An engine system is disclosed. The engine system may have an engine having an accessory end and a drive end opposite the accessory end. The engine system may also have a turbocharger arrangement located adjacent the accessory end. The turbocharger arrangement may be configured to receive exhaust fro
An engine system is disclosed. The engine system may have an engine having an accessory end and a drive end opposite the accessory end. The engine system may also have a turbocharger arrangement located adjacent the accessory end. The turbocharger arrangement may be configured to receive exhaust from the engine and to deliver compressed air to the air cooling arrangement. Further, the engine system may have an air cooling arrangement located adjacent the accessory end and configured to deliver fresh air to the engine. In addition, the engine system may have a mixing duct extending from the accessory end to the drive end and configured to receive the exhaust from the turbocharger arrangement. The engine system may also have an after-treatment system located adjacent the drive end. The after-treatment system may be configured to receive the exhaust from the mixing duct and to discharge the exhaust to an ambient.
대표청구항▼
1. An engine system, comprising: an engine having an accessory end and a drive end opposite the accessory end;a turbocharger arrangement located adjacent the accessory end, the turbocharger arrangement being configured to receive exhaust from the engine and deliver compressed air for combustion in t
1. An engine system, comprising: an engine having an accessory end and a drive end opposite the accessory end;a turbocharger arrangement located adjacent the accessory end, the turbocharger arrangement being configured to receive exhaust from the engine and deliver compressed air for combustion in the engine;an air cooling arrangement located adjacent the accessory end, the air cooling arrangement being configured to receive the compressed air from the turbocharger arrangement, cool the compressed air, and deliver the compressed air to the engine;a mixing duct extending from the accessory end to the drive end and configured to receive the exhaust from the turbocharger arrangement; andan after-treatment system located adjacent the drive end, the after-treatment system being configured to receive the exhaust from the mixing duct, treat the exhaust, and discharge the exhaust to an ambient, wherein: the engine includes an exhaust manifold configured to receive the exhaust from the engine and deliver the exhaust to the turbocharger arrangement; andthe exhaust manifold is located at a first gravitationally lower position than the mixing duct. 2. The engine system of claim 1, wherein the air cooling arrangement is located at a gravitationally lower position than the turbocharger arrangement. 3. The engine system of claim 1, wherein: the engine includes an intake manifold configured to receive the compressed air from the air cooling arrangement and deliver the compressed air to the engine; andthe intake manifold is located at a second gravitationally lower position than the exhaust manifold. 4. The engine system of claim 3, wherein the turbocharger arrangement includes: at least one high-pressure turbocharger, including:a high-pressure turbine; anda high-pressure compressor; andat least one low-pressure turbocharger, including:a low-pressure turbine; anda low-pressure compressor. 5. The engine system of claim 4, wherein the air cooling arrangement includes: a first cooler configured to receive the compressed air from the low-pressure compressor and deliver chilled air to the high-pressure compressor; anda second cooler configured to receive the compressed air from the high-pressure compressor and deliver the chilled air to the intake manifold. 6. The engine system of claim 5, wherein the air cooling arrangement includes: an outlet located at an upper wall of the air cooling arrangement;a compact duct configured to deliver air from the first cooler to the high-pressure compressor via the outlet;an inlet located at the upper wall and configured to receive the air from the high-pressure compressor; anda passageway fluidly connected to the inlet and configured to deliver the air to the second cooler. 7. The engine system of claim 4, wherein: the at least one low-pressure turbocharger is a first low-pressure turbocharger;the engine system includes a second low-pressure turbocharger; andthe first and the second low-pressure turbochargers are located at a gravitationally higher position than the at least one high-pressure turbocharger. 8. The engine system of claim 7, wherein the first low-pressure turbocharger, the second low-pressure turbocharger, and the at least one high-pressure turbocharger are attached to a support structure connected to the engine. 9. The engine system of claim 7, wherein the first low-pressure turbocharger and the second low-pressure turbocharger are located on either side of the at least one high-pressure turbocharger. 10. The engine system of claim 7, wherein high-pressure turbocharger, the first low-pressure turbocharger, and the second low-pressure turbocharger are about equal in size. 11. The engine system of claim 7, wherein the at least one high-pressure turbocharger is configured to receive the exhaust from the exhaust manifold and the engine system further includes an elbow configured to: receive the exhaust from the at least one high-pressure turbocharger;divide the exhaust into two exhaust flows; anddirect the two exhaust flows to the first low-pressure turbocharger and the second low pressure turbocharger. 12. The engine system of claim 11, wherein the mixing duct includes: a duct fluidly connecting the turbocharger arrangement and the after-treatment system; andan adapter configured to receive the two exhaust flows from the first and the second low-pressure turbochargers and deliver a mixed exhaust flow to the duct. 13. The engine system of claim 1, further including a transition duct configured to deliver the exhaust from the mixing duct to the after-treatment system. 14. The engine system of claim 1, further including: an exhaust gas recirculation arrangement configured to direct a portion of exhaust from the engine to an intake manifold; andat least one control valve located in the exhaust gas recirculation arrangement to control the portion of exhaust. 15. The engine system of claim 1, further including: a passageway configured to direct a portion of the exhaust from the engine to the mixing duct; anda control valve located in the passageway and configured to selectively control the portion of the exhaust. 16. The engine system of claim 15, further including a coolant duct located near the control valve and configured to cool the control valve using coolant from the engine. 17. The engine system of claim 1, further including: a support structure;a cantilevered frame attached to the support structure and configured to support the after-treatment system located above the engine; andsupport members connecting the cantilevered frame to the engine. 18. The engine system of claim 17, further including an alternator structure disposed at the drive end of the engine, wherein the after-treatment system is located above and connected to the alternator structure.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (10)
Cattani, Luis Carlos; Popadiuc, Peter; Melhem, Bashar Y.; Zielke, Martin R., Adaptive EGR cooling system.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.