Efficient full-wet inner surface evaporator

A technology for evaporators and inner surfaces, applied in evaporators/condensers, compressors, refrigeration components, etc., can solve problems such as poor oil return effect of compressors, cylinder flushing accidents, hysteresis and periodic oscillation instability, etc. Achieve the effects of ensuring normal and safe operation, avoiding segmented flow, and improving heat transfer performance

Inactive Publication Date: 2011-04-06
SOUTHEAST UNIV
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Problems solved by technology

[0002] The existing evaporator has the following deficiencies: first, the heat exchange tubes of the existing evaporator are horizontal, the refrigerant gas and liquid flow in sections, and the heat exchange efficiency is low
Second, the refrigerant is directly sent to the compressor or the gas-liquid separator after being evaporated by the evaporator. Due to the hysteresis and periodic oscillation instability of the traditional refrigeration throttle valve adjustment, the refrigerant flowing out of the evaporator will inevitably bring A certain amount of liquid refrigerant is produced. A

Method used

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  • Efficient full-wet inner surface evaporator
  • Efficient full-wet inner surface evaporator
  • Efficient full-wet inner surface evaporator

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[0011] The technical solution of the present invention will be described in detail below with reference to the accompanying drawings through a preferred embodiment, but the protection scope of the present invention is not limited to the embodiment.

[0012] A high-efficiency full-humidity inner surface evaporator is mainly composed of a refrigerant distributor 1, a primary evaporation heat exchange tube 2, a primary refrigerant gas return pipe 3, a primary refrigerant gas return main pipe 4, a gas-liquid separator (5) and a refrigerant The gas return pipes 10 are connected in sequence, and the bottom of the gas-liquid separator 5 is connected to the secondary evaporation intake manifold 6, the secondary evaporation heat exchange pipe 7, the refrigerant secondary gas return pipe 8 and the secondary evaporation gas return main pipe 9 in sequence. , and finally return to the gas-liquid separator 5; the primary evaporation heat exchange tube 2 and the secondary evaporation heat exc...

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Abstract

The invention discloses an efficient full-wet inner surface evaporator which is mainly formed by connecting a refrigerant distributor, a first evaporating heat exchange pipe, a first refrigerant air return pipe, a first refrigerant air return main pipe, a gas-liquid separator and a refrigerant air return pipe in sequence. The evaporator also comprises a secondary evaporating heat exchange assembly, wherein the secondary evaporating heat exchange assembly is formed by connecting a secondary evaporating air inlet main pipe, a secondary evaporating heat exchange pipe, a secondary refrigerant air return pipe and a secondary evaporating air return main pipe; and a refrigerant entering the gas-liquid separator enters the secondary evaporating heat exchange pipe for carrying out secondary evaporation by the secondary evaporating air inlet main pipe and returns into the gas-liquid separator by syphonage. The invention has certain ingenuity on improving the heat exchange efficiency of the evaporator and solving the problems of wet compression and oil return, can improve the heat transfer performance of the evaporator and improve the performance coefficient of a unit by 15 percent or so, is not only suitable for a pure medium but also suitable for a mixed medium.

Description

technical field [0001] The invention belongs to the refrigeration field, and in particular relates to a high-efficiency full-humidity inner surface evaporator, which is applicable to all tube-fin evaporators. Background technique [0002] The existing evaporator has the following deficiencies: first, the heat exchange tubes of the existing evaporator are horizontal, the refrigerant gas and liquid flow in stages, and the heat exchange efficiency is low. Second, the refrigerant is directly sent to the compressor or the gas-liquid separator after being evaporated by the evaporator. Due to the hysteresis and periodic oscillation instability of the traditional refrigeration throttle valve adjustment, the refrigerant flowing out of the evaporator will inevitably bring A certain amount of liquid refrigerant is produced. According to the experimental research of Dutch scholars, even if the superheat of the refrigerant outlet is 5°C, there is still a certain amount of liquid refriger...

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Application Information

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IPC IPC(8): F25B39/02F25B43/00F25B31/00
Inventor 陈九法乔卫来安二铭朱晟徐相梅陈军伟高龙庞丽颖
Owner SOUTHEAST UNIV
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