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Analysis of Electrical and Non-electrical Causes of Variable Frequency Drive Failures
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作者 Osama A. Al-Naseem Mohamed A. EI-Sayed 《Journal of Energy and Power Engineering》 2014年第4期693-701,共9页
VFDs (variable frequency drives) are an integral part of many industrial plants and stations. Reliable operation and maintenance of these drives is vital to ensure sustained plant operation and availability. Underst... VFDs (variable frequency drives) are an integral part of many industrial plants and stations. Reliable operation and maintenance of these drives is vital to ensure sustained plant operation and availability. Understanding of the principles of operation of VFD systems as well as knowledge about their required operating environment is necessary for all operating personnel. Many times the operating personnel do not get involved with different technical issues until a complete failure has occurred. Hence, the awareness of the most dominant failure causes has a significant impact on assisting operators to avoid catastrophic failures and tremendous economic losses due to VFD shutdown. Proper plant design, accurate monitoring and data logging, following manufacturer preventive maintenance schedule, and choosing qualified team of operators can be the key to an efficient operation and a long lifetime for any VFD system. In this paper, we have analyzed the electrical and non-electrical causes of VFD failures based on a case study of a typical medium voltage VFD pumping station. Finally, recommendations are given from field analysis and observations. 展开更多
关键词 VFDs (variable speed drives) ASD (adjustable speed drive) electrical fault causes non-electrical fault causes SCADA twelve-pulse power electric inverter rectifier flashover inverter short-circuit.
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Transmission line fault-cause identification method for large-scale new energy grid connection scenarios 被引量:6
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作者 Hanqing Liang Xiaonan Han +3 位作者 Haoyang Yu Fan Li Zhongjian Liu Kexin Zhang 《Global Energy Interconnection》 EI CAS CSCD 2022年第4期362-374,共13页
The accurate fault-cause identification for overhead transmission lines supports the operation and maintenance personnel in formulating targeted maintenance strategies and shortening the time of inspecting faulty line... The accurate fault-cause identification for overhead transmission lines supports the operation and maintenance personnel in formulating targeted maintenance strategies and shortening the time of inspecting faulty lines.With the goal of achieving“carbon peak and carbon neutrality”,the schemes for clean energy generation have rapidly developed.Moreover,new energy-consuming equipment has been widely connected to the power grid,and the operating characteristics of the power system have significantly changed.Consequently,these have impacted traditional fault identification methods.Based on the time-frequency characteristics of the fault waveform,new energy-related parameters,and deep learning model,this study proposes a fault identification method suitable for scenarios where a high proportion of new energy is connected to the power grid.Ten parameters related to the causes of transmission line fault and new energy connection scenarios are selected as model characteristic parameters.Further,a fault identification model based on adaptive deep belief networks was constructed,and its effect was verified by field data. 展开更多
关键词 Fault-cause identification Transmission lines Fault waveform Large-scale new energy Fault cause
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3-D finite element modeling for evolution of stress field and interaction among strong earthquakes in Sichuan-Yunnan region 被引量:3
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作者 CHEN Hua-ran(陈化然) +11 位作者 CHEN Lian-wang(陈连旺) MA Hong-sheng(马宏生) LI Yi-qun(李轶群) ZHANG Jie-qing(张杰卿) HE Qiao-yun(何巧云) WANG Jian-guo(王建国) 《Acta Seismologica Sinica(English Edition)》 CSCD 2004年第6期625-634,共10页
Based on the latest achievement about activities of geological structure, a 3-D finite-element model containing four layers of upper crust, lower crust (two layers) and upper mantle is established in the paper. By rep... Based on the latest achievement about activities of geological structure, a 3-D finite-element model containing four layers of upper crust, lower crust (two layers) and upper mantle is established in the paper. By repeated tests and revisions, the boundary conditions of the model are determined. And then the background stress field, the stress field caused by fault creep and the stress field triggered by strong earthquake in Sichuan-Yunnan region, as well as their dynamic variations are calculated. The results indicate that the latter earthquake often occurs in the area with positive Coulomb rupture stress change associated with the former one, the former earthquake has a triggering effect on the latter one to a certain extent, and strong earthquake often occur in groups under the background of high stress, which is of great significance for distinguishing seismic anomalies, as well as for improving the level of earthquake prediction. 展开更多
关键词 D finite element model background stress field stress field caused by fault creep stress field triggered by strong earthquake
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