Sadales tikls AS Five most used MV cable type permissible loading possibilities at a critical environment in dependence of conductor temperature

2016 Electric Power Quality and Supply Reliability (PQ) Pub Date : 2016-08-01 DOI:10.1109/PQ.2016.7724091

J. Blūms, M. Budahs, J. Černovs, Ilgvars Gorņevs, V. Jurķāns, R. Elmanis-Helmanis

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Abstract

The paper presents results of Latvian distribution system operator Sadales tikls AS (ST), Riga Technical University (RTU) and Latvian transmission system operator Augstsprieguma tikls AS (AS) joint research to determine the maximum permissible loading level of five ST most used 10 kV and 20 kV cable types and development of MV cable loading control methodology which includes development of maximum achievable cable conductor temperature prediction model for n - 1 conditions (broken one MV network element). At AS laboratory five most used ST MV cable type samples were protractedly loaded at a special test bed to simulate most critical ambient environment conditions of operating cables from the heating point of view with currents from 0.3 In to 1.1 In to imitate normal and n - 1 conditions in the electrical network. Experimentally gained temperature measurement data was used to develop mathematical models for MV cable sheath and conductor temperature prediction in dependence of load current, loading duration and different ambient environment (air, spray foam, soil).

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在依赖于导体温度的关键环境下，五种最常用的中压电缆类型的允许负载可能性

本文介绍了拉脱维亚配电系统运营商Sadales tikls AS (ST)的研究结果。里加技术大学(RTU)和拉脱维亚输电系统运营商Augstsprieguma tikls AS (AS)联合研究确定五种最常用的10千伏和20千伏电缆类型的最大允许负载水平，并开发中压电缆负载控制方法，其中包括开发n - 1条件下可实现的最大电缆导体温度预测模型(损坏一个中压网络元件)。在AS实验室，五个最常用的ST MV电缆型样品在一个特殊的试验台上长时间加载，从加热的角度模拟操作电缆最关键的环境条件，电流从0.3 In到1.1 In，模拟电网中的正常和n - 1条件。利用实验测温数据，建立了中压电缆护套和导体温度随负载电流、负载持续时间和不同环境(空气、喷雾泡沫、土壤)变化的数学模型。

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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2016 Electric Power Quality and Supply Reliability (PQ)

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