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An air cooler based on superconducting heat transfer performance and its application method

A technology of air cooler and heat exchange unit, applied in the direction of heating method, control input related to air characteristics, application, etc., can solve the problems of inaccurate temperature control and inconvenient debugging, so as to improve temperature control accuracy and facilitate start-up and debugging , The effect of fast heat exchange

Active Publication Date: 2022-04-29
重庆帅豪机械有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The purpose of the present invention is to provide an air cooler based on superconducting heat exchange technology, which is used to solve the technical problems of inconvenient debugging and inaccurate temperature control existing in existing air coolers

Method used

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  • An air cooler based on superconducting heat transfer performance and its application method
  • An air cooler based on superconducting heat transfer performance and its application method
  • An air cooler based on superconducting heat transfer performance and its application method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0034] see Figure 1 to Figure 4 , an air cooler based on superconducting heat exchange performance, including a housing 18, on which a fan 20 is installed, and the fan 20 is specifically installed in the air cylinder on the top of the housing 18, and a cooling fan is arranged in the housing 18 Hot components and process pipelines 9, the inner cavity of the process pipeline 9 serves as a circulation channel for the process medium 8;

[0035]Wherein, the heat exchange component includes a plurality of heat exchange cells 24 connected in series, and the heat exchange cells 24 are installed on the frame 11, each heat exchange cell 24 includes a sealed chamber 2, and the process pipeline 9 flows from the sealed chamber 2 Pass through, the inside of the sealed chamber 2 is in a negative pressure state, the sealed chamber 2 is provided with a working liquid 7, the working liquid 7 is water, and the preset working liquid surface in the sealed chamber 2 is higher than the top surface ...

Embodiment 2

[0059] An air cooler based on superconducting heat transfer performance, referring to Example 1 and combining Figure 5 As shown, the main difference between it and Embodiment 1 is that all heat exchange cells 24 are arranged at two different heights in the housing 18, and are divided into an upper layer heat exchange cell 24 and a lower layer heat exchange cell 24, all The upper heat exchange units 24 are connected in series, all the lower heat exchange units 24 are connected in series, and the upper heat exchange unit and the lower heat exchange unit are connected in series through the connecting pipe 22; the process pipeline inlet 15 is set at the lower heat exchange unit 24 , the outlet 17 of the process pipeline is set at the upper heat exchange unit 24 .

Embodiment 3

[0061] An air cooler based on superconducting heat transfer performance, referring to Example 1 and combining Figure 6 As shown, the main difference between it and Embodiment 1 is that a plurality of thin round tubes arranged side by side are used to replace the flat tubes in Embodiment 1, and the flow sum of all round tubes in the same sealed chamber 2 is equal to one in Embodiment 1. Flat pipe flow.

[0062] Adopting the scheme of the present invention not only facilitates the start-up and debugging of the air cooler, but also facilitates the temperature control of the air cooler operation, and can also greatly reduce the difficulty of debugging in the operation stage of the air cooler, greatly improve the temperature control accuracy, and the temperature control accuracy can be accurate to within 0.5°C, which solves the problem The technical problems of inconvenient debugging and inaccurate temperature control existing in existing air coolers; adopting the solution of the ...

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PUM

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Abstract

The invention discloses an air cooler based on superconducting heat exchange technology and its use method. The air cooler includes a housing, a fan, heat exchange components and process pipelines. The heat exchange components include a plurality of heat exchange units connected in series. The thermal monomer includes sealed chambers, each sealed chamber is connected to the liquid storage part through a pipeline, and each pipeline is provided with a two-way liquid suction pump; the steps of the method of use include: controlling the forward opening of the two-way liquid suction pump, opening the sealed chamber The working liquid in the room is sucked into the liquid storage part. When the temperature of the process medium in the outlet of the process pipeline reaches the preset value, the two-way liquid suction pump is turned off; the two-way liquid suction pump is controlled to turn on in reverse, and the working liquid in the liquid storage part is sucked to the seal. chamber, when the temperature of the process medium in the outlet of the process pipeline reaches the preset value, the two-way suction pump is turned off. The invention not only facilitates the start-up and debugging of the air cooler, but also facilitates the operation and temperature control of the air cooler, can also greatly reduce the difficulty of debugging in the operation stage of the air cooler, and greatly improve the temperature control accuracy.

Description

technical field [0001] The invention relates to an air cooler, in particular to an air cooler based on superconducting heat exchange technology and a method for using the same. Background technique [0002] The air cooler is a kind of equipment that uses ambient air as the cooling medium to cool or condense the high-temperature process fluid in the tube, referred to as "air cooler", also known as "air-cooled heat exchanger", its main structure includes a shell , fan and heat exchange tube. For example, a typical air cooler disclosed in the document CN204165424U includes a cooling fan and a heat exchange tube bundle installed on the frame, wherein an air chamber is fixed on the air inlet of the cooling fan, and the other end of the air chamber is opened to facilitate cooling. The fan supplies air, and the heat exchange tube bundle is arranged on the opening end of the air chamber, so that the air can complete heat exchange with the medium in the heat exchange tube bundle bef...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F24F5/00F24F11/89F24F11/88F24F11/64F24F11/77F24F110/10
CPCF24F5/0007F24F11/89F24F11/88F24F11/64F24F11/77F24F2110/10Y02B30/70
Inventor 舒世斌
Owner 重庆帅豪机械有限公司