Paper Titles

A Nested Folded 4f System for Ultra-Short Optical Pulse Shaping by Liquid Crystal Spatial Light Modulator
p.1704

Research on Reduced Scale Experiment of Induced Overvoltage on Distribution Line
p.1708

The Research of the Photovoltaic DC Grid-Connected Converter Applied in Flexible DC Grid
p.1712

Research of Photovoltaic Charging System with Maximum Power Point Tracking Based on DSP
p.1716

Graph-Based Temporary Ground Wire Management in Distribution Network
p.1720

The Test Equipment Based on Single Chip Micro (SCM) of Volt-Ampere Characteristic of CT
p.1726

Regular Expression Matching Algorithm Based on FPGA Circuit
p.1730

Design and Implementation of the Multi-Functional Virtual Instrument Based on LabVIEW
p.1737

Research of a Mixed-Signal Programmable SoC Based on FPAA
p.1741

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 556-562Graph-Based Temporary Ground Wire Management in...

Graph-Based Temporary Ground Wire Management in Distribution Network

Article Preview

Abstract:

It requires a large number of temporary ground wires for maintenance tasks in distribution network. Because the temporary ground wires can be grounded anywhere, it is difficult to check their states and control them. Currently solutions are generally expensive in city-scale. This paper presents a method that integrates the complex monitor, control and communication modules into a pocket computer key. The abundant of ground wires are controlled by a simple electric lock, which will downgrade the cost of whole system. This paper also proposed a graph-base temporary ground wire management algorithm, which utilizes the Boolean adjacent matrix to determine the ground operations. The experiment results show that algorithm is more efficiency the baseline of the Topological Analysis Algorithm and the Logic-based Analysis Algorithm.

You might also be interested in these eBooks

Mechatronics Engineering, Computing and Information Technology

Info:

Periodical:

Applied Mechanics and Materials (Volumes 556-562)

Pages:

1720-1725

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.556-562.1720

Citation:

Cite this paper

Online since:

May 2014

Authors:

Xin Yang Fu*, Chong Zhang, Shuai Gai, Wen Hua Liu, Zhuo Yue Ni, Shi Peng Zhao

Keywords:

Distribution Network, Graph-Base Grounding, Temporary Ground Wire Management

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2014 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] Junxia Lv and Xuemei Hu. Analysis on Importance and Basic Requirements of Proper Grounding in Power Plants and Substations[J]. Process Automation Instrumentation, 2010, 3(2): 55-57.

[2] Xiaowen Liu and Wen Xu. Discussion of Application and Improvement for substation temporary grounding management system[J]. Silicon Valley, 2010, (018): 122-122.

[3] Xiaobin Wang. Regulations to Prevent Accidents for Substation Grounding [J]. Management & Technology for Medium and small enterprises, 2011, (36): 292-292.

[4] Renqi Liu, Xiaojun Lv, Jin Huang, and et al. An Integrated Temporary Grounding Line Management System[J]. Automation of Electric Power Systems, 2010, 34(22): 109-122.

[5] Zuoyu Zhang and Yanqing Li. A Type of Detecting System for Grounding Line[J]. Power System and Clean Energy, 2010, 26(12): 17-19, 23.

[6] Zhiwu Zhao, Changpei Gao and Hu Lin. One-point Grounding Detection of PT Secondary Circuit and Multi Grounding Points Searching Method [J]. Electric Power Automation Equipment, 2010, 30(6): 148-150.

[7] Jianyuan Xu, Wenjun Dou and Aihong Wang. Implementation of Inadvertent Energizing Protection in Distributed Control System. Electric Power Automation Equipment, 2008, 28(7): 111-113, 120.

[8] Zhigen Chen. Application Study on the Smart Temporary Grounding Wire Management System of the Substation. Hubei Electric Power. 2010, 34(6): 9-10.

[9] Yanfei Zhou and Shugang Tang. Research and Application of Intelligent Ground wire Monitoring System [J]. Electric Safety, 2011, 30(18): 42-45.

[10] Zhanlong Zhang, Dewen Li, Xiangshu Guo, Nan Xu and Xiaofu Xiong. A Monitoring and Warning System for Transmission Network Maintenance and Grounding Line Working Conditions [J]. Automation of Electric Power Systems, 2009, 33(16): 112-115.

[11] JinLin Xu, Fei Wang and Jiejin Yan. GPS Grounding Line Position Auto-positioning System [J]. Guide of Sci-tech Magazine, 2010, (1): 109-111.

[12] Guangcun Wei, Yun Gao, Hua Tian and Zhixian Lin. Development and Application of ground wire real-time detection device [J]. Digital Technology and Application, 2012, (6): 33-34.

[13] Jiajun Liu, Jun Liao, Lixiao Yao, and et al. Visualized Monitoring of Grounding Wire Connection Status for Electric Power Maintenance Operation [J]. Electric Power Automation Equipment, 2010, 30(7): 134-136.

[14] JiaJun Liu and Jun Liao. Research on New Type of Electric Power Overhaul Grounding Line Device [J]. Power System Protection and Control, 2009, 37(23): 119-121, 129.

[15] Jiawei Cao and Jiangwei Zhao. Design of Ground Wire Device for Power Maintenance Operations [J]. Industrial & Science Tribune, 2012, (6): 42.

[16] Shuiping Wu, Yu Zhang and Heping Zang. Design and Implementation for New Ground Manangement System [J]. Electrical Engineering, 2012 (8): 77-80.

[17] Feng Ding. The Engineering Application of Interlocking in Substation based on IEC 61850 [J]. Power System Protection and Control, 2010, 38(9): 96-99.

[18] Yanwei Zheng, Qingdong Meng, Xuejun Lv and Zhiquan Feng. Research on Auto-generation of Operation Order for Distribution Network[C]. Proceedings of 2011 2nd International Conference on High Performance Networking, Computing and Communication Systems (ICHCC2011), Singapore, Springer Press, vol 4: 572-577, May 5-6, (2011).

DOI: 10.1007/978-3-642-25002-6_79

[19] Yanwei Zheng, Zhonghai Bai, and Zhiquan Feng. The Research on Preventing Mal-Operation Algorithms in Distribution Network [J]. Advanced Materials Research, 2013, 614: 1895-(1902).

DOI: 10.4028/www.scientific.net/amr.614-615.1895