Процеси пароутворення при охолодженні мініатюрних радіоелектронних пристроїв
The widespread introduction of new technologies contributes to the rapid development of various fields of technology, both in terms of increasing the functionality of systems and equipment and reducing the weight and size characteristics of individual components and devices in general. This is espec...
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| Date: | 2025 |
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| Main Authors: | , , |
| Format: | Article |
| Language: | Ukrainian |
| Published: |
PE "Politekhperiodika", Book and Journal Publishers
2025
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| Subjects: | |
| Online Access: | https://www.tkea.com.ua/index.php/journal/article/view/TKEA2025.1-2.57 |
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| Journal Title: | Technology and design in electronic equipment |
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Technology and design in electronic equipment| Summary: | The widespread introduction of new technologies contributes to the rapid development of various fields of technology, both in terms of increasing the functionality of systems and equipment and reducing the weight and size characteristics of individual components and devices in general. This is especially evident in radio electronics, particularly in computer technology, where the heat flux densities emitted by individual electronic components can be very high. In such a case, the temperature of the chips increases and may exceed the maximum permissible values. To ensure the specified operating temperatures of electronic equipment, the bubble boiling process is used. The highest intensity of heat transfer is observed during boiling. This is due to the evaporation of a thin microlayer of liquid under the growing steam bubble.This paper describes an experimental study of the peculiarities of the bubble boiling process on small surfaces. The experiment’s unique feature was the visual observation of the combined appearance and growth of a steam bubble, as well as the temperature pulsation of the surface beneath it. The process of bubble boiling occurred in a large volume at atmospheric pressure on small copper surfaces with a diameter of 0.4 to 5.0 mm. The surface temperature was recorded using a specially designed thermocouple. The signal from the thermocouple was fed through an amplifier to a two-beam oscilloscope. Using a system of mirrors, the process of evolution of the vapour bubble and surface temperature fluctuations were recorded on the film of a high-speed movie camera. The film speed varied from 800 to 4000 frames per second.Experimental results have shown that both spherical and hemispherical vapour bubbles grow on the surface during boiling. Moreover, the surface temperature fluctuation depends on the size of such bubbles at the moment of their detachment. The larger the bubble bursting diameter, the greater the amplitude of the surface temperature fluctuations. It is shown that the main factor in increasing the intensification of heat transfer is the evaporation of a microlayer of liquid under the vapour bubble. The dependence of the surface temperature fluctuation on the values of the detachable diameters of the steam bubbles is obtained. Thus, if bubble-boiling cooling systems are used to maintain the temperature regime of electronic devices, it is necessary to take into account the temperature fluctuations of the heat transfer surface, as they can affect the operating characteristics of the devices. |
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