With Cooling Apparatus Other Than Gas Compressor Patents (Class 62/323.2)
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Patent number: 8806882Abstract: Embodiments discussed herein are directed to managing the heat content of two vehicle subsystems through a single coolant loop having parallel branches for each subsystem.Type: GrantFiled: February 25, 2011Date of Patent: August 19, 2014Assignee: Alliance for Substainable Energy, LLCInventors: Kevin Bennion, Matthew Thornton
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Patent number: 7921662Abstract: A hydrogen fuel automobile has a heat medium passage through which a heat medium which can exchange heat with a drive portion and can be supplied to a heat medium pipe for a hydrogen tank flows. An air cooling apparatus has a compressor for compressing a refrigerant gas, a condenser, an evaporator and a refrigerant circuit. The hydrogen fuel automobile is provided with a bypass passage which branches from the refrigerant circuit so that expanded refrigerant liquid detours the evaporator so as to be drawn into the compressor. A switch portion can switch between a state where the refrigerant liquid passes through the evaporator so as to be drawn into the compressor and a state where the refrigerant liquid detours the evaporator so as to flow through the bypass passage. The hydrogen storage material cooling portion cools the hydrogen storage material in the hydrogen tank using the refrigerant liquid that flows through the bypass passage.Type: GrantFiled: November 17, 2005Date of Patent: April 12, 2011Assignees: Kabushiki Kaisha Toyota Jidoshokki, Toyota Jidosha Kabushiki KaishaInventors: Hidehito Kubo, Daigoro Mori
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Publication number: 20080223064Abstract: The invention relates to an air-conditioning system (1) for a vehicle driven by a motor (16), having a refrigerant circuit (5) with a plurality of heat exchangers (2, 11) through which a refrigerant can be conducted for an exchange of heat with the air which flows through them, and having a heat pump heat exchanger (9) in which an exchange of heat with a coolant circuit (6), in which at least one coolant cooler (19) is arranged, takes place, with it being possible for the coolant cooler (19), in the heating mode, to be used as a heat exchanger for absorbing heat from the environment, and with the coolant cooler (19) being connected in series downstream of the heat pump heat exchanger (9) in the coolant circuit (6), and to a method for regulating an air-conditioning system (1) of said type.Type: ApplicationFiled: February 22, 2008Publication date: September 18, 2008Inventors: Gunther Feuerecker, Karl Lochmahr, Frank Muller, Dirk Neumeister, Thomas Strauss, Marcus Weinbrenner, Richard Obradovich, Gunnar Schlinke, Christophe Schmittheisler
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Patent number: 6935129Abstract: A radiator for a vapor-compression refrigerant cycle and a condenser for a Rankine cycle are integrated to construct a heat exchanger. The heat exchanger includes a core portion for performing a heat exchange, and is disposed to have a first function portion used as the radiator and a second function portion used as the condenser. A function ratio changing ratio includes a displacement member such as a plunger disposed in a header tank of the heat exchanger, and changes a ratio between the first function portion and the second function portion. For example, the displacement member partitions an inner space of the header tank into two space parts when both the vapor-compression refrigerant cycle and the Rankine cycle are operated, and does not partition the inner space when only one of the vapor-compression refrigerant cycle and the Rankine cycle is operated.Type: GrantFiled: April 22, 2004Date of Patent: August 30, 2005Assignee: Denso CorporationInventors: Minoru Sasaki, Atsushi Inaba, Takashi Yamanaka, Eiichi Torigoe
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Publication number: 20040025516Abstract: A double pass heat exchanger comprising: a first bank of thermoelectric devices that includes at least one thermoelectric device, the thermoelectric devices having cooling surfaces capable of absorbing thermal energy and opposed heating surfaces capable of dissipating thermal energy; a second bank of thermoelectric devices that includes at least one thermoelectric device, the thermoelectric devices having cooling surfaces capable of absorbing thermal energy and opposed heating surfaces capable of dissipating thermal energy; a first block of heat transfer material in concurrent thermal communication with a first fluid conduit and the heating surfaces of the first bank of thermoelectric devices and the heating surfaces of the second bank of thermoelectric devices; and, a second block of heat transfer material in concurrent thermal communication with a second fluid conduit and the cooling surfaces of the first bank of thermoelectric devices and the second bank of thermoelectric devices.Type: ApplicationFiled: August 9, 2002Publication date: February 12, 2004Inventor: John Van Winkle
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Patent number: 6467286Abstract: A cooling apparatus which has a simple structure and which can efficiently cool a plurality of electric devices is disclosed. The apparatus comprises a cooling circuit including serially-connected cooling systems for cooling electric devices by circulating a refrigerant; a circulating pump for circulating the refrigerant through the cooling circuit; and a radiator which is serially connected to the cooling systems in the cooling circuit and has a refrigerant outlet from which a refrigerant is supplied. The serially-connected cooling systems are arranged in a manner such that heat resisting allowable temperatures, assigned to the electric devices which respectively correspond to the cooling systems, increase from the cooling system closest to the refrigerant outlet to the cooling system farthest from the refrigerant outlet in the cooling circuit, wherein each heat resisting allowable temperature is the maximum temperature at which the relevant electric device can operate.Type: GrantFiled: December 18, 2001Date of Patent: October 22, 2002Assignee: Honda Giken Kogyo Kabushiki KaishaInventors: Tetsuya Hasebe, Yusuke Tatara, Toshinori Tsukamoto
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Publication number: 20020129613Abstract: An apparatus to refrigerate the cargo space of delivery vehicles. It provides an environmentally friendly alternative to conventional mechanical a/c and refrigeration units. Cooling is provided by controlled evaporation of a liquefied gas such as CO2 or nitrogen. Defrost and heating requirements, if needed, are provided by hot engine coolant or by electric heaters powered from the vehicle electrical system. Airflow for the evaporator and for circulation in the temperature controlled space is provided by a blower which is mechanically or electrically driven from vehicle power. This invention can also be applied to multi-temperature control applications. The apparatus is compact and is particularly suited for small inner city delivery vehicles.Type: ApplicationFiled: February 4, 2002Publication date: September 19, 2002Applicant: Thermo King CorporationInventors: Herman H. Viegas, Jayaram Seshadri, Hans-Olof Nilsson
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Patent number: 6321552Abstract: A system for providing cooling incorporates a combustion engine (1, 2) equipped with an exhaust heat recovering heat exchanger (3) which is adapted to transfer heat energy to a heat-driven chiller (4) in which cooling can be extracted from one or more heat carrier circuits (8). The cooling thereby provided may be used for cooling of engine charge air or compressor air and/or for providing cooled air for human comfort and/or for goods. Use of heat energy derived from the engine exhaust gas flow can be added to the system. Exhaust or air intake heat exchangers may provide silencing or gas cleaning of air or gas. The system may, e.g., be applied to vehicles. Compact absorption chillers may be used in the system. A method for providing cooling is disclosed.Type: GrantFiled: March 6, 2001Date of Patent: November 27, 2001Assignee: Silentor Holding A/SInventor: Svend Frederiksen