A radiant heat discharge arrangement for use with a internal combustion engine is disclosed. The internal combustion engine may have an outlet manifold. The radiant heat discharge arrangement may have a cover configured to over the outlet manifold with a clearance between the cover and the outlet ma
A radiant heat discharge arrangement for use with a internal combustion engine is disclosed. The internal combustion engine may have an outlet manifold. The radiant heat discharge arrangement may have a cover configured to over the outlet manifold with a clearance between the cover and the outlet manifold. The cover may have at least one outlet opening. The radiant heat discharge arrangement may also have an air duct having at least one air inlet fluidly connected to the at least one outlet opening of the cover. The air duct may also have an air outlet. Further, the radiant heat discharge arrangement may have a fan fluidly connected to the air outlet.
대표청구항▼
1. A radiant heat discharge arrangement configured to be used with an internal combustion engine including an outlet manifold, the radiant heat discharge arrangement comprising: a cover configured to cover the outlet manifold of the internal combustion engine with a clearance between the cover and t
1. A radiant heat discharge arrangement configured to be used with an internal combustion engine including an outlet manifold, the radiant heat discharge arrangement comprising: a cover configured to cover the outlet manifold of the internal combustion engine with a clearance between the cover and the outlet manifold, the cover including: at least one outlet opening; anda circumferential lower edge being shaped to define an inlet air gap between at least a portion of the circumferential lower edge and the internal combustion engine, the inlet air gap being configured to allow air to enter the clearance from an ambient;an air duct having at least one air inlet fluidly connected to the at least one outlet opening of the cover and an air outlet; anda fan fluidly connected to the air outlet. 2. The radiant heat discharge arrangement according to claim 1, further comprising a heat exchanger fluidly connected to the fan. 3. The radiant heat discharge arrangement according to claim 1, wherein the cover is made of steel sheet. 4. The radiant heat discharge arrangement according to claim 1, wherein the at least one outlet opening of the cover is configured as an engaging member for transportation of the cover. 5. The radiant heat discharge arrangement according to claim 1, wherein the cover is mounted on the internal combustion engine and the at least one outlet opening of the cover is configured to insert a chain connected to a crane. 6. The radiant heat discharge arrangement according to claim 1, further comprising at least one sub air duct fluidly interconnected between the at least one outlet opening of the cover and the at least one air inlet of the air duct. 7. The radiant heat discharge arrangement according to claim 1, wherein the internal combustion engine is one of a diesel, heavy fuel, crude oil, or dual fuel internal combustion engine for one of a marine ship, a power plant, or an offshore application. 8. A power plant, comprising: an engine room;at least one internal combustion engine arranged in the engine room, wherein the at least one internal combustion engine comprises the radiant heat discharge arrangement according to claim 1; anda funnel fluidly connected to the radiant heat discharge arrangement, the funnel being disposed downstream of the radiant heat discharge arrangement. 9. An internal combustion engine, comprising: at least one combustion chamber;an intake manifold configured to charge the at least one combustion chamber with air;an outlet manifold configured to discharge exhaust gas from the combustion chamber to an atmosphere;a radiant heat discharge arrangement, including: a cover disposed above the outlet manifold with a clearance between the cover and the outlet manifold, the cover including: at least one outlet opening in the cover; anda circumferential lower edge being shaped to define an inlet air gap between at least a portion of the circumferential lower edge and the internal combustion engine, the inlet air gap being configured to allow air to enter the clearance from an ambient;an air duct having at least one air inlet and an air outlet, the at least one air inlet being fluidly connected to the at least one outlet opening; anda fan fluidly connected to the air outlet. 10. The internal combustion engine according to claim 9, wherein the cover includes a circumferential lower edge shaped to define an inlet air gap between at least some parts of the circumferential lower edge and the internal combustion engine. 11. The internal combustion engine according to claim 9, further including a heat exchanger fluidly connected to the fan. 12. The internal combustion engine according to claim 11, further including a funnel fluidly connected to the heat exchanger. 13. The internal combustion engine according to claim 12, wherein the fan is configured to remove air heated by the outlet manifold from the cover and discharge the air to the heat exchanger,the heat exchanger is configured to cool the air and discharge the air to the funnel, andthe funnel is configured to discharge the air into the atmosphere. 14. The internal combustion engine according to claim 9, wherein the radiant heat discharge arrangement further includes at least one sub air duct fluidly interconnected between the at least one outlet opening of the cover and the at least one air inlet of the air duct. 15. The internal combustion engine according to claim 9, wherein the cover is made of steel sheet. 16. A method for radiant heat discharge from an internal combustion engine, comprising: operating the internal combustion engine comprising an outlet manifold;collecting heated ambient air below a cover arranged to provide a clearance between the cover and the outlet manifold, the cover being configured to be mounted on the internal combustion engine and comprising a circumferential lower edge, which is shaped to define an inlet air gap between at least some parts of the circumferential lower edge and the internal combustion engine;receiving cool ambient air from the inlet air gap into the clearance; andremoving the heated ambient air from the clearance between the cover and the outlet manifold through at least one outlet opening in the cover. 17. A method for radiant heat discharge of an internal combustion engine, comprising: operating the internal combustion engine comprising an outlet manifold;collecting heated ambient air below a cover arranged to provide a clearance between the cover and the outlet manifold;receiving cool ambient air from an inlet air gap between the cover and the internal combustion engine into the clearance; andremoving the heated ambient air from a space between the cover and the outlet manifold through at least one outlet opening in the cover. 18. The method for radiant heat discharge according to claim 17, further comprising: conveying the heated ambient air to a heat exchanger; andtransferring the heat of the heated ambient air to a heat demanding system. 19. The method for radiant heat discharge according to claim 17, further comprising conveying the ambient air to the environment.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (9)
Gieshoff Jurgen,DEX ; Lox Egbert,DEX ; Kreuzer Thomas,DEX, Auxiliary heating for motor vehicles with internal combustion engines.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.