An EGR cooling system is provided. The EGR cooling system comprising a plurality of EGR coolers configured to cool the EGR to a plurality of successively lower temperatures, where at least one of the plurality of EGR coolers includes a finned EGR cooler that comprises a plurality of channels for dis
An EGR cooling system is provided. The EGR cooling system comprising a plurality of EGR coolers configured to cool the EGR to a plurality of successively lower temperatures, where at least one of the plurality of EGR coolers includes a finned EGR cooler that comprises a plurality of channels for dissipating heat in the EGR, the plurality of channels increasing heat transfer surface area while having sufficient fin spacing to avoid clogging. The EGR cooling system may further comprise a catalyst configured to remove particle matters and/or hydrocarbons from the EGR, the catalyst positioned upstream of at least one of the plurality of EGR coolers.
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The invention claimed is: 1. An EGR cooling system for cooling EGR of an engine, comprising: a plurality of EGR coolers configured to cool the EGR to a plurality of successively lower temperatures, including a first EGR cooler that cools the EGR to a first temperature by an engine coolant of an eng
The invention claimed is: 1. An EGR cooling system for cooling EGR of an engine, comprising: a plurality of EGR coolers configured to cool the EGR to a plurality of successively lower temperatures, including a first EGR cooler that cools the EGR to a first temperature by an engine coolant of an engine coolant loop, a second EGR cooler that cools the EGR to a second, lower, temperature by an auxiliary coolant of an auxiliary coolant loop, wherein at least one of the EGR coolers includes a finned EGR cooler that comprises a plurality of channels for dissipating heat in the EGR, the plurality of channels increasing heat transfer surface area while having sufficient fin spacing to avoid clogging; a water-to-air charge air cooler included in the auxiliary coolant loop; and a catalyst configured to remove particle matters and/or hydrocarbons from the EGR, the catalyst positioned upstream of at least one of the plurality of EGR coolers. 2. The EGR cooling system of claim 1, wherein the first temperature is higher than the second temperature, and wherein the first EGR cooler is positioned upstream of the second EGR cooler in a path of the EGR. 3. The EGR cooling system of claim 2, wherein the engine coolant has a temperature of approximately 95° C. and the auxiliary coolant has a temperature of approximately 45° C. 4. The EGR cooling system of claim 1, wherein each of the first EGR cooler and the second EGR cooler is a finned EGR cooler that includes a plurality of channels for dissipating heat of the EGR, the plurality of channels having fin pitches equal to or greater than 2.5 mm and fin shapes being continuous and smooth with closed passages that provide no gas flow communication between neighboring channels. 5. The EGR cooling system of claim 1, wherein the first EGR cooler and the second EGR cooler are integrated into an integrated EGR cooling unit. 6. The EGR cooling system of claim 1, wherein the catalyst includes a self-regenerative particulate filter, and where the engine is a turbocharged engine. 7. The EGR cooling system of claim 6, wherein the self-regenerative particulate filter is positioned upstream of each of the plurality of the EGR coolers. 8. The EGR cooling system of claim 1 further comprising an EGR cooler bypass for bypassing the EGR through one or more of the plurality of EGR coolers. 9. The EGR cooling system of claim 8, wherein the EGR cooler bypass includes an EGR cooler bypass bypassing the EGR through all of the plurality of the EGR coolers. 10. A method for cooling EGR of an engine, comprising: passing at least a portion of the EGR through a catalyst to remove at least some particle matters and/or hydrocarbons in the EGR; and then passing the portion of EGR through a first cooler, the first cooler having coolant at a first temperature flowing there through; and then passing the portion of EGR through a second cooler, the second cooler having coolant at a second temperature flowing there through; dissipating heat from the portion of EGR through fins in at least one of the first and second coolers; and circulating the first coolant through an engine coolant loop, and circulating the second coolant through an auxiliary coolant loop, the auxiliary coolant loop being separate from the engine coolant loop, the auxiliary coolant loop including a charge air cooler. 11. The method of claim 10, further comprising passing the portion of EGR through at least one of the coolers under selected operating conditions. 12. The method of claim 11 where the first temperature is higher than the second temperature. 13. The method of claim 10, wherein the engine is a turbocharged engine, wherein the charge air cooler is a water-to-air charge air cooler. 14. The method of claim 13, wherein the first EGR cooler and the second EGR cooler are integrated into a unitary EGR cooling unit, and where the first EGR cooler cools the EGR using an engine coolant having a temperature of approximately 95° C. and the second EGR cooler cools the EGR using a coolant having a temperature of approximately 45° C., at least under selected operating conditions. 15. An EGR cooling system for an engine, comprising: a water-to-air charge air cooler; an engine coolant loop having a first coolant, the first coolant circulated through the engine; an auxiliary coolant loop having a second coolant, the second coolant circulated through the charge air cooler as well; an integrated EGR cooling unit that includes a first EGR cooler being coupled to the engine coolant loop, and a second EGR cooler being coupled to the auxiliary coolant loop; an EGR cooler bypass for bypassing the integrated EGR cooling unit; and a catalyst configured to trap particulate matters and/or oxidize hydrocarbons in the EGR, the catalyst positioned upstream of the integrated EGR cooling unit and upstream of the EGR cooler bypass. 16. The system of claim 15, wherein the first coolant of the engine coolant loop is separate from the second coolant of the auxiliary coolant loop. 17. The system of claim 16 wherein the catalyst includes a particulate filter. 18. The system of claim 17 wherein the integrated EGR cooling unit includes a finned EGR cooler, the finned EGR cooler having a plurality of channels having fin pitches equal to or greater than 2.5 mm.
Blumendeller, Wilhelm; Mueller, Horst, Method and device for adapting the efficiency of a cooler in the return circuit of exhaust gas in an internal combustion engine.
Styles, Daniel Joseph; Surnilla, Gopichandra; Hakeem, Mohannad; VanDerWege, Brad Alan; House, Christopher; Shelby, Michael Howard, System and methods for extracting water from exhaust gases for water injection.
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