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Heat pipe heat accumulation combined type water cooling method and device thereof

A combined and heat storage technology, applied in water shower coolers, heat exchanger types, lighting and heating equipment, etc., can solve the corrosion of piping systems and cooling equipment, increase the corrosion of circulating water, and breed bacteria and algae and other issues, to achieve the effects of energy saving, water resistance, reduction of latent heat evaporation loss, and elimination of pollution

Active Publication Date: 2017-01-04
ZHEJIANG WUXIAN NEW ENERGY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] With the seriousness of air pollution, the acidic and harmful substances in the atmosphere also undergo mass transfer during the atomization heat transfer process of water, so that the acidic gases in the atmosphere dissolve into the water, which increases the corrosiveness of the circulating water and causes pipe failure. Corrosion of road systems and cooling equipment
[0006] It can be seen that the current method of cooling water has caused a waste of water resources, causing many problems in the structure of circulating water, corrosion, and the growth of bacteria and algae

Method used

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  • Heat pipe heat accumulation combined type water cooling method and device thereof
  • Heat pipe heat accumulation combined type water cooling method and device thereof
  • Heat pipe heat accumulation combined type water cooling method and device thereof

Examples

Experimental program
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Effect test

Embodiment 1

[0027] Embodiment one: if figure 1 As shown, the heat storage rotary cooling tower includes a support device 2 at the bottom of the shell 1, and the support device 2 is transparent in a grid shape. The heat storage body 3 supported on the support device 2 is a rotating disc, and the disc is installed on the on the central axis 8, and can be driven along the axis by the drive device 19 to rotate along the axis to form the rotation of the regenerator 3 rotating disc. The drive device 19 can be installed on the axis or outside the disc shaft. The top of the plate is divided into two parts, one part is the circulating water circulation part, and the other is the cooling air circulation part; the circulating water from the circulating water pipe 6 flows into the terminal water flow distributor 4, and the uniform water flow distributor 4 can distribute the circulating water It flows out uniformly in a large area in the radial direction, and the water flow through the distributor 4 f...

Embodiment 2

[0028] Embodiment two: if figure 2 As shown, the over-flow cooling tower includes a support device 2 at the bottom of the shell 1, and the support device 2 is transparent in a grid shape. The heat storage body 3 supported on the support device 2 is a box type, and the heat storage body 3 is up and down. Transparent, the distributor 4 is located above the box body, when the heat storage body 3 box moves forward along the track 13 and passes through the outlet water flow of the distributor 4, the water flow falls into the water inlet 9 and fully meets the heat storage body in the heat storage body 3 box body. Contact, flow into the receiving pool or circulating pool 17 below through the water outlet 11, and the heat storage body 3 box continues to move forward along the track 13. When the heat storage body 3 box body passes through the cooling air area, its upper and lower ports are respectively cooling. Air inlet 12 and cooling air outlet 10, the cooling air flows through the ...

Embodiment 3

[0029] Embodiment three: as image 3 As shown, the shown single cooling tower heat storage device is composed of a housing 1, a support device 2, and a heat storage body 3. The support device 2 is fixed on the lower part of the housing 1, and there is a heat storage body 3 on the support device in the housing. The latter is always a fixed thermal storage device, and the circulating water is switched between multiple cooling towers under the control of the valve 5; during operation, the valve 5 corresponding to the cooling towers of the A group on the circulating water pipeline 6 is opened, and the circulation The water comes from the distributor 4 at the end of the circulating water pipe, and the water is evenly distributed on the heat storage body 3. The circulating water flows down from the distributor 4, and enters the heat storage body 3 from the inlet 9 of the heat storage body device. The heat body 3 is fully contacted, the circulating water transfers its heat to the the...

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Abstract

The invention relates to a heat pipe heat accumulation combined type water cooling method and a device thereof. The combined type water cooling method and the device thereof can be independently used. By means of the method and the device thereof, circulation water cooling is achieved without bringing away heat of circulation water through vaporization latent heat, direct heat transferring type heat exchange is adopted instead, water vaporization is avoided, water evaporation losses are reduced, a circulation water system can be closed, filtering can be conducted at a cooling air inlet, invasion of dust in air is reduced, the cooling efficiency of the circulation water can be effectively improved, equipment abrasion and the discharge capacity are reduced, and breeding of bacteria and algae in the circulation water can be effectively reduced; and chemical reagents for treating the bacteria and the algae are saved, consumption is reduced, pollution is eliminated, water surface evaporation and water consumption of a circulation water pond (tank) can be effectively reduced, and transverse evaporation water consumption of an air flue of a water cooling tower due to atmosphere flowing is effectively eliminated.

Description

technical field [0001] The invention relates to a heat pipe thermal storage combined cooling water method and a device thereof, in particular to a heat pipe circulating water cooling method and a thermal storage cooling circulating water method combined cooling circulating water method and device thereof, belonging to the technical field of water saving. Background technique [0002] In modern industry, there are many mechanical movements that generate heat that needs to be cooled. Some process media and process product output devices need to reach a certain low temperature to ensure product safety. Cooling is required, and some intermediate processes also need cooling. Civil air-conditioning cooling systems, industrial refrigeration series, injection molding , tanning, foaming, power generation, steam turbine, aluminum profile processing, air compressor, electric power, metallurgy, chemical industry, petroleum petrochemical, coal chemical industry, etc. all need cooling wate...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F28C1/14
Inventor 葛霖其他发明人请求不公开姓名
Owner ZHEJIANG WUXIAN NEW ENERGY
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