Electromagnetic-fluid-temperature coupled field simulation on cable shaft in high-rise buildings

2022 IEEE International Conference on High Voltage Engineering and Applications (ICHVE) Pub Date : 2022-09-25 DOI:10.1109/ICHVE53725.2022.9961516

Bo Qu, Xin Li, Xingyao Xiang, Shaowei Wu, Ziqi Zhang, Shengwen Shu

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引用次数: 1

Abstract

Once the shaft cable catches fire, the burning rate is generally about three times that of the horizontal cable, and the “chimney effect” will make the fire burn fiercely and spread quickly. Based on the governing equations of electromagnetic field, temperature field and fluid field, combined with the geometric model of the actual cable shaft, a multi-physics simulation model of the cable shaft is established in this paper. Through the simulation analysis of the transient electromagnetic-fluid-temperature field, the temperature change of the cable is obtained: in a relatively confined space, the temperature increases with the height. By changing the plugging material parameters, the influence of different plugging materials on the electromagnetic-fluid-temperature field of cable under normal operation is simulated. It is concluded that fireproof material has certain influence on heat dissipation of cable shaft. The temperature of intermediate partitions and cables blocked by fire-resistant materials has increased significantly. The maximum temperature is 0.66°C higher than when no fireproof material is used.

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高层建筑电缆井的电磁-流-温耦合场仿真

竖井电缆一旦着火，燃烧速度一般是水平电缆的三倍左右，“烟囱效应”会使火势燃烧猛烈，蔓延迅速。本文基于电磁场、温度场和流体场的控制方程，结合实际电缆轴的几何模型，建立了电缆轴的多物理场仿真模型。通过对瞬态电磁-流体-温度场的仿真分析，得到了电缆的温度变化规律:在相对密闭的空间内，温度随高度的增加而升高。通过改变封堵材料参数，模拟了不同封堵材料对电缆正常工作时电磁流温场的影响。得出结论:防火材料对电缆轴的散热有一定的影响。被耐火材料封堵的中间隔断、电缆温度明显升高。最高使用温度比不使用防火材料时高0.66℃。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 IEEE International Conference on High Voltage Engineering and Applications (ICHVE)

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