Systems and methods for operating a twin scroll turbocharged engine with a junction configured to selectively control exhaust gas delivery to an exhaust gas recirculation system and a twin scroll turbine are provided.
대표청구항▼
1. A turbocharged in-line engine system comprising: a first scroll and a second scroll fluidically coupled to a turbine, the first scroll coupled to a first set of inner engine cylinders, the second scroll coupled to a second set of outer engine cylinders;a first EGR takeoff including a first valve,
1. A turbocharged in-line engine system comprising: a first scroll and a second scroll fluidically coupled to a turbine, the first scroll coupled to a first set of inner engine cylinders, the second scroll coupled to a second set of outer engine cylinders;a first EGR takeoff including a first valve, the first EGR takeoff fluidically coupled to the first scroll;a second EGR takeoff including a second valve, the second EGR takeoff fluidically coupled to the second scroll, the first and second valves coupled in a common housing, the first and second valves being dual butterfly valves where the dual butterfly valves are coupled to a common rotating shaft;a turbine wastegate coupled around the turbine; andan EGR conduit coupled to the first and second EGR takeoffs. 2. The engine system of claim 1, further comprising a computer readable storage medium having instructions encoded thereon, including: instructions to, during a first condition close the first and second valves; andinstructions to, during a second condition open the first and second valves. 3. The engine system of claim 2, wherein the first condition includes high load and low speed engine operating conditions. 4. The engine system of claim 2, wherein the second condition includes high load and high speed engine operating conditions. 5. The engine system of claim 2, wherein the instructions further include instructions to close the first and second valves during engine accelerations. 6. The engine system of claim 2, wherein the instructions further include instructions to operate an engine with a second amount of positive valve overlap in at least one cylinder of the engine during the second condition, where the second amount of positive valve overlap is less than a first amount of positive valve overlap employed during the first condition. 7. The engine system of claim 2, wherein the instructions further include instructions to operate an engine with a second amount of spark retard in at least one cylinder of the engine, where the second amount of spark retard is less than a first amount of spark retard used in the first condition. 8. The engine system of claim 1, wherein the dual butterfly valves include a coolant circulating therethrough. 9. The engine system of claim 1, wherein the first and second valves are configured to open and close synchronously. 10. The engine system of claim 8, wherein the common housing has a dual-bored body housing the dual butterfly valves. 11. The engine system of claim 1, wherein the common housing further comprises a dual-bore body with an engine mount having a substantially flat mounting portion coupled with an engine, and further having a turbine mount opposing the engine mount, the turbine mount having a substantially flat mounting portion coupled with the turbine. 12. A turbocharged engine system, comprising: a first scroll and a second scroll fluidically coupled to a turbine, the first scroll coupled to a first set of engine cylinders, the second scroll coupled to a second set of engine cylinders;a first EGR takeoff including a first valve, the first EGR takeoff fluidically coupled to the first scroll;a second EGR takeoff including a second valve, the second EGR takeoff fluidically coupled to the second scroll, both the first and second EGR takeoffs positioned in a junction therebetween;an EGR conduit coupled to the first and second EGR takeoffs downstream of the junction; anda dual-bore body housing the first and second valves, the housing having an engine mount having a substantially flat mounting portion coupled with an engine, and further having a turbine mount opposing the engine mount, the turbine mount having a substantially flat mounting portion coupled with the turbine. 13. The engine system of claim 12, further comprising: a computer readable storage medium having instructions encoded thereon, including: instructions to, during a first condition close the first and second valves; andinstructions to, during a second condition open the first and second valves. 14. The engine system of claim 13, wherein the first condition includes high load and low speed engine operating conditions. 15. The engine system of claim 14, wherein the second condition includes high load and high speed engine operating conditions. 16. The engine system of claim 15, wherein the first and second valves are dual butterfly valves. 17. The engine system of claim 16, wherein the dual butterfly valves include a coolant circulating therethrough, and where the dual butterfly valves are coupled to a common rotating shaft. 18. The engine system of claim 16, wherein the dual butterfly valves are housed in the dual-bore body. 19. The engine system of claim 15, wherein the first and second valves are configured to open and close synchronously. 20. The engine system of claim 15, wherein the instructions further include instructions to close the first and second valves during engine accelerations. 21. The engine system of claim 14, wherein the instructions further include instructions to operate the engine with a second amount of spark retard in at least one cylinder of the engine, where the second amount of spark retard is less than a first amount of spark retard used in the first condition. 22. The engine system of claim 14, wherein the instructions further include instructions to operate the engine with a second amount of positive valve overlap in at least one cylinder of the engine during the second condition, where the second amount of positive valve overlap is less than a first amount of positive valve overlap employed during the first condition.
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이 특허에 인용된 특허 (10)
Yamagata, Naoyuki, Control of supercharged engine.
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