Patent application number | Description | Published |
20130031894 | METHOD AND EXHAUST-GAS TREATMENT DEVICE FOR REGENERATING AN EXHAUST-GAS PURIFICATION COMPONENT AND MOTOR VEHICLE HAVING THE EXHAUST-GAS TREATMENT DEVICE - A method and an exhaust-gas treatment device for regenerating an exhaust-gas purification component include charging at least one capacitor and heating at least one sub-volume of the exhaust-gas purification component to at least 900° C. by supplying at least a part of the energy stored in the capacitor. A particle burn-off reaction can be started from the at least one sub-volume for a large volume of exhaust-gas purification components. Exhaust-gas purification components in an exhaust system of an internal combustion engine can thus be completely regenerated in an energy-efficient manner. A vehicle having the exhaust-gas treatment device and carrying out the method is also provided. | 02-07-2013 |
20130145932 | METHOD AND APPARATUS FOR REDUCING SOOT PARTICLES IN THE EXHAUST GAS OF AN INTERNAL COMBUSTION ENGINE - An apparatus for reducing soot particles in exhaust gas, particularly of an internal combustion engine, includes first and second at least partially electrically conductive structures with an intermediate space therebetween, a high voltage source forming a potential between the first and second structures and at least one at least partially electrically conductive intermediate structure in the intermediate space receiving an intermediate potential. A method for treating the exhaust gas includes conducting exhaust gas from the first to the second structure and applying a high voltage at least temporarily between the first and second structures. At least part of the soot particles in the exhaust gas is ionized or agglomerated and deposited on the second structure. A high voltage between potentials of the first and second structures is applied at least temporarily to the intermediate structure. An electric field is influenced favorably and disruptions from undesirable voltage flashovers are reduced. | 06-13-2013 |
20130153059 | HOLDER FOR AT LEAST ONE ELECTRODE IN AN EXHAUST-GAS LINE AND APPARATUS HAVING AT LEAST ONE HOLDER - A holder for at least one electrode, in particular a discharge electrode which is suitable for producing a corona discharge, in an exhaust-gas line, includes a body through which an exhaust gas can flow and at least one electric contact for the at least one electrode. Preferably, the at least one electric contact is integrated into the body. An apparatus for fixing at least one electric electrode in an exhaust-gas line is also proposed. The apparatus has at least one such holder and the apparatus has a particle separator disposed downstream in exhaust gas flow direction. | 06-20-2013 |
20130175174 | DEVICE HAVING AN ANNULAR ELECTRODE FOR DECREASING SOOT PARTICLES IN THE EXHAUST GAS OF AN INTERNAL COMBUSTION ENGINE - A device for decreasing soot particles in exhaust gas, especially from an internal combustion engine, includes concentric outer and inner tubes forming an intermediate space through which the exhaust gas can flow. At least one annular electrode with a multiplicity of electrode tips protruding radially into the intermediate space is disposed on the inside of the outer tube. Terminals can connect the annular electrode and inner tube to a high voltage source forming an electric field in the intermediate space. At least two electrodes are preferably disposed axially at an electrode spacing of preferably 10 to 30 mm. The electrode tips can be approximately conical or pin-shaped with a radial length of 3 to 10 mm. The electrode tips of each electrode have a tip spacing in circumferential direction of 3 to 20 mm or 5 to 10 mm creating a very effective and uniform radial electric field for ionization. | 07-11-2013 |
20130199838 | CONFIGURATION FOR A POWER SUPPLY OF A COMPONENT IN AN EXHAUST GAS SYSTEM - A configuration for a power supply of a component in an exhaust gas system includes at least one electrical contact disposed at an exhaust gas line. The at least one electrical contact is surrounded by an electrical insulation material. | 08-08-2013 |
20130216440 | DEVICE FOR TREATING EXHAUST GAS CONTAINING SOOT PARTICLES - A device for treating exhaust gas containing soot particles includes at least one ionization element for ionizing soot particles, at least one filter element having at least one section to which an electrical potential can be applied, and at least one flow-directing device. The flow-directing device can influence a flow of the exhaust gases in such a way that the soot particles can be prevented from being deposited on at least one electric insulation of the ionization element or of the filter element or can be removed therefrom. Soot particles are therefore effectively prevented from being deposited on electric insulation of exhaust gas cleaning components, thereby preventing short-circuits from being produced and permitting exhaust gas systems to be safely operated. | 08-22-2013 |
