as to store heat produced by the heat source. A controller is connected to the e ...


3
Stéphane Bilodeau
Stéphane BILODEAU: Energy recuperation system. Ogilvy Renault, January 14, 2010: US20100006255-A1

An energy recuperation system for storing energy in a process for subsequent supply to an energy demand in the process comprises a recuperation storage system having a phase-change storage material. Recuperation circuitry between the energy loss/availability, the energy demand of the process/process ...


4
Stéphane Bilodeau
Bilodeau Stéphane: Energy recuperation system. Groupe Enerstat, Bilodeau Stéphane, OGILVY RENAULT SENCRLsrl, July 24, 2008: WO/2008/086617

An energy recuperation system for storing energy in a process for subsequent supply to an energy demand in the process comprises a recuperation storage system having a phase -change storage material. Recuperation circuitry between the energy loss/availability, the energy demand of the process/proces ...


5
Longzhi Jiang
Longzhi Jiang, Clifford Ginfrida Jr, Neil Clarke, Weijun Shen, Ernst Wolfgang Stautner, Tao Zhang, Robbi McDonald: Superconducting magnet coil support with cooling and method for coil-cooling. General Electric Company, The Small Patent Law Group, Dean D Small, March 18, 2014: US08676282 (1 worldwide citation)

A superconducting magnet coil support with cooling and a method for coil cooling are provided. One superconducting coil support arrangement includes a superconducting coil and at least one support beam supporting the superconducting coil and defining a tank for storing a cooling fluid therein. The s ...


6
Longzhi Jiang
Longzhi Jiang, Clifford Ginfrida JR, Neil Clarke, Weijun Shen, Ernst Wolfgang Stautner, Tao Zhang, Robbi McDonald: Superconducting magnet coil support with cooling and method for coil-cooling. May 3, 2012: US20120108433-A1

A superconducting magnet coil support with cooling and a method for coil cooling are provided. One superconducting coil support arrangement includes a superconducting coil and at least one support beam supporting the superconducting coil and defining a tank for storing a cooling fluid therein. The s ...


7
Dan Miller
Jeffrey W Hamstra, Daniel N Miller, Kerry B Ginn: System, method, and apparatus for pulsed-jet-enhanced heat exchanger. Lockheed Martin Corporation, Bracewell & Giuliani, April 16, 2009: US20090095446-A1

A pulsed-jet active flowfield control actuation system enhances the rate of heat transfer and heat removal in a heat exchanger for better management of thermal loads. The pulsed jet actuators impart an unsteady component of velocity to the working fluid of the heat exchanger. This design increases t ...


8
Longzhi Jiang
Longzhi Jiang, Gregory Alan Lehmann, Neil Clarke: Apparatus for thermal shielding of a superconducting magnet. General Electric Company, Cantor Colburn, November 30, 2006: US20060266053-A1

A thermal shield for a superconducting magnet includes a shield body having an annular shape. The shield body includes a material having a thermal conductivity greater than about 1000 W/m·K at about 70K.


9
Harry R Stoller: Door mounted heat exchanger for outdoor equipment enclosure. Lucent Technologies, Charles H Fails Esq, Needle & Rosenberg P C, December 26, 2000: US06164369 (146 worldwide citation)

A modular door mounted heat exchanger (10) for use with an outdoor equipment enclosure (12) of the type having a sealed equipment compartment (22) used to house heat generating electronics and telecommunications equipment (29) therein is disclosed. The heat exchanger includes a door panel (33) sized ...


10
Kevin W Kelly, Chad R Harris, Mircea S Despa: Crossflow micro heat exchanger. Board of Supervisors of Louisiana State University and Agricultural and Mechanical College, André J Porter, Bonnie J Davis, John H Runnels, July 9, 2002: US06415860 (132 worldwide citation)

An extremely high efficiency, crossflow, fluid-fluid, micro heat exchanger is disclosed. To concurrently achieve the goals of high mass flow rate, low pressure drop, and high heat transfer rates, the heat exchanger comprises numerous parallel, but relatively short microchannels. The performance of t ...



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