Patent application number | Description | Published |
20080196401 | Exhaust heat recovery apparatus - An exhaust heat recovery apparatus includes an evaporation unit, a condensation unit, an evaporation-side communication part and a condensation-side communication part. The evaporation unit is disposed in an exhaust gas passage through which an exhaust gas flows and performs heat exchange between the exhaust gas and an operation fluid flowing therein, thereby evaporating the operation fluid. The condensation unit is disposed in a coolant passage through which an engine coolant flows and performs heat exchange between the operation fluid and the engine coolant, thereby condensing the operation fluid. The evaporation-side communication part connects the evaporation unit and the condensation unit for introducing evaporated operation fluid to the condensation unit. The condensation-side communication part connects the condensation unit and the evaporation unit for introducing condensed operation fluid to the evaporation unit. The condensation-side communication part is provided with a throttle part. | 08-21-2008 |
20080196865 | Exhaust heat recovery apparatus - An exhaust heat recovery apparatus includes an evaporation unit and a condensation unit communicated with the evaporation unit such that an operation fluid circulates therein. The evaporation unit is disposed in a first fluid passage through which a first fluid flows, and performs heat exchange between the first fluid and the operation fluid, thereby evaporating the operation fluid. The condensation unit is disposed in a second fluid passage through which a second fluid flows, and performs heat exchange between the second fluid and the operation fluid. The exhaust heat recovery apparatus further includes a wet area increasing member in a tube of the evaporation unit for increasing a wet area of the operation fluid due to surface tension of the operation fluid. The wet area increasing member is disposed adjacent to an inner surface of the tube and has extension surfaces extending in directions intersecting with the inner surface. | 08-21-2008 |
20080276605 | Exhaust heat recovery device - An exhaust heat recovery device includes an evaporator for evaporating working medium sealed thereinto by exhaust heat from an internal combustion engine, a condenser for cooling the working medium evaporated at the evaporator, and a communication portion for communicating the evaporator with the condenser in an annular shape. The exhaust heat recovery device further includes an internal pressure operating valve adapted to be closed when a pressure of the working medium is equal to or more than a predetermined pressure, and a temperature operating valve adapted to be closed when a temperature of the coolant is equal to or more than a predetermined temperature. The internal pressure operating valve and the temperature operating valve are disposed between a downstream side of the condenser and an upstream side of the evaporator. | 11-13-2008 |
20090014162 | Counter-stream-mode oscillating-flow heat transport apparatus - A counter-stream-mode oscillating-flow heat transport apparatus improves heat transport capability by imparting oscillatory displacement to a fluid located near a heat-generating element such that the fluid is directed toward the heat-generating element. Turning portions of serpentine flow paths are disposed to face the heat-generating element. The flow paths are stacked in multiple layers in the direction from the heat-generating element to the flow paths, and a plurality of flow paths are disposed adjacent to the heat-generating element in the direction of fluid oscillation. | 01-15-2009 |
20090032213 | Exhaust heat recovery apparatus - An exhaust heat recovery apparatus includes an evaporation unit, a condensation unit, an evaporation-side communication part and a condensation-side communication part. The evaporation unit is disposed in a duct member through which an exhaust gas generated from an engine flows, and evaporates an operation fluid by heat of the exhaust gas. The condensation unit is disposed in a coolant passage through which a coolant flows, and condenses the operation fluid by radiating the heat to the coolant. The evaporation-side communication part connects the evaporation unit and the condensation unit for introducing evaporated operation fluid to the condensation unit. The condensation-side communication part connects the condensation unit and the evaporation unit for introducing condensed operation fluid to the evaporation unit. The condensation-side communication part is in contact with an outer surface of the duct member at least at a part. | 02-05-2009 |
20090293461 | Exhaust Heat Recovery Device - An exhaust heat recovery device includes an accommodating portion extending continuously without shrinking a section therein and adapted to allow exhaust gas of an internal combustion engine to pass therethrough, a catalyst disposed in the accommodating portion for cleaning the exhaust gas, an evaporator disposed adjacent to the catalyst on a downstream side of an exhaust gas flow in the accommodating portion, and a condenser for condensing the working medium by radiating heat of the working medium flowing thereinto from the evaporator so as to recover exhaust heat on the coolant side. The condenser is located to return the condensed working medium to the evaporator. | 12-03-2009 |
20100044019 | Heat exchanger - Heat is exchanged between exhaust gas passing through a plurality of tubes and cooling water passing through a plurality of passages defined outside of the plurality of tubes layered with each other. A heat exchanger includes a temperature decreasing portion arranged in a predetermined area on an outer surface of the tube adjacent to an inlet side of exhaust gas. The temperature decreasing portion is configured to decrease a temperature of a thermal boundary layer of the outer surface of the tube relative to cooling water by increasing a heat transmitting ratio between the outer surface of the tube and cooling water. | 02-25-2010 |
20100146943 | Exhaust heat recovery device - An exhaust heat recovery device is provided with an evaporation portion for evaporating an operation fluid flowing therein by performing heat exchange with exhaust gas of an engine, a condensation portion for condensing the operation fluid flowing from the evaporation portion by performing heat exchange with coolant of the engine, and a flow adjusting portion for adjusting a flow amount of the operation fluid flowing from the condensation portion to the evaporation portion. A catalyst temperature detector is adapted to detect a temperature of a catalyst for purifying the exhaust gas, and a control unit sets a catalyst heating mode when the detected temperature of the catalyst is lower than a threshold value. Furthermore, the control unit causes the flow adjusting portion to adjust the flow amount of the operation fluid from the condensation portion to the evaporation portion at zero, in the catalyst heating mode. | 06-17-2010 |
20110303399 | Thermal diffuser and cooling apparatus for cooling heat source using the same - A thermal diffuser includes a plurality of thermally-conductive plates, each of which has a strip-like shape. The plurality of thermally-conductive plates is laminated onto one another in a plate-thickness direction of the strip-like shape to form a laminated body. Each of the plurality of thermally-conductive plates has thermal conductivities in a longitudinal direction and in a width direction of the strip-like shape better than a thermal conductivity in the plate-thickness direction. The thermally-conductive plates has sides, each of which extends in the longitudinal direction. The laminated body is formed such that the sides of the thermally-conductive plates form a plate surface of the laminated body, which surface extends in the plate-thickness direction that serves as a lamination direction, in which the thermally-conductive plates of the laminated body are laminated. A direction perpendicular to the plate surface corresponds to a thickness direction of the laminated body. | 12-15-2011 |
20120152510 | BONDING STRUCTURE AND BONDING METHOD OF HEAT DIFFUSION MEMBER, AND COOLING UNIT USING THE SAME - A bonding structure includes a first member, a second member and a bonding member. The first member has a plate shape and is made of a carbon-base material. The first member serves as a heat diffusion member that transfers heat at least in a thickness direction, which is perpendicular to a plane of the plate shape. The second member is bonded to the first member through the bonding member. The first member has a metal thin film at least on an opposed surface that is opposed to the second member. The bonding member is disposed between the opposed surface of the first member and the second member. The bonding member is provided by a sintered body of metal particle. For example, the bonding structure is employed in a cooling unit including a heat source. | 06-21-2012 |