Reverse loop heat pipe heat exchange system for intelligently controlling air flow according to water level

Abstract

The invention provides a loop heat pipe heat exchange system for intelligently controlling the air flow according to the water level. The loop heat pipe heat exchange system comprises an air inlet channel, an air outlet channel and a loop heat pipe; the heat exchange system further comprises a motor, a water level sensor and a central controller, wherein the water level sensor is arranged in a water storage condensation chamber and is used for measuring the water level in the water storage condensation chamber, air is introduced from the air inlet channel, the motor is connected with the fan to drive the fan to rotate, the motor and the water level sensor are in data connection with the central controller, and the central controller automatically controls the frequency of the motor according to the detected water level data, so that the air flow entering the heat exchange system is controlled. According to the loop heat pipe heat exchange system with an intelligent water level controlfunction, the influence on the heat exchange effect caused by too high or too low water level is avoided.

Description

technical field [0001] The present invention relates to a heat exchange system utilizing reverse loop heat pipes. Background technique [0002] In the prior art, heat pipes generally rely on gravity to realize heat pipe circulation, but this kind of heat pipe is only suitable for the situation where the lower part absorbs heat and the upper part releases heat, and it is not suitable for the opposite. Therefore, aiming at this situation, the present invention improves and invents the anti-gravity heat pipe. [0003] Data show that the content of vaporous water on the earth is 11.6 times that of liquid fresh water on the surface, but people's utilization rate of gaseous fresh water is not high. The current air water extraction method is mainly to convert the water resources in the form of water vapor or tiny water droplets in the humid air into liquid water, mainly including refrigeration condensation method, adsorption method, mechanical compression method, semiconductor ref...

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Problems solved by technology

Ye Jitao etc. have proposed and designed a relatively mature solar semiconductor refrigeration water intake device with a regenerator, referring to CN2567274Y, CN10485506A, and carried out numerical simulation and experimental tests to it, but there are two deficiencies in this scheme: on the one hand, the solar battery The conversion efficiency is low and the loss is large, on the other hand, it is restricted by more geographical restrictions and natural conditions, and the structure of the water intake device is complex

[0004] The applicant has applied for the reverse gravity heat pipe in the previous application, but found in the research that the water storage is easy to be too much or too little, and it is impossible to realize intelligent heat exchange

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