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作 者:马爱清 王洁 毕永翔 MA Aiqing;WANG Jie;BI Yongxiang(College of Electrical Engineering,Shanghai University of Electric Power,Shanghai 200090,China)
出 处:《中国电力》2022年第6期128-136,共9页Electric Power
基 金:上海市自然科学基金资助项目(19ZR1420600);上海绿色能源并网工程技术研究中心(13DZ2251900)。
摘 要:为确保交流500 kV和直流±800 kV并行输电线路的安全稳定运行,利用三维有限元模型和电磁暂态模型对混合线路中超特高压直流输电线路带电作业安全防护进行相关研究。通过体表电场、转移电流以及暂态能量3个方面对安全防护进行分析,计算结果表明:作业人员体表电场随交流线路相位的变化而变化,作业人员越靠近特高压直流输电线路,交流输电线路对体表电场影响越明显;相对特高压直流输电线路独立架设,混合线路中带电作业人员体表电场、转移电流幅值有明显升高,暂态能量值升高相对较小;建议混合线路中作业人员身穿合适的屏蔽服和屏蔽手套在距离导线0.4~0.5 m位置时进行电位转移工作。In order to ensure the reliable operation of AC 500 kV and DC±800 kV parallel transmission lines without power failure,the three-dimensional finite element model and electromagnetic transient model are used to study the safety protection of EHVAC and UHVDC transmission lines live working in hybrid lines.The safety protection is analyzed through the three aspects of body surface electric field,transfer current and transient energy.The results show that the worker’s body surface electric field changes with the change of the phase of the AC line.The distance between the worker and the UHVDC transmission line is closer,the effect of the AC transmission line on the surface electric field is more obvious.Compared with the independent UHVDC transmission line,the worker’s body surface electric field and transfer current amplitude in the mixed line have increased significantly,the transient energy value relatively has a small increase.In the hybrid line,it is recommended that the worker’s potential transfer work should be proceeded at a distance between 0.4 m to 0.5 m from the conductor with suitable screen clothes.
关 键 词:超特高压交直流并行输电线路 带电作业 体表电场 转移电流 暂态能量
分 类 号:TM75[电气工程—电力系统及自动化]
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