Alleviating post-contingency congestion risk of wind integrated systems with dynamic line ratings

B. Banerjee, Dilan Jayaweera, S. M. Islam

Research output: Chapter in Book/Report/Conference proceedingConference contribution

4 Citations (Scopus)

Abstract

One of the factors hindering the large scale integration of wind power is the post contingency congestion of a network due to limited availability of network capacity and auxiliary constraints. Under such conditions, the network operators can potentially request a curtailment of wind farm output if the remedial strategies fail. The paper investigates this problem in detail and proposes a mathematical framework to capture the post contingency spare capacity of network assets that is required to limit the wind curtailment. The proposed approach incorporates stochastic variation in asset thermal rating; models network congestion, and quantifies the risk of congestion using an extended version of conic-quadratic programming based optimization. The uniqueness of the proposed mathematical model is that it converts conventional thermal constraints to dynamic constraints by using a discretized stochastic penalty function with quadratic approximation of constraint relaxation penalty. The results suggest that the wind utilization can be maximized if the networks are operated 30-50% less than the nominal rating of the assets.

Original languageEnglish
Title of host publication2014 Australasian Universities Power Engineering Conference, AUPEC 2014 - Proceedings
PublisherInstitute of Electrical and Electronics Engineers (IEEE)
ISBN (Print)9780646923758
DOIs
Publication statusPublished - 24 Nov 2014
Event24th Australasian Universities Power Engineering Conference, AUPEC 2014 - Perth, Australia
Duration: 28 Sep 20141 Oct 2014

Conference

Conference24th Australasian Universities Power Engineering Conference, AUPEC 2014
Country/TerritoryAustralia
CityPerth
Period28/09/141/10/14

Keywords

  • dynamic line ratings
  • risk of congestion
  • Wind power generation

ASJC Scopus subject areas

  • Energy Engineering and Power Technology

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