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High-performance energy-saving coolant and application method thereof in radiator

A high-efficiency, energy-saving, application-based technology, applied to chemical instruments and methods, heat exchange materials, etc., can solve problems such as poor cleanliness, large power consumption, and large consumption, and achieve improved cleanliness, improved thermal efficiency, The effect of dosage reduction

Inactive Publication Date: 2007-03-14
刘珍伶
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The main disadvantage of this traditional heat dissipation device is that heat dissipation media such as water, oil, and steam need to participate in the large internal and external circulation, which consumes a lot of energy, has poor cleanliness, and low thermal efficiency, resulting in energy waste.
[0004] Electric heating radiators have the advantages of cleanliness and ease of use, but the current electric heaters only rely on the conversion of electrical energy into thermal energy to provide the heat required for heating and heating, which consumes a lot of electrical energy and has low thermal efficiency.

Method used

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  • High-performance energy-saving coolant and application method thereof in radiator
  • High-performance energy-saving coolant and application method thereof in radiator
  • High-performance energy-saving coolant and application method thereof in radiator

Examples

Experimental program
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Effect test

preparation example 1

[0018] Ethanol 50% (weight percentage, the same below), methanol 25%, acetone 25%, mix the above materials well.

preparation example 2

[0020] Ethanol 60%, methanol 15%, acetone 15%, mix the above materials well.

preparation example 3

[0022] Ethanol 55%, methanol 20%, acetone 25%, mix the above materials well.

[0023] Preparation Example Four of Heat Dissipating Agent

[0024] Ethanol 55%, methanol 25%, acetone 20%, mix the above materials well.

[0025] Preparation Example 5 of Heat Dissipating Agent

[0026] 55 parts by weight of ethanol (parts by weight, the same below), 20 parts of methanol, 25 parts of acetone, and 20 parts of distilled water, mix the above materials evenly.

[0027] Preparation Example 6 of Heat Dissipating Agent

[0028] 55 parts by weight of ethanol (parts by weight, the same below), 25 parts of methanol, 20 parts of acetone, and 50 parts of distilled water, mix the above materials evenly.

[0029] Preparation Example 7 of Heat Dissipating Agent

[0030] 55 parts by weight of ethanol (parts by weight, the same below), 22.5 parts of methanol, 22.5 parts of acetone, and 80 parts of distilled water, mix the above materials evenly.

[0031] Preparation Example 8 of Heat Dissipating Agent

...

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Abstract

The present invention discloses one kind of high efficiency energy-saving heat emitting agent and its application method in heat radiator. The heat emitting agent consists of ethanol 50-60 wt%, methanol 15-25 wt%, and acetone 15-25 wt%. When used, the heat emitting agent is filled into sealed cavity comprising heat emitting fins or heat emitting tubes and the cavity is vacuumized. The heat emitting agent is heated by heating pipe so as to be activated and vaporized to release great amount of heat in high heat efficiency.

Description

Technical field [0001] The invention relates to a heat dissipation preparation composition, and mainly relates to a high thermal efficiency and energy-saving heat dissipation preparation composition used in heating and heating devices. And related to its application method in the radiator. Background technique [0002] The existing thermal cycle radiator is mainly composed of a longitudinally arranged tube with fins and two upper and lower horizontal tubes. The heat dissipation medium enters and exits from each of the upper and lower horizontal pipes, forming a heat dissipation medium circulation system inside and outside the radiator, such as an indoor plumbing device. Hot water enters from one end of the radiator horizontal pipe through the water pipe and completes the internal circulation in the radiator. After dissipating heat, it is discharged from one end of the other horizontal tube and enters the extracorporeal circulation. [0003] The main disadvantages of this traditio...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C09K5/20
Inventor 郑石厚牟景科李秉哲陈象勇
Owner 刘珍伶
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