The invention provides a phase transformation heat exchange device. The device includes an inner tube, an outer tube, and a heat exchange medium; the space between the inner tube and the outer tube forms a whole or a part of a liquid phase region; a whole or a part of space inside the inner tube for
The invention provides a phase transformation heat exchange device. The device includes an inner tube, an outer tube, and a heat exchange medium; the space between the inner tube and the outer tube forms a whole or a part of a liquid phase region; a whole or a part of space inside the inner tube forms a vaporization region; the heat exchange medium with a relatively high pressure inside the liquid phase region enters the vaporization region with a relatively low pressure while being heated in vortex flow, and flows out of the device after being vapored, so as to complete heat exchange. The device can be applied to DSG systems of the solar energy photothermal field, and can also be applied to an input-output system of a heat storage system, or the field of boiler heating. It is achieved with safe operation, low cost, and good application range.
대표청구항▼
1. A phase transformation heat exchange device, comprising an inner tube, a metal outer tube and a heat exchange medium; wherein an annular space between the inner tube and the outer tube forms a whole or a part of a liquid phase region; a whole or a part of space inside the inner tube forms a vapor
1. A phase transformation heat exchange device, comprising an inner tube, a metal outer tube and a heat exchange medium; wherein an annular space between the inner tube and the outer tube forms a whole or a part of a liquid phase region; a whole or a part of space inside the inner tube forms a vaporization region; the heat exchange medium with a first pressure inside the liquid phase region enters the vaporization region with a second pressure while being heated when flowing, and flows out of the phase transformation heat exchange device after being vaporized, wherein the first pressure is higher than the second pressure; wherein the liquid phase region is disposed in independent sections along an axial direction of the inner tube in a serial manner, and a check valve is disposed at an inlet of the liquid phase heat exchange medium of each of the independent sections, for executing independent pressure control and heat exchange medium input control separately;wherein the each section is connected to a water supply pipe via the corresponding check valve, wherein the water supply pipe is disposed outside the outer tube and in parallel along the axial direction of the inner tube. 2. The phase transformation heat exchange device according to claim 1, wherein a contact wall between the liquid phase region and the vaporization region is provided with one or more medium passages. 3. The phase transformation heat exchange device according to claim 2, wherein each of the medium passages is a capillary through-hole, a capillary, a nozzle or a permeable material port. 4. The phase transformation heat exchange device according to claim 2, wherein the medium passages are disposed spaced on an inner surface of the contact wall along an axial direction. 5. The phase transformation heat exchange device according to claim 2, wherein each of the medium passages is configured for the heat exchange medium being injected from the liquid phase region into the vaporization region by using a pulse-type compression liquid ejection method. 6. A phase transformation heat exchange device, comprising an inner tube having a plurality of directional medium passages formed on a sidewall thereof, a metal outer tube and a heat exchange medium; wherein an annular space between the inner tube and the metal outer tube forms a liquid phase region, a space inside the inner tube forms a vaporization region, and the liquid phase region and the vaporization region are in fluid communication via the directional medium passages;wherein the heat exchange medium inside the liquid phase region enters the vaporization region via the directional medium passages while being heated when flowing, and flows out of the phase transformation heat exchange device after being vaporized;wherein the liquid phase region is disposed in independent sections along an axial direction of the inner tube in a serial manner, and a check valve is disposed at an inlet of the liquid phase heat exchange medium of each of the independent sections, for executing independent pressure control and heat exchange medium input control separately;wherein the each section is connected to a water supply pipe via the corresponding check valve, wherein the water supply pipe is disposed outside the outer tube and in parallel along the axial direction of the inner tube. 7. The phase transformation heat exchange device according to claim 6, wherein each of the directional medium passages is a capillary through-hole, a capillary, a nozzle or a permeable material port.
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이 특허에 인용된 특허 (4)
Christopher J. Crowley ; Nabil A. Elkouh, Freeze-tolerant condenser for a closed-loop heat-transfer system.
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