A heat exchanger is provided that includes plate pairs stacked one above the other. A first flow chamber is formed between the two plates of a plate pair by conducting a first fluid therethrough, a second flow chamber for conducting a second fluid therethrough, wherein the second flow chamber is for
A heat exchanger is provided that includes plate pairs stacked one above the other. A first flow chamber is formed between the two plates of a plate pair by conducting a first fluid therethrough, a second flow chamber for conducting a second fluid therethrough, wherein the second flow chamber is formed between two adjacent plate pairs, an inlet opening for introducing the first fluid, and an outlet opening for discharging the first fluid. The plates have at least one expansion opening, in particular at least one expansion slit, for reducing stress in the plates. The heat exchanger can withstand high thermal and mechanical loads even over a long time period, such as 10 years.
대표청구항▼
1. A heat exchanger comprising: plate pairs stacked one above the other,a first flow chamber formed between two plates of a plate pair such that a first fluid is adapted to flow therethrough;a second flow chamber adapted to have a second fluid flow therethrough, the second flow chamber being formed
1. A heat exchanger comprising: plate pairs stacked one above the other,a first flow chamber formed between two plates of a plate pair such that a first fluid is adapted to flow therethrough;a second flow chamber adapted to have a second fluid flow therethrough, the second flow chamber being formed between two adjacent plate pairs;an inlet aperture for introducing the first fluid;an outlet aperture for discharging the first fluid; andexpansion openings formed in the plates such that stress is reduced in the plates,wherein each plate of the plate pairs has a first expansion opening formed in an area of an inlet through hole and a second expansion opening formed in an area of an outlet through hole. 2. The heat exchanger according to claim 1, wherein the plates have a spacer, each with a through hole formed between the plate pairs at the inlet through holes so that an inlet channel for introducing the first fluid into the first flow chamber forms at the inlet through holes and the through holes of the spacers. 3. The heat exchanger according to claim 1, wherein the plates have a spacer, each with a through hole formed between the plate pairs at the outlet through holes so that an outlet channel for discharging the first fluid from the first flow chamber forms at the outlet through holes and the through holes of the spacers. 4. The heat exchanger according to claim 1, wherein the first and second expansion openings are formed in the plates between the inlet through hole and the outlet through hole. 5. The heat exchanger according to claim, wherein the first expansion opening is formed in an area of the inlet through hole between the first flow chamber and the inlet through hole and the second expansion opening is formed in an area of the outlet through hole between the first flow chamber and the outlet through hole. 6. The heat exchanger according to claim 1, wherein fins, corrugated fins, and/or at least one tube are disposed between the plate pairs in the second flow chamber. 7. The heat exchanger according to claim 1, wherein components of the heat exchanger, the plates, spacers, and/or fins are soldered together and/or the components of the heat exchanger, the plates, spacers, and/or fins are formed partially or completely of metal or stainless steel. 8. A system for utilizing waste heat from an internal combustion engine by a Clausius-Rankine cycle process, the system comprising: a circuit having lines with a working medium, particularly water;a pump for conveying the working medium;an evaporator heat exchanger for vaporizing the liquid working medium with at least one first flow chamber for conducting the working medium therethrough and at least one second flow chamber for conducting a fluid, charge air, or exhaust gas therethrough for transferring heat from the fluid to the working medium;an expander;a condenser for liquefying the vaporous working medium; anda collecting and equalizing tank for the liquid working medium,wherein the evaporator heat exchanger is the heat exchanger according to claim 1. 9. An internal combustion engine, particularly an internal combustion reciprocating piston engine, comprising a system for utilizing waste heat from the internal combustion engine by the Clausius-Rankine cycle process, the system comprising: a circuit having lines with a working medium, particularly water;a pump for conveying the working medium;an evaporator heat exchanger, heatable by the waste heat from the internal combustion engine for vaporizing the liquid working medium;an expander;a condenser for liquefying the vaporous working medium; anda collecting and equalizing tank for the liquid working medium,wherein the evaporator heat exchanger is the heat exchanger according to claim 1. 10. The heat exchanger according to claim 1, wherein the first and second expansion openings are expansion slits. 11. The heat exchanger according to claim 1, wherein the first flow chamber is formed as a meander-shaped flow channel. 12. The heat exchanger according to claim 1, wherein the first flow chamber is positioned between the first and second expansion openings.
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이 특허에 인용된 특허 (7)
Nakamura Youichi,JPX ; Nakano Kimiaki,JPX, "Stacked" type heat exchanger.
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