Your search keyword '"Xie, Shijun"' showing total 5 results

1. Flexible Noncontact Approach for Fault Location of Transmission Lines Using Electro-Optic Field Sensors.

Author

Zhuang, Chijie, Xie, Shijun, Yang, Huaiyuan, Yu, Hao, Geng, Yinan, and Zeng, Rong

Subjects

*FAULT location (Engineering), *ELECTRIC lines, *ELECTRIC power systems, *ELECTRIC fault location, *CURRENT transformers (Instrument transformer), *DETECTORS, *ELECTRIC fields

Abstract

Locating faults in transmission lines is important for the safety and continuous operation of power systems. The existing fault location methods based on traveling waves mostly use current transformers to obtain the transient signals, which requires a direct connection with the live lines and therefore brings inconvenience to the installation, debugging, and maintenance. In this article, we propose a flexible noncontact approach for locating faults in transmission lines based on broadband electro-optic field sensors, where the noncontact fault location system can be easily installed, debugged, and maintained. The approach uses an electric field sensor to directly measure the quasi-static electric field generated by the faults, and then the associated time difference of arrival of the transients at two ends of a transmission line can be obtained. The approach is validated and tested by experiments both in laboratory and real 500 kV transmission lines. The artificial fault experiment shows a location error of approximately 200 m on a 177-km- long 500 kV power transmission line. [ABSTRACT FROM AUTHOR]

Published

2021

2. Feature statistics and analysis of transient overvoltage waveform measured from 220 kV substation.

Author

Zhang, Chenmeng, Xie, Shijun, Chen, Qiang, Mu, Zhou, Xia, Yalong, Zhou, Lieguo, Ouyang, Yong, and Zhang, Jianjun

Subjects

*OVERVOLTAGE, *TRANSIENT analysis, *ELECTRIC transients, *CUMULATIVE distribution function, *FREQUENCIES of oscillating systems, *RELIABILITY in engineering, *PARTIAL discharges

Abstract

• Truely on-site measurements of the transient voltage in a 220 kV substation; • Statistical analysis on the difference between on-site measured transient voltage waveforms and standard impulse waveforms; The electromagnetic transient overvoltage in the substation is an important factor that affects the life of insulation equipment. For evaluate the economy and reliability of the insulation design of substation equipment, it is necessary to study and analyze the actual measured overvoltage waveforms in the substation. In this paper, firstly, the 3018 pieces of overvoltage data monitored in the 220 kV substation from 2018 to 2019 are preprocessed to obtain the required overvoltage waveform. Next, by analyzing and classifying the overvoltage data, four typical overvoltage waveforms suffered by the insulation equipment in the substation are extracted. Combined with the IEC60060 standard, the time parameters of the overvoltage waveform are selected and defined: wave-front time (T f), half-value time (T half), main oscillation frequency (f), and attenuation constant (α). Further, statistical analysis is performed on the parameters of each waveform. The distribution law, distribution characteristics and distribution range of the parameters are obtained. Finally, the parameters of four typical overvoltage waveforms are summarized and compared, the cumulative distribution functions are obtained. This results can guide and optimize the insulation design of the insulation equipment in the substation, reduce design errors. It provide data support for the economy and reliability of insulation design. [ABSTRACT FROM AUTHOR]

Published

2024

3. Electromagnetic transient analysing of neutral bus in UHVDC converter station.

Author

Wang, Yunchao, Yu, Zhanqing, Mou, Ya, Liu, Fan, Xie, Shijun, Shuiming, Chen, Zeng, Rong, and He, Jingliang

Subjects

ELECTROMAGNETISM, CASCADE converters, POWER transmission, TIME-domain analysis, CAPACITORS

Abstract

Transient processes at neutral bus of ultra-high value direct current (UHVDC) converter station received insufficient attention, because of the lower amplitude compare to poles. However due to the lower insulation level, electromagnetic transient processes at neutral bus may cause serious fault, and become an important issue that should be studied carefully in the design stage. A method to analyse the electromagnetic transient based on time-domain wide-band circuit simulation is proposed in this study. Models of major equipment are described. The electromagnetic transient of a ±800 kV converter station is calculated. The transient under different operation statuses is compared. Effects of suppression method such as arresters and capacitors are analysed. [ABSTRACT FROM AUTHOR]

Published

2019

4. Transient Voltage Measurements for Overhead Transmission Lines and Substations by Metal-Free and Contactless Integrated Electro-Optic Field Sensors.

Author

Wang, Hai, Zhuang, Chijie, Zeng, Rong, Xie, Shijun, and He, Jinliang

Subjects

ELECTRIC potential measurement, ELECTRIC lines, DETECTORS, ELECTROOPTICAL devices, ELECTRIC fields

Abstract

Measuring the transient voltages, including lightning or switching impulse overvoltage, is helpful for accident analysis of power system and insulation design. In this paper, a contactless transient voltage measuring system based on a metal-free integrated electro-optic electric field sensor was proposed, implemented, and tested. The lightning and switching impulse transients are proportional to the electric field they generate, and vice versa, enabling measurement of the transient voltage by measuring the associated electric field. The proposed method uses an electric field sensor to directly measure the field generated by the voltage without any capacitive coupling. In addition, a method to decouple the multiphase coupling was proposed. The performances of the measuring system were tested by simulation experiments and compared with that of a standard divider. The field data of the transient overvoltage on a 220 kV bus during the process of putting a capacitor voltage transformer into operation were given. The measurement results were found to coincide with the related physical process. [ABSTRACT FROM AUTHOR]

Published

2019

5. Study on Structural Parameters and Analysis Method of Soil Successive Impulse Discharge Channel †.

Author

Luo, Donghui, Cao, Yongxing, Zhang, Yu, Xie, Shijun, Zhang, Chenmeng, Cao, Shuping, and Fofana, Issouf

Subjects

SOIL testing, ELECTRIC discharges, TRANSIENT analysis, ELECTRIC fields, LIGHTNING

Abstract

The transient analysis model of grounding systems is an important tool to analyze the lightning characteristics of grounding devices. When lightning enters the soil through the grounding device, there is a centralized discharge channel. The spatial structure of the discharge channel in the soil has a great effect on the accuracy of the transient analysis model of the soil impulse discharge. In this paper, based on the gray information analysis method, the volume of successive impulse discharge channels in the ground under various currents and soil conditions is calculated, and the changing law with time interval is analyzed. According to the experimental results, an analysis method of the model considering the discharge channel structure is proposed, and an example is analyzed. The results show that the time interval has an effect on the volume of the discharge channel. In a certain range, the volume of the channel increases with the time interval of successive impulse discharges. Taking the critical breakdown electric field strength as the judgment condition and the residual resistivity as the variable, the development process of the discharge channel can be simulated. The calculated results of the model are close to the experimental results. [ABSTRACT FROM AUTHOR]

Published

2021