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Vapor-liquid separation method of evaporator and evaporator

A technology of vapor-liquid separation and evaporator, which is applied in the direction of evaporator/condenser, heat exchanger shell, indirect heat exchanger, etc. It can solve the problems of uneven heat exchange, insufficient suction force, and low heat exchange efficiency. Achieve the effects of ingenious structural design, ensuring steam resistance and improving heat transfer performance

Inactive Publication Date: 2009-09-23
TSINGHUA UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

The traditional flooded evaporator has the following problems: 1. Due to the large amount of refrigerant 300 in the shell 100 and the deep liquid level, the heat transfer is uneven and the heat transfer coefficient is low during the heat transfer process, resulting in Low thermal efficiency
2. It is difficult to ensure that the boiling refrigerant 300 working medium gas is a dry gas when it exits the outlet 500, so there may be liquid entering the compressor for compression, thereby damaging the compressor
3. The volume of the equipment is large
[0005] The header 102 in the above two patents both use a single drain pipe 202 as a leaking liquid vapor blocking device. This thinner drain pipe 202 can better prevent the separated gas from the header 102 from flowing out of the drain pipe. 202 leaks, but this structure brings the following problems: First, the diameter of the drain pipe 202 is smaller than that of the header 102, the flow range of the condensate is greatly restricted, and sometimes there is a problem of poor drainage
Although in the latter patent a liquid dispensing device (such as Image 6 shown), but since the upper surface of the liquid separation device adopts a solid top cover 302, the contact surface between the condensate and the liquid separation device during the operation of the condenser is the side surface of the porous medium, so the liquid separation driving force of the liquid separation device is mainly the porous core 402 Capillary suction force, and the size of the suction force is determined by the structural parameters of the selected porous medium, and the self-adjusting ability is weak. When the amount of condensate is large, there may be a problem of insufficient suction force, which affects the separation. In addition, the structure of the liquid separation device is relatively complicated, and large-scale production and subsequent installation work in industrial production will bring certain difficulties

Method used

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  • Vapor-liquid separation method of evaporator and evaporator

Examples

Experimental program
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Effect test

Embodiment 1

[0047] Example 1: An air heating vapor-liquid separation evaporator

[0048] like Figure 7 ~ Figure 9 As shown, this embodiment includes at least one group of heat exchange tubes 1 arranged up and down, and an upper and a lower straight-through header 2 communicating with the heat exchange tubes 1 are respectively arranged at the left and right ends of the heat exchange tubes 1 . The two headers 2 are provided with a number of liquid leakage and steam arresting devices 3 at intervals, and the positions of the liquid leakage and vapor arresting devices 3 in the two headers 2 are arranged in a staggered shape, so that the two headers 2 form a plurality of liquid separators connected in sequence from left to right. The size of each liquid separation space increases step by step from bottom to top according to the increase of evaporation. A liquid inlet pipe 4 is arranged at the bottom of the first stage liquid separation space (the right side in the figure, but not limited ther...

Embodiment 2

[0052] Example 2: A fluid heating vapor-liquid separation evaporator

[0053] like Figure 12 , Figure 13 As shown, this embodiment includes a casing 8, in which a heating fluid 9 flows to exchange heat, so as to evaporate the liquid to be evaporated in the heat exchange tube 1. The top of the housing 8 is provided with a heating fluid inlet 81, and the bottom is provided with a heating fluid outlet 82. The housing 8 is provided with at least one set of heat exchange tubes 1 arranged up and down. Header header 2 for heat pipe 1. In the two headers 2, a number of liquid leakage and steam arresting devices 3 are respectively arranged at intervals. The installation positions of the liquid leakage and vapor arresting devices 3 in the two headers 2 are in a staggered shape, so that the two headers 2 form a plurality of distributors connected in sequence from left to right. Liquid space, the size of each liquid separation space increases step by step from bottom to top according...

Embodiment 3

[0056] The liquid leakage and vapor barrier device 3 in this embodiment includes a base plate 31 having the same cross-sectional size as the header 2. The center of the base plate 31 has a main hole 32 with an equivalent diameter of 2 to 5 mm and the same hole diameter. A circle of auxiliary holes 33 with an equivalent diameter less than 2 mm and the same equivalent aperture is arranged. When the remaining liquid to be evaporated in the heat exchange tube 1 of the evaporator is less, the liquid separated from the header 2 will form a layer of liquid film on the surface of the main hole 32 and the auxiliary hole 33 of the substrate 31, preventing the liquid and gas from flowing The main orifice 32 and the auxiliary orifice 33 flow out. When the liquid volume increases slightly, the main hole 32 with a larger aperture will seep first, which is equivalent to the single drain pipe in the prior art. When the flow rate of the remaining liquid to be evaporated is large, the pressure...

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Abstract

The invention relates to a vapor-liquid separation method of an evaporator and the evaporator, which comprises the following details: (1) both ends of at least a group of heat exchange tubes are respectively provided with a header; the two headers are provided with a plurality of leakage vapor resistance devices in an alternation way which can be embedded in the headers; the two headers are divided into a plurality of liquid separation spaces which are sequentially communicated; the leakage vapor resistance devices are provided with at least one valent weight main hole and a plurality of valent weight pilot holes; (2) when dropsy in the liquid separation spaces has few, a liquid membrane formed by the main hole and the pilot holes can prevent gas from entering into the liquid separation space of the next level header; (3) when dropsy in the liquid separation spaces has more, the dropsy firstly perforates the main hole and outflows; while the pilot holes is continously sealed by the liquid membrane formed by the top; (4) when the thickness of the dropsy layer in the liquid separation spaces enlarges, the dropsy gradually perforates the pilot holes and simultaneously outflows from the main hole and the pilot holes. The evaporator is the evaporator adopting the vapor-liquid separation method and the leakage vapor resistance devices and effectively solves the problem that the drainage amount in the evaporator of the prior art is limited.

Description

technical field [0001] The invention relates to an evaporator, in particular to a vapor-liquid separation method of the evaporator and the evaporator. Background technique [0002] A traditional flooded evaporator generally adopts a horizontal type and is composed of a shell 100 and a heat exchange tube 200. The heat exchange tube 200 is arranged to be immersed in the refrigerant 300 liquid in the evaporator (such as figure 1 , figure 2 shown). The refrigerant 300 enters the housing 100 from the inlet 400 at the bottom of the housing 100, is heated outside the heat exchange tube 200 by the heating medium in the heat exchange tube 200, and boils and evaporates, and the vapor phase exits from the outlet 500 at the top of the housing 100 and enters the compressor. The traditional flooded evaporator has the following problems: 1. Due to the large amount of refrigerant 300 in the shell 100 and the deep liquid level, the heat transfer is uneven and the heat transfer coefficien...

Claims

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Application Information

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IPC IPC(8): F28F9/02F28F9/22F28D1/053F28F21/08F25B39/02
Inventor 彭晓峰吴迪王珍陆规张易阳
Owner TSINGHUA UNIV
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