Apparatus and method for cooling heated fluids, such as exhaust gases, flowing through a heat exchanger comprising one or more exhaust plenums and one or more coolant plenums, and providing increased coolant velocity in that portion of the coolant plenums contacting the inlet portion of the exhaust
Apparatus and method for cooling heated fluids, such as exhaust gases, flowing through a heat exchanger comprising one or more exhaust plenums and one or more coolant plenums, and providing increased coolant velocity in that portion of the coolant plenums contacting the inlet portion of the exhaust plenums. Local increased coolant velocity is provided by any means, including decreasing the area-in-flow of the coolant plenums wherein increased velocity is desired, shaping or baffling either or both inlet or outlet coolant tanks in fluidic contact with coolant plenums wherein increased velocity is desired, or a combination thereof.
대표청구항▼
What is claimed is: 1. A heat exchanger comprising: a heat exchanger inlet for receiving flowing heated fluid at an inlet temperature and a heat exchanger outlet for discharging flowing heated fluid at an outlet temperature, the outlet temperature less than the inlet temperature; at least one exhau
What is claimed is: 1. A heat exchanger comprising: a heat exchanger inlet for receiving flowing heated fluid at an inlet temperature and a heat exchanger outlet for discharging flowing heated fluid at an outlet temperature, the outlet temperature less than the inlet temperature; at least one exhaust plenum for containing flowing heated fluid, each exhaust plenum having at least one inlet receiving flowing heated fluid and at least one outlet for discharging flowing heated fluid, said inlet(s) spaced from said outlet(s); at least one liquid coolant plenum for containing flowing liquid coolant, the liquid coolant plenum contacting one or more adjacent exhaust plenums and having at least one first zone adjacent to at least one inlet of each of the one or more adjacent exhaust plenums, the at least one inlet receiving heated fluid from the heat exchanger inlet, and at least one second zone adjacent to at least one outlet of each of the one or more adjacent exhaust plenums; and at least one tank in fluidic connection with the at least one liquid coolant plenum, the tank comprising at least one of shaping or baffling such that the velocity of flowing liquid coolant in the at least one first zone is greater than the velocity of flowing liquid coolant in the at least one second zone to thereby reduce liquid coolant film boiling; wherein flow is restricted in the second zone relative to the first zone by means of at least one of shaping or baffling. 2. The apparatus according to claim 1, wherein the tank is an outlet tank. 3. The apparatus according to claim 1, wherein the tank is an inlet tank. 4. The apparatus according to claim 1, wherein the tank comprises shaping and baffling. 5. The apparatus according to claim 1, wherein the liquid coolant plenum makes at least two passes contacting exhaust plenum, the first liquid coolant pass comprising the at least one first zone, and wherein the area-in-flow of the first liquid coolant pass is less than the area in flow of any subsequent liquid coolant pass. 6. The heat exchanger of claim 1 wherein liquid coolant in the at least one first zone and in the at least one second zone flow in parallel. 7. A heat exchanger comprising: a heat exchanger inlet for receiving flowing heated fluid at an inlet temperature and a heat exchanger outlet for discharging flowing heated fluid at an outlet temperature, the outlet temperature less than the inlet temperature; at least one exhaust plenum for containing flowing heated fluid, each exhaust plenum having at least one inlet receiving flowing heated fluid and at least one outlet for discharging flowing heated fluid, said inlet(s) spaced from said outlet(s); at least one liquid coolant plenum for containing flowing liquid coolant, the liquid coolant plenum contacting one or more adjacent exhaust plenums and having at least one first zone adjacent to at least one inlet of each of the one or more adjacent exhaust plenums, the at least one inlet receiving heated fluid from the heat exchanger inlet, and at least one second zone adjacent to at least one outlet of each of the one or more adjacent exhaust plenums; and at least one tank in fluidic connection with the at least one liquid coolant plenum, the tank comprising at least one of shaping or baffling such that the velocity of flowing liquid coolant in the at least one first zone is greater than the velocity of flowing liquid coolant in the at least one second zone to thereby reduce liquid coolant film boiling; wherein the liquid coolant plenum makes at least two passes contacting exhaust plenum, the first liquid coolant pass comprising the at least one first zone, and wherein the area-in-flow of the first liquid coolant pass is less than the area in flow of any subsequent liquid coolant pass. 8. The apparatus according to claim 7, wherein the tank is an outlet tank. 9. The apparatus according to claim 7, wherein the tank is an inlet tank. 10. The apparatus according to claim 7, wherein the tank comprises shaping and baffling. 11. The apparatus according to claim 7, wherein flow is restricted in the second zone relative to the first zone by means of at least one of shaping or baffling. 12. The heat exchanger of claim 7 wherein liquid coolant in the at least one first zone and in the at least one second zone flow in parallel.
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이 특허에 인용된 특허 (6)
Sherman Robert (West Hartford CT) Roberts Fred (Agawam MA) Urie Robert G. (Windsor CT), Flow distribution device.
Schatz Oskar (Tellhhe 14 D-8031 Stockdorf DEX), Process for increasing the heat flow density of heat exchangers working with at least one high-velocity gaseous medium,.
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