缺陷布置和集中对中压电缆绝缘机电约束的影响

Q3 Engineering

Diagnostyka Pub Date : 2023-05-01 DOI:10.29354/diag/162871

Medoukali Hemza, Zegnini Boubakeur

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引用次数: 0

摘要

电缆固体绝缘中密集存在空隙的问题仍然是研究人员在诊断和维护方面关注的问题。本文的重点是通过数值模拟研究微腔的布局和密度对MV电缆XLPE绝缘中的电气和机电约束的影响。仿真是基于MATLAB的有限元法（FEM）对拉普拉斯方程的求解。对微腔的静电压力和伸长进行了估算。这种伸长导致微通道的形成，然后由于局部放电而发展为树枝状，最终电缆停止使用。这个过程需要很长时间，所以我们使用模拟来在很短的时间内加深对这一现象的理解。对于微腔的不同布局和密度，确定了机电约束。

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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The impact of layout and concentration of defects on the electromechanical constraints in the MV cables insulation

The problem of the dense presence of voids in the solid insulation of cables remains a concern for researchers in terms of diagnosis and maintenance. The focus of this paper is to investigate the inﬂuence of both the layout and density of microcavities on the electrical and electromechanical constraints in the XLPE insulation of MV cables using numerical simulation. The simulation is based on the resolution of Laplace’s equation by the finite element method (FEM) using MATLAB. The electrostatic pressure and the elongation of the microcavities are estimated. This elongation leads to the formation of microchannels and then develops due to partial discharges to arborescence and in the end, the cable becomes out of service. This process takes a long time, so we use simulations to deepen the understanding of this phenomenon in a very short time. The electromechanical constraints are determined for different layouts and densities of microcavities.

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来源期刊

Diagnostyka Engineering-Mechanical Engineering

CiteScore

2.20

自引率

0.00%

发文量

期刊介绍： Diagnostyka – is a quarterly published by the Polish Society of Technical Diagnostics (PSTD). The journal “Diagnostyka” was established by the decision of the Presidium of Main Board of the Polish Society of Technical Diagnostics on August, 21st 2000 and replaced published since 1990 reference book of the PSTD named “Diagnosta”. In the years 2000-2003 there were issued annually two numbers of the journal, since 2004 “Diagnostyka” is issued as a quarterly. Research areas covered include: -theory of the technical diagnostics, -experimental diagnostic research of processes, objects and systems, -analytical, symptom and simulation models of technical objects, -algorithms, methods and devices for diagnosing, prognosis and genesis of condition of technical objects, -methods for detection, localization and identification of damages of technical objects, -artificial intelligence in diagnostics, neural nets, fuzzy systems, genetic algorithms, expert systems, -application of technical diagnostics, -diagnostic issues in mechanical and civil engineering, -medical and biological diagnostics with signal processing application, -structural health monitoring, -machines, -noise and vibration, -analysis of technical and civil systems.