Automatic Voltage Control (AVC) System under Uncertainty from Wind Power

Nan Qin; Hans Abildgaard; Damian Flynn; Zakir Hussain Rather; Claus Leth Bak; Zhe Chen

doi:10.1109/PSCC.2016.7540864

Automatic Voltage Control (AVC) System under Uncertainty from Wind Power

Nan Qin, Hans Abildgaard, Damian Flynn, Zakir Hussain Rather, Claus Leth Bak, Zhe Chen

AAU Energy

Research output: Contribution to book/anthology/report/conference proceeding › Article in proceeding › Research › peer-review

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Abstract

An automatic voltage control (AVC) system maintains the voltage profile of a power system in an acceptable range and minimizes the operational cost by coordinating the regulation of controllable components. Typically, all of the parameters in the optimization problem are assumed to be certain and constant in the decision making process. However, for high shares of wind power, uncertainty in the decision process due to wind power variability may result in an infeasible AVC solution. This paper
proposes a voltage control approach which considers the voltage uncertainty from wind power productions. The proposed method improves the performance and the robustness of a scenario based approach by estimating the potential voltage variations due to fluctuating wind power production, and introduces a voltage margin to protect the decision against uncertainty for each scenario. The effectiveness of the proposed approach is demonstrated on IEEE 39-bus model. Further, Monte Carlo simulation is used to verify the results.

Original language	English
Title of host publication	Proceedings of 19th Power Systems Computation Conference (PSCC)
Number of pages	8
Publisher	IEEE Press
Publication date	Jun 2016
ISBN (Electronic)	978-88-941051-2-4
DOIs	https://doi.org/10.1109/PSCC.2016.7540864
Publication status	Published - Jun 2016
Event	19th Power Systems Computation Conference - Genoa, Italy Duration: 20 Jun 2016 → 24 Jun 2016 http://www.pscc2016.net/

Conference

Conference	19th Power Systems Computation Conference
Country/Territory	Italy
City	Genoa
Period	20/06/2016 → 24/06/2016
Internet address	http://www.pscc2016.net/

Keywords

Automatic voltage control
Forecast uncertainty
Optimization, wind energy

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10.1109/PSCC.2016.7540864

Automatic Voltage Control (AVC) System under Uncertainty from Wind PowerSubmitted manuscript, 374 KB

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Cite this

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title = "Automatic Voltage Control (AVC) System under Uncertainty from Wind Power",

abstract = "An automatic voltage control (AVC) system maintains the voltage profile of a power system in an acceptable range and minimizes the operational cost by coordinating the regulation of controllable components. Typically, all of the parameters in the optimization problem are assumed to be certain and constant in the decision making process. However, for high shares of wind power, uncertainty in the decision process due to wind power variability may result in an infeasible AVC solution. This paperproposes a voltage control approach which considers the voltage uncertainty from wind power productions. The proposed method improves the performance and the robustness of a scenario based approach by estimating the potential voltage variations due to fluctuating wind power production, and introduces a voltage margin to protect the decision against uncertainty for each scenario. The effectiveness of the proposed approach is demonstrated on IEEE 39-bus model. Further, Monte Carlo simulation is used to verify the results.",

keywords = "Automatic voltage control, Forecast uncertainty, Optimization, wind energy",

author = "Nan Qin and Hans Abildgaard and Damian Flynn and Rather, {Zakir Hussain} and Bak, {Claus Leth} and Zhe Chen",

year = "2016",

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doi = "10.1109/PSCC.2016.7540864",

language = "English",

booktitle = "Proceedings of 19th Power Systems Computation Conference (PSCC)",

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AU - Qin, Nan

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AU - Chen, Zhe

PY - 2016/6

Y1 - 2016/6

N2 - An automatic voltage control (AVC) system maintains the voltage profile of a power system in an acceptable range and minimizes the operational cost by coordinating the regulation of controllable components. Typically, all of the parameters in the optimization problem are assumed to be certain and constant in the decision making process. However, for high shares of wind power, uncertainty in the decision process due to wind power variability may result in an infeasible AVC solution. This paperproposes a voltage control approach which considers the voltage uncertainty from wind power productions. The proposed method improves the performance and the robustness of a scenario based approach by estimating the potential voltage variations due to fluctuating wind power production, and introduces a voltage margin to protect the decision against uncertainty for each scenario. The effectiveness of the proposed approach is demonstrated on IEEE 39-bus model. Further, Monte Carlo simulation is used to verify the results.

AB - An automatic voltage control (AVC) system maintains the voltage profile of a power system in an acceptable range and minimizes the operational cost by coordinating the regulation of controllable components. Typically, all of the parameters in the optimization problem are assumed to be certain and constant in the decision making process. However, for high shares of wind power, uncertainty in the decision process due to wind power variability may result in an infeasible AVC solution. This paperproposes a voltage control approach which considers the voltage uncertainty from wind power productions. The proposed method improves the performance and the robustness of a scenario based approach by estimating the potential voltage variations due to fluctuating wind power production, and introduces a voltage margin to protect the decision against uncertainty for each scenario. The effectiveness of the proposed approach is demonstrated on IEEE 39-bus model. Further, Monte Carlo simulation is used to verify the results.

KW - Automatic voltage control

KW - Forecast uncertainty

KW - Optimization, wind energy

U2 - 10.1109/PSCC.2016.7540864

DO - 10.1109/PSCC.2016.7540864

M3 - Article in proceeding

BT - Proceedings of 19th Power Systems Computation Conference (PSCC)

PB - IEEE Press

T2 - 19th Power Systems Computation Conference

Y2 - 20 June 2016 through 24 June 2016

ER -

Automatic Voltage Control (AVC) System under Uncertainty from Wind Power

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