An engine arrangement includes an engine, an exhaust line downstream of the engine, an aftertreatment device in the exhaust line, and a conduit between a source of fluid and a point in the exhaust line upstream of the aftertreatment device. A method is also disclosed.
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1. An engine arrangement, comprising: an engine;an exhaust line downstream of the engine;an aftertreatment device in the exhaust line;an upstream device upstream of the aftertreatment device;a conduit between a source of cooling fluid and a point in the exhaust line upstream of the aftertreatment de
1. An engine arrangement, comprising: an engine;an exhaust line downstream of the engine;an aftertreatment device in the exhaust line;an upstream device upstream of the aftertreatment device;a conduit between a source of cooling fluid and a point in the exhaust line upstream of the aftertreatment device and disposed between the upstream device and the aftertreatment device;a temperature sensor proximate the point in the exhaust line;a controller for receiving a signal from the temperature sensor;a valve in the conduit, the valve being controlled by the controller in response to the signal from the temperature sensor for selective introduction of cooling fluid into the exhaust line; anda second temperature sensor proximate a point where the conduit connects to the source of fluid, the controller receiving a signal from the second temperature sensor, the controller controlling the valve as a function of the signal from the first temperature sensor and the signal from the second temperature sensor,wherein the aftertreatment device comprises an SCR arranged to be operated within a predetermined range of temperatures, the upstream device is adapted to at least occasionally operate at a temperature greater than an upper temperature of the range of temperatures, and the valve is controlled by the controller to introduce cooling fluid into the exhaust when the upstream device is operated at or above the upper temperature. 2. The engine arrangement as set forth in claim 1, wherein the controller is adapted to control the valve to open to a plurality of positions between fully open and fully closed in response to the signal from the temperature controller. 3. The engine arrangement as set forth in claim 2, comprising a second temperature sensor proximate a point where the conduit connects to the source of fluid, the controller receiving a signal from the second temperature sensor, the controller controlling the valve as a function of the signal from the first temperature sensor and the signal from the second temperature sensor. 4. The engine arrangement as set forth in claim 3, wherein the controller is adapted to control the valve to open to a plurality of positions between fully open and fully closed in response to the signal from the temperature controller. 5. The engine arrangement as set forth in claim 1, wherein the controller is adapted to control the valve to open to a plurality of positions between fully open and fully closed in response to the signal from the temperature controller. 6. The engine arrangement as set forth in claim 1, wherein the source of fluid comprises an air intake line upstream of and leading to the engine. 7. The engine arrangement as set forth in claim 6, comprising a charge air cooler in the intake line, the conduit being connected to the intake line downstream of the charge air cooler. 8. The engine arrangement as set forth in claim 1, wherein the source of fluid comprises a compressor. 9. The engine arrangement as set forth in claim 1, wherein the upstream device comprises an upstream aftertreatment device upstream of the aftertreatment device, the point in the exhaust line being disposed between the upstream aftertreatment device and the aftertreatment device. 10. The engine arrangement as set forth in claim 9, wherein the upstream aftertreatment device is a DPF. 11. The engine arrangement as set forth in claim 1, wherein the source of fluid comprises a source of water. 12. The engine arrangement as set forth in claim 1, wherein the source of fluid comprises a compressor of a turbocharger of the engine. 13. A method of controlling temperature in an exhaust line, comprising: measuring exhaust temperature in an exhaust line at a point upstream of an aftertreatment device, the aftertreatment device comprising an SCR operable within a predetermined range of temperatures;operating a device upstream of the aftertreatment device at a temperature above an upper temperature of the range of temperatures;sending a signal to a controller corresponding to the measured temperature;introducing a cooling fluid to the exhaust line at or upstream from the measuring point when the upstream device is operated at the temperature at or above the upper temperature by controlling a valve with the controller as a function of the measured temperature, the valve being disposed in a line between the exhaust line and a source of the cooling fluid;measuring a temperature of the fluid introduced to the exhaust line, sending a signal to the controller corresponding to the measured introduced fluid temperature, andcontrolling introduction of fluid to the exhaust line as a function of the measured temperature and the measured introduced fluid temperature. 14. The method of controlling temperature in the exhaust line as set forth in claim 13, wherein the upstream device is an upstream aftertreatment device, the method comprising introducing exhaust to the upstream aftertreatment device upstream of the aftertreatment device at an upstream temperature and raising the upstream temperature. 15. The method of controlling temperature in the exhaust line as set forth in claim 13, comprising measuring a second exhaust temperature in the exhaust line at a second point upstream of a second aftertreatment device, sending a signal to the controller corresponding to the second measured temperature, and introducing fluid to the exhaust line at or upstream from the second measuring point under control of the controller as a function of the second measured temperature. 16. The method of controlling temperature in the exhaust line as set forth in claim 13, wherein the exhaust line is connected downstream of an engine and an intake line is connected upstream of the engine, comprising introducing between 10-15% of intake fluid to the exhaust line. 17. The method of controlling temperature in the exhaust line as set forth in claim 13, comprising introducing the cooling fluid by withdrawing the cooling fluid from a compressor of a turbocharger of an engine that exhausts into the exhaust line. 18. An engine arrangement, comprising: an engine;an exhaust line downstream of the engine;an aftertreatment device in the exhaust line;a DPF upstream of the aftertreatment device;a conduit between a source of cooling fluid and a point in the exhaust line upstream of the aftertreatment device, the point in the exhaust line being disposed between the DPF and the aftertreatment device;a first temperature sensor proximate the point in the exhaust line;a second temperature sensor proximate a point where the conduit connects to the source of fluid;a controller for receiving a signal from the first temperature sensor and a signal from the second temperature sensor and controlling the valve as a function of the signal from the first temperature sensor and the signal from the second temperature sensor; anda valve in the conduit, the valve being controlled by the controller in response to the signal from the temperature sensor for selective introduction of cooling fluid into the exhaust line,wherein the aftertreatment device comprises an SCR. 19. The engine arrangement as set forth in claim 18, wherein the source of fluid comprises a compressor of a turbocharger of the engine.
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이 특허에 인용된 특허 (18)
Tost Rainer,DEX, Apparatus and method for the after-treatment of exhaust gases from an internal combustion engine operating with excess air.
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