Aggregated model of distribution networks with a large number of dispersed induction generators

Yun Lei; Graeme Burt; Stuart Galloway

doi:10.1109/SUPERGEN.2009.5348232

Aggregated model of distribution networks with a large number of dispersed induction generators

Yun Lei, Graeme Burt, Stuart Galloway

Electronic And Electrical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution book

Abstract

A novel methodology to simplify the transient modelling of distribution networks that include many single phase induction generators is presented in this paper. The methodology is based on the derivation of an aggregated model covering an area of network with dispersed generators connected. The proposed aggregated model improves upon other published works that have only considered generation being connected at one location. Furthermore, the validity of the aggregated model is demonstrated for several network fault transient case studies. These are also used to calculate the critical clearance times of induction generators in response to medium voltage network faults.

Language	English
Title of host publication	International Conference on Sustainable Power Generation and Supply, 2009. SUPERGEN '09
Place of Publication	Beijing
Pages	789-796
Number of pages	8
Volume	1-4
DOIs	10.1109/SUPERGEN.2009.5348232
Publication status	Published - 4 Dec 2009
Event	SUPERGEN '09. International Conference on Sustainable Power Generation and Supply, 2009 - Nanjing, China Duration: 6 Apr 2009 → 7 Apr 2009

Conference

Conference	SUPERGEN '09. International Conference on Sustainable Power Generation and Supply, 2009
Country	China
City	Nanjing
Period	6/04/09 → 7/04/09

Fingerprint

Asynchronous generators

Electric power distribution

Electric potential

Keywords

critical clearance time and aggregated models
induction generators
transient modelling
circuit faults

Cite this

Lei, Y., Burt, G., & Galloway, S. (2009). Aggregated model of distribution networks with a large number of dispersed induction generators. In International Conference on Sustainable Power Generation and Supply, 2009. SUPERGEN '09 (Vol. 1-4, pp. 789-796). Beijing. https://doi.org/10.1109/SUPERGEN.2009.5348232

Lei, Yun ; Burt, Graeme ; Galloway, Stuart. / Aggregated model of distribution networks with a large number of dispersed induction generators. International Conference on Sustainable Power Generation and Supply, 2009. SUPERGEN '09. Vol. 1-4 Beijing, 2009. pp. 789-796

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Lei, Y, Burt, G & Galloway, S 2009, Aggregated model of distribution networks with a large number of dispersed induction generators. in International Conference on Sustainable Power Generation and Supply, 2009. SUPERGEN '09. vol. 1-4, Beijing, pp. 789-796, SUPERGEN '09. International Conference on Sustainable Power Generation and Supply, 2009, Nanjing, China, 6/04/09. https://doi.org/10.1109/SUPERGEN.2009.5348232

Aggregated model of distribution networks with a large number of dispersed induction generators. / Lei, Yun; Burt, Graeme ; Galloway, Stuart.

International Conference on Sustainable Power Generation and Supply, 2009. SUPERGEN '09. Vol. 1-4 Beijing, 2009. p. 789-796.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution book

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AB - A novel methodology to simplify the transient modelling of distribution networks that include many single phase induction generators is presented in this paper. The methodology is based on the derivation of an aggregated model covering an area of network with dispersed generators connected. The proposed aggregated model improves upon other published works that have only considered generation being connected at one location. Furthermore, the validity of the aggregated model is demonstrated for several network fault transient case studies. These are also used to calculate the critical clearance times of induction generators in response to medium voltage network faults.

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Lei Y, Burt G , Galloway S. Aggregated model of distribution networks with a large number of dispersed induction generators. In International Conference on Sustainable Power Generation and Supply, 2009. SUPERGEN '09. Vol. 1-4. Beijing. 2009. p. 789-796 https://doi.org/10.1109/SUPERGEN.2009.5348232

Access to Document

10.1109/SUPERGEN.2009.5348232