Patent application number | Description | Published |
20100154396 | EXHAUST GAS TREATMENT DEVICE - An exhaust gas treatment device, in particular for an internal combustion engine, is fitted with a housing including an entrance and an exit. At least one porous substrate is accommodated in the housing and has an exhaust gas flowing through the substrate. The porous substrate is arranged in the flow path from the entrance to the exit. At least one thermoelectric generator is provided on the housing. | 06-24-2010 |
20100225037 | METHOD AND MACHINE TOOL FOR MANUFACTURING EXHAUST GAS CLEANING DEVICES - A machine tool for manufacturing exhaust gas cleaning devices, in particular diesel particulate filters and catalysts that have a housing and a gas-traversed insert clamped in the housing, comprises at least one tool, in which the insert is clamped in the housing. A heating device that heats the housing is integrated in the tool. In a method for manufacturing exhaust gas cleaning devices, the heated housing is plastically deformed in a machine tool, and the insert is inserted into the housing. | 09-09-2010 |
20120060484 | DEVICE FOR EXHAUST GAS HEAT UTILIZATION - A device for exhaust gas heat utilization in internal combustion engines of motor vehicles includes an exhaust gas line which in sections includes a first exhaust gas flow duct and a second exhaust gas flow duct connected in parallel. A valve flap is movable between a closed position and an open position, which can selectively close or at least partly clear a flow cross-section of the first or second exhaust gas flow duct. At least one thermoelectric generator module is thermally coupled with the second exhaust gas flow duct and with a cooling circuit. The device also includes an expansion material actuator for temperature-dependent actuation of the valve flap. | 03-15-2012 |
20120297755 | MODULE, ASSEMBLY WITH MODULE, THERMOELECTRIC GENERATOR UNIT AND EXHAUST GAS CONDUIT DEVICE WITH GENERATOR UNIT - A thermoelectric module ( | 11-29-2012 |
20130192271 | TEMPERATURE CONTROL SYSTEMS WITH THERMOELECTRIC DEVICES - Temperature control systems and methods can be designed for controlling the interior climate of a vehicle or other the climate of another desired region. The temperature control system for a vehicle can have a thermoelectric system providing heating and/or cooling, including supplemental heating and/or cooling. The thermoelectric system can transfer thermal energy between a working fluid, such as liquid coolant, and comfort air upon application of electric current of a selected polarity. The thermoelectric system can supplement or replace the heat provided from an internal combustion engine or other primary heat source. The thermoelectric system can also supplement or replace cold energy provided from a compressor-based refrigeration system or other primary cold energy source. | 08-01-2013 |
20130192272 | TEMPERATURE CONTROL SYSTEMS WITH THERMOELECTRIC DEVICES - Temperature control systems and methods can be designed for controlling the interior climate of a vehicle or other the climate of another desired region. The temperature control system for a vehicle can have a thermoelectric system providing heating and/or cooling, including supplemental heating and/or cooling. The thermoelectric system can transfer thermal energy between a working fluid, such as liquid coolant, and comfort air upon application of electric current of a selected polarity. The thermoelectric system can supplement or replace the heat provided from an internal combustion engine or other primary heat source. The thermoelectric system can also supplement or replace cold energy provided from a compressor-based refrigeration system or other primary cold energy source. | 08-01-2013 |
20140034102 | HIGH EFFICIENCY THERMOELECTRIC GENERATION - A thermoelectric power generating system is provided that includes at least one thermoelectric assembly. The at least one thermoelectric assembly includes at least one first heat exchanger in thermal communication with at least a first portion of a first working fluid. The first portion of the first working fluid flows through the at least one thermoelectric assembly. The at least one thermoelectric assembly includes a plurality of thermoelectric elements in thermal communication with the at least one first heat exchanger. The at least one thermoelectric assembly further includes at least one second heat exchanger in thermal communication with the plurality of thermoelectric elements and with a second working fluid flowing through the at least one thermoelectric assembly. The second working fluid is cooler than the first working fluid. The thermoelectric power generating system further includes at least one heat exchanger portion configured to have at least some of the first portion of the first working fluid flow through the at least one heat exchanger portion after having flowed through the at least one thermoelectric assembly. The at least one heat exchanger portion is configured to recover heat from the at least some of the first portion of the first working fluid. | 02-06-2014 |
20140338366 | THERMALLY-CONDITIONED BEVERAGE HOLDERS AND BINS - According to some embodiments, thermally-conditioned device comprises a receptacle configured to receive an item, the receptacle comprising a wall, the wall comprising an exterior surface, wherein the receptacle comprises at least one thermally conductive material. The thermally-conditioned device further comprises a thermoelectric device secured to the exterior surface of the wall of the receptacle, and a liquid-loop heat exchange system comprising a cold plate adjacent the thermoelectric device, wherein the thermoelectric device is positioned between the wall of the receptacle and the cold plate, wherein the thermoelectric device is thermally conductive with both the receptacle and the cold plate. | 11-20-2014 |