Shifting of research trends in islanding detection method - a comprehensive survey

被引：71

作者：

Dutta S. ^{[1
]}

Sadhu P.K. ^{[1
]}

Jaya Bharata Reddy M. ^{[2
]}

Mohanta D.K. ^{[3
]}

机构：

[1] Department of Electrical Engineering, Indian Institute of Technology (Indian School of Mines), Dhanbad, Jharkhand

[2] Department of Electrical and Electronics Engineering, National Institute of Technology, Tiruchirappalli, Tamilnadu

[3] Department of Electrical and Electronics Engineering, Birla Institute of Technology, Mesra, Ranchi, Jharkhand

来源：

Protection and Control of Modern Power Systems | 2018年 / 3卷 / 1期

关键词：

Distributed generation; Islanding detection; Microgrid; Review;

D O I：

10.1186/s41601-017-0075-8

中图分类号：

学科分类号：

摘要：

The augmentation in electricity demand, power system privatization as well as efficacy of renewable resources has paved the way for power system companies and researchers to exploit the field of grid connected distributed generation (DG) and its issues, islanding being a dominant one. Several research works have been conducted to mitigate the issues of islanding detection (ID). In context of this, the paper gives a comprehensive review of islanding issues, standard test systems, criteria and shifting of research trends in islanding detection methods (IDMs). The significant contributions pertain to categorization of IDMs, evaluation of non-detection zone (NDZ) for each test system, disquisition on evolution and advancement of IDMs and its comparisons based on criteria such as NDZ, run on time, nuisance tripping percentage, applicability in multi DG system and implementation cost to draw out the strength and shortcomings of individual methods that will come to aid to the companies or researchers for establishing the applicability and appropriateness of such method for their concerned domain. © 2018, The Author(s).

引用

共 117 条

[1]

El-Khattam W., Salama M.M., Distributed generation technologies, definitions and benefits, Electr Power Syst Res, 71, 2, pp. 119-128, (2004)

[2]

Eltawil M.A., Zhao Z., Grid-connected photovoltaic power systems: Technical and potential problems—A review, Renew Sust Energ Rev, 14, 1, pp. 112-129, (2010)

[3]

Cossent R., Gomez T., Frias P., Towards a future with large penetration of distributed generation: Is the current regulation of electricity distribution ready? Regulatory recommendations under a European perspective, Energy Policy, 37, 3, pp. 1145-1155, (2009)

[4]

Walling R.A., Miller N.W., Distributed generation islanding-implications on power system dynamic performance, 1, pp. 92-96, (2002)

[5]

De Mango F., Liserre M., Dell'Aquila A., Pigazo A., Overview of anti-islanding algorithms for PV systems, pp. 1878-1883, (2006)

[6]

Basso T.S., DeBlasio R., IEEE 1547 series of standards: Interconnection issues, IEEE Trans Power Electron, 19, 5, pp. 1159-1162, (2004)

[7]

Wang C., Li P., Development and challenges of distributed generation, the micro-grid and smart distribution system, Automation of Electric Power Systems, 2, (2010)

[8]

Katiraei F., Iravani M.R., Lehn P.W., Micro-grid autonomous operation during and subsequent to islanding process, IEEE Transactions on power delivery, 20, 1, pp. 248-257, (2005)

[9]

Vachtsevanos G.J., Kang H., Simulation studies of islanded behavior of grid-connected photovoltaic systems, IEEE Transactions on Energy Conversion, 4, 2, pp. 177-183, (1989)

[10]

Balaguer I.J., Lei Q., Yang S., Supatti U., Peng F.Z., Control for grid-connected and intentional islanding operations of distributed power generation, IEEE Trans Ind Electron, 58, 1, pp. 147-157, (2011)

← 1 2 3 4 5 6 7 8 9 10 →