A passageway is provided between branches of a multi-branch exhaust manifold to reduce the amount of backflow (iEGR) into the cylinders at low engine speeds. The passage is located upstream of the turbocharger and can be at the part of the manifold where the branches merge for entry into the turbo.
A passageway is provided between branches of a multi-branch exhaust manifold to reduce the amount of backflow (iEGR) into the cylinders at low engine speeds. The passage is located upstream of the turbocharger and can be at the part of the manifold where the branches merge for entry into the turbo. The passageway allows exhaust pressure pulse modulation so that high iEGR levels (using iEGR through delayed exhaust valve closing for example) are avoided. The passage may be controllable to modulate the effect based on engine conditions.
대표청구항▼
What is claimed is: 1. An internal combustion engine comprising; a plurality of cylinders, each of said cylinders having a corresponding exhaust valve, said cylinders being divided into at least a first set and a second set; an exhaust manifold, said exhaust manifold further having at least a first
What is claimed is: 1. An internal combustion engine comprising; a plurality of cylinders, each of said cylinders having a corresponding exhaust valve, said cylinders being divided into at least a first set and a second set; an exhaust manifold, said exhaust manifold further having at least a first branch and a second branch, said first branch being in direct fluid communication with said cylinders in said first cylinder set and said second branch being in direct fluid communication with said cylinders in said second cylinder set when said corresponding exhaust valves are in an open position; an internal exhaust gas recirculation arrangement, allowing at least part of the exhaust gas to flow from said exhaust manifold into said cylinders during at least part of an intake stroke of said cylinders; a turbocharger connected to said exhaust manifold; and a passage located in or proximal to said exhaust manifold and proximate to said turbocharger for fluidly connecting said first branch and said second branch to reduce the flow of exhaust gas from said exhaust manifold into said cylinders. 2. An internal combustion engine according to claim 1, wherein the sectional area of said passage is controllable. 3. An internal combustion engine according to claim 1, wherein said exhaust valve is cam actuated. 4. An internal combustion engine according to claim 1, wherein said exhaust valve is actuated by hydraulic, pneumatic or electric actuators. 5. An internal combustion engine according to claim 1, wherein said engine is a six cylinder in-line engine. 6. An internal combustion engine according to claim 1, wherein said manifold has two branches and each of said two branches has a direct fluid connection to three of said plurality of cylinders when said corresponding exhaust valves are in an open position. 7. An internal combustion engine according claim 1, wherein said first branch and said second branch share a common wall and said passage is located in said common wall. 8. An internal combustion engine according to claim 1, wherein at least part of an exhaust gas inlet of said turbocharger maintains a gas flow separation from said cylinder sets. 9. An internal combustion engine according to claim 1, wherein said internal combustion engine is a compression ignition engine. 10. An internal combustion engine according to claim 1, wherein each of said cylinders further has a corresponding inlet valve, and there is a significant overlap of the periods in which said exhaust valve and said inlet valve are at least partially open. 11. An internal combustion engine according to claim 1, wherein a cylinder receives multiple fuel injections per cycle. 12. A method of operating an internal combustion engine having a turbocharger, wherein the engine includes: a plurality of cylinders, each of said cylinders having a corresponding exhaust valve, said cylinders being divided into at least a first cylinder set and a second cylinder set, an exhaust manifold, said exhaust manifold further having at least a first branch and a second branch, said first branch being in direct fluid communication with said cylinders in said first cylinder set and said second branch being in direct fluid communication with said cylinders in said second cylinder set when said corresponding exhaust valves are in an open position, the method comprising: allowing at least part of the exhaust gas to flow from said exhaust manifold into said cylinders during at least part of an intake stroke of said cylinders; and reducing the flow of exhaust gas from said exhaust manifold into said cylinders by fluidly connecting said first branch and said second branch by means of a passage located in said exhaust manifold proximate to said turbocharger. 13. A method according to claim 12, comprising the step of controlling the sectional area of said passage. 14. A method according to claim 12, wherein the sectional area of said passage is controlled during operation of the engine such that the sectional area of said passage is less than maximal during lower engine speeds. 15. A method according to claim 12, wherein the closing of said exhaust valve is delayed. 16. A method according to claim 12, wherein said exhaust valve travels towards a lower end of said internal combustion engine more than once per combustion cycle. 17. A turbocharger and multi-cylinder internal combustion engine combination, comprising: a plurality of cylinders, each of said cylinders having a corresponding exhaust valve, said cylinders being divided into sets; an exhaust manifold having at least two branches, each of said branches being in direct fluid connection with said cylinders in one of said cylinder sets when said corresponding exhaust valves are in an open position; an internal exhaust gas recirculation arrangement, allowing at least part of the exhaust gasses to flow back from said exhaust manifold into said cylinders during an intake stroke of said cylinders; an exhaust gas inlet for said turbocharger, at least part of said exhaust gas inlet being adapted to maintain the gas flow separation from said cylinder sets; and a passage adapted to fluidly connect at least said at least two branches to reduce the back flow of exhaust gasses from said exhaust manifold into said cylinders, said passage being located in said exhaust gas inlet of said turbocharger.
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