采用拉瓦尔喷嘴形成蒸汽通道的低温短热管传热过程的强化

A. V. Seryakov
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引用次数: 7

摘要

本文介绍了短线性热管拉瓦尔式蒸汽通道中湿蒸汽的流动研究结果。通过制造拉瓦尔式喷嘴的热流通道形式,提高了用于航天器热应力冷却系统设计的短线性热流的传热系数。通过对标准圆柱形蒸汽通道和各尺寸相等的拉瓦尔喷嘴形式的平板蒸发器的短hp的换热系数的比较,发现在高热负荷下,拉瓦尔喷嘴形式的hp超过了标准圆柱形蒸汽通道hp的换热特性。在高热负荷条件下,对这种形状的短HPs蒸汽通道内的流动和凝结的研究,为详细分析使用这种HPs的优点提供了机会。电容式传感器额外安装在hp的冷却顶盖上,并从外部发电机向它们提供频率为100千赫的电磁脉冲。在加热HPs蒸发器时,从一定的热功率阈值开始,电磁脉冲被调制。这与毛细管-多孔蒸发器内沸腾过程的形成及其上方的大量蒸汽及其不连续分布有关。采用解析法和数值法研究了脉动的持续时间,并将解析结果与数值和实验结果进行了比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Intensification of Heat Transfer Processes in the Low Temperature Short Heat Pipes with Laval Nozzle Formed Vapour Channel
The results of flow studies of moist vapour in Laval-liked vapour channels of short linear heat pipes (HPs) are presented. The increase in heat transfer coefficient of short linear HPs, intended for creation the cooling systems of heat-stressed designs of spacecraft is carried out by making the HPs vapour channel forms of the Laval-liked nozzle. Comparison of the heat transfer coefficients of short HPs with the standard cylindrical vapour channel and the channel, made in the Laval nozzle form with the equality of all dimensions, flat evaporator shows that the HPs with the Laval-liked nozzle vapour channel exceeds the heat transfer characteristics of the standard HPs with a cylindrical vapour channel under high thermal loads. The study of the flow and condensation in such shaped vapour channels of the short HPs at high thermal loads gives an opportunity to analyze in detail the advantages of using such HPs. Capacitive sensors are additionally installed in cooled top covers of the HPs, and electromagnetic pulses with a frequency of 100 kHz were supplied to them from the external generator. At heating the HPs evaporator, starting from a certain thermal power threshold value, electromagnetic pulses became modulated. It is related with the formations of the boiling process in the capillary-porous evaporator and large amount of vapour over it and its discontinuous distribution. An analytical and numerical evaluation are applied to study the duration of the occurring pulsations, and the analytical results are compared with numerical and experimentally obtained values of the pulsations periods.
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