Your search keyword '"Fu, Zhihong"' showing total 5 results

1. Imaging the Topology of Grounding Grids Based on Wavelet Edge Detection.

Author

Fu, Zhihong, Song, Siyu, Wang, Xiujuan, Li, Junqiang, and Tai, Heng-Ming

Subjects

*ELECTRIC current grounding, *EDGE detection (Image processing), *ELECTRIC power distribution grids, *DISCRETE wavelet transforms, *ELECTROMAGNETIC induction

Abstract

A wavelet edge detection method is introduced to image the topology of grounding grids and locate the grounding conductors from measured magnetic induction. Theoretical analysis of the magnetic field and calculation method of discrete wavelet transform are described. Since the sharpest variation of the magnetic field perpendicular to the ground surface occurs right above a conductor, the gradient vector modulus maximum of the vertical component can be calculated to extract the position information about the conductor. This scheme is derived from the Canny edge detection. A 2-D discrete à trous algorithm is used to perform equivalent edge detection as the wavelet transform avoids partial derivative. The method is robust to noise and would extract more stable and distinct edge. Extensive simulation and experimental examples demonstrate that the proposed method can accurately draw the topology of grounding grids and locate the conductors. [ABSTRACT FROM AUTHOR]

Published

2018

2. Configuration Detection of Substation Grounding Grid Using Transient Electromagnetic Method.

Author

Yu, Cigong, Fu, Zhihong, Wu, Gaolin, Zhou, Liuyuan, Zhu, Xuegui, and Bao, Minghui

Subjects

*ELECTROMAGNETISM, *ELECTRIC power distribution grids, *ELECTRICAL resistivity, *MAGNETIC fields, *ELECTROMAGNETIC induction

Abstract

Optimizing the grounding grid configuration is an effective approach to improve the performance of grounding grid. On the other hand, configuration of grounding grid is necessary for some defect diagnosis method to detect the faults existing in grounding conductors. This paper employs the transient electromagnetic (TEM) method to draw the configuration of a substation grounding grid. The surface magnetic field is recorded by receiver coils above the grounding grid. Based on the regular distribution characteristics of a recorded magnetic field, the grounding conductor is accurately located from the curve of magnetic intensity. The complete process of configuration detection of the grounding grid is described in detail. After fast inversion calculation of the recorded magnetic field, the equivalent resistivity is obtained. The configuration of the grounding grid will be clearly and accurately shown in the contour map and three-dimensional (3-D) surface map of equivalent resistivity. Model study is performed, and a field test is also conducted. The results are in good agreement to demonstrate the effectiveness of TEM method for configuration detection of the substation grounding grid. [ABSTRACT FROM AUTHOR]

Published

2017

3. Break-Point Diagnosis of Grounding Grids Using Transient Electromagnetic Apparent Resistivity Imaging.

Author

Yu, Cigong, Fu, Zhihong, Hou, Xingzhe, Tai, Heng-Ming, and Su, Xiangfeng

Subjects

*ELECTRIC power distribution grids, *ELECTRIC power systems research, *ELECTRIC fault location, *ELECTRIC transients, *ELECTROMAGNETIC fields, *ELECTRICAL resistivity

Abstract

Faults in the grounding grid are a hidden danger to the safety of power systems and cause significant economic loss every year. This paper presents a new means to locate faults in grounding grids using the transient electromagnetic imaging method. The method compares the distribution characteristics of the equivalent resistivity of the underground covered by grids for the no-fault case and those with break points. We describe why and how the proposed method can be used for the break-point diagnosis of grounding grids. Simulation was performed using the Ansoft finite-element method package, and a field experiment was conducted to verify the effectiveness of the proposed method. This study provides a practical means for break-point diagnosis with no requirement of power shut down or soil excavation. Moreover, the proposed method does not require the design drawings of grounding grids. [ABSTRACT FROM PUBLISHER]

Published

2015

4. A Novel Method for Fault Diagnosis of Grounding Grids.

Author

Yu, Cigong, Fu, Zhihong, Wang, Qian, Tai, Heng-Ming, and Qin, Shanqiang

Subjects

*ELECTRIC fault location, *ELECTRIC current grounding, *ELECTRIC power distribution grids, *ELECTRIC power system safety measures, *ELECTRICAL conductors

Abstract

Faults of grounding grids are threat to the safety of power system and cause significant economic loss every year in China. Accurate detection of the faults will alleviate these detrimental effects. This paper presents a novel approach using the transient electromagnetic method for fault diagnosis of grounding grids. The induced magnetic intensity is collected by receiver coils in the form of electromotive force. After inversion calculation, the contour map of equivalent resistivity of underground covered by grids is obtained. The faults due to corrosion or break can be accurately located from the distribution characteristics of equivalent resistivity maps. The influence of the fault of different degrees, material of grounding conductor, and soil resistivity on distribution of induced magnetic intensity to fault diagnosis will be analyzed in detail. The effect of the underground pipeline on fault diagnosis of grounding grids is also investigated. Simulation was performed, and a field experiment was conducted to verify the effectiveness of the proposed method. [ABSTRACT FROM AUTHOR]

Published

2015

5. Service Life Estimation for the Small- and Medium-Sized Earth Grounding Grids.

Author

Huang, Shengxin, Fu, Zhihong, Wang, Qian, Zhu, Xuegui, and Qin, Shanqiang

Subjects

*SERVICE life, *ELECTRIC power distribution grids, *ELECTRIC current grounding, *ELECTRICAL conductors, *CONTACT resistance (Materials science)

Abstract

Service lifetime estimation for earth grounding grids as a problem or a task faced by the industry is presented. A mathematical model based on Freschi's semianalytical model to determine the performance of the earth grounding grid at a certain year after being buried is proposed. The mathematical model can also explain the performance degradation of the earth grounding grid in principle and mathematically. According to the model, a scheme to estimate the service life of the earth grounding grid is proposed. A case study is given to illustrate how the scheme works. If the estimated service life of an earth grounding grid is not satisfactory, some measures, such as cathodic protection, should be considered to extend the service lifetime of the earth grounding grid. [ABSTRACT FROM AUTHOR]

Published

2015