20130255231 | DEVICE FOR TREATING EXHAUST GAS CONTAINING SOOT PARTICLES AND MOTOR VEHICLE HAVING THE DEVICE - A device for treating exhaust gas containing soot particles includes at least one ionization element for ionizing soot particles, at least one filter element having at least one section to which an electric potential can be applied and at least one agglomeration unit for at least partial agglomeration of electrically charged soot particles. The agglomeration unit is disposed between the ionization element and the filter element and the agglomeration unit has at least one outer pipe and at least one inner element. The filtering power of an exhaust system of an internal combustion engine is therefore increased by an increase in the agglomeration rate of the soot particles. A motor vehicle having the device is also provided. | 10-03-2013 |
20130291731 | DEVICE FOR PRODUCING AN ELECTRICAL FIELD IN AN EXHAUST GAS SYSTEM - A device for producing an electrical field in an exhaust gas system includes an exhaust gas line in which at least one electrode is disposed. The at least one electrode is in contact with a power supply and is constructed to have at least one metal plate. | 11-07-2013 |
20140112850 | DEVICE HAVING AN ELECTRICALLY HEATABLE HONEYCOMB BODY AND METHOD FOR OPERATING THE HONEYCOMB BODY - A device for exhaust gas treatment in an exhaust system of an internal combustion engine, in particular in a motor vehicle, includes an electrically heatable honeycomb body through which an exhaust gas can flow. The honeycomb body is disposed in a casing tube and has at least one current-conducting structure with electric insulation for voltages greater than 24 V. A current-generating pulsed voltage is applied to the structure to heat the honeycomb body. It is thus possible for heating elements in the exhaust-gas flow to be powered by an on-board electrical system voltage of for example 48 V. A method for operating the honeycomb body is provided with which, even at operating voltages greater than 24 V, the generation of heat in the electrically heatable honeycomb body can be kept in a desired range by adjustment of a pulse width and/or repetition frequency of the pulsed voltage. | 04-24-2014 |
20140157761 | METHOD FOR REGULATING AN IONIZATION DEVICE IN AN EXHAUST-GAS AFTERTREATMENT APPARATUS AND MOTOR VEHICLE IN WHICH THE METHOD IS CARRIED OUT - A method for regulating an ionization device in an exhaust gas after-treatment device of an internal combustion engine, includes placing at least one cathode at a distance from an anode in the exhaust gas after-treatment device, applying a high voltage between the at least one cathode and the anode, predefining a first value for the high voltage, detecting a current generated by the high voltage between the at least one cathode and the anode and predefining a second value for the high voltage if the detected current exceeds a predefinable first current intensity for a predefinable number of times. A motor vehicle in which the method is carried out is also provided. | 06-12-2014 |
20140209201 | MOUNTING HAVING AT LEAST ONE ELECTRODE AND EXHAUST LINE DEVICE HAVING AT LEAST ONE MOUNTING - A mounting includes at least one electrode producing electric fields in an exhaust gas line, a disk of electrically insulating material having inflow and outflow sides and openings for exhaust gas, and at least one electrical conductor fastened to and/or in the disk. The electrical conductor is covered by the electrically insulating material at least on the inflow side and in electrical contact with the electrodes extending toward the outflow side. Since the electrical conductor is completely surrounded by insulating material during operation, an area that must be covered by a soot layer for a leakage current to develop is increased. The leakage length increases and one or more electrodes are in the exhaust gas at the same time. The soot particles deposited on the mounting and the exhaust gas line, need to be removed less often. An exhaust line device having at least one mounting is also provided. | 07-31-2014 |
20140366736 | DEVICE FOR TREATING A GAS STREAM FLOWING RADIALLY OUTWARDLY FROM A CENTRAL AREA - A device for treating a gas stream, especially an exhaust-gas stream of an internal combustion engine, includes at least one radial chamber radially conducting the gas stream and extending substantially radially from a central region to an outer collecting chamber. First and second, preferably parallel, substantially disk-shaped walls delimit the chamber. Electrodes project from the first wall into the chamber. The first wall is formed of electrically insulating material having the electrodes fastened therein and electrically interconnected by electrical conductors in or on the insulating material. Two or more chambers may be disposed, axially in series, around the central region. Very effective treatment of exhaust gas with an electric field for ionization or generating a plasma can be provided over a relatively short structural length in a flow direction. Electric fields running transversely to the flow direction provide new possibilities for selecting various parameters of the treatment device. | 12-18-2014 |