Study of speed sensorless supervisory control for maximum power extraction at wind turbine system

Fadhil Arya Dhiwanto; Avian Lukman Setya Budi; Katherin Indriawati

doi:10.1063/5.0124469

Study of speed sensorless supervisory control for maximum power extraction at wind turbine system

Fadhil Arya Dhiwanto^*, Avian Lukman Setya Budi, Katherin Indriawati

^*Corresponding author for this work

Institut Teknologi Sepuluh Nopember

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In this paper, supervisory control without using a speed sensor has been developed in order to increase the generated wind turbine generator power with the help of a boost converter. In this case, the control system works based on current information instead of rotor speed. For this reason, at each speed, the optimum current value that produces maximum power will be determined. This information becomes part of the supervisory level algorithm, which is by using the converter output voltage to determine the optimum current. This current value acts as the setpoint for the proposed controller. Based on the results of real time experiments on a laboratory scale, it was obtained an increase in power of 280-893 mW for wind speeds of 5 - 7 m/s compared to the power results in open loop conditions.

Original language	English
Title of host publication	Engineering Physics International Conference 2021, EPIC 2021
Editors	Ayodya Pradhipta Tenggara, Nur Abdillah Siddiq, Sita Gandes Pinasti, Rizki Insyani, Jundika Candra Kurnia, Geetali Saha, Rasool Moradi-Dastjerdi
Publisher	American Institute of Physics Inc.
ISBN (Electronic)	9780735444843
DOIs	https://doi.org/10.1063/5.0124469
Publication status	Published - 22 May 2023
Event	3rd Engineering Physics International Conference, EPIC 2021 - Yogyakarta, Virtual, Indonesia Duration: 24 Aug 2021 → 25 Aug 2021

Publication series

Name	AIP Conference Proceedings
Volume	2580
ISSN (Print)	0094-243X
ISSN (Electronic)	1551-7616

Conference

Conference	3rd Engineering Physics International Conference, EPIC 2021
Country/Territory	Indonesia
City	Yogyakarta, Virtual
Period	24/08/21 → 25/08/21

Access to Document

10.1063/5.0124469

Cite this

Dhiwanto, F. A., Budi, A. L. S., & Indriawati, K. (2023). Study of speed sensorless supervisory control for maximum power extraction at wind turbine system. In A. P. Tenggara, N. A. Siddiq, S. G. Pinasti, R. Insyani, J. C. Kurnia, G. Saha, & R. Moradi-Dastjerdi (Eds.), Engineering Physics International Conference 2021, EPIC 2021 Article 040024 (AIP Conference Proceedings; Vol. 2580). American Institute of Physics Inc.. https://doi.org/10.1063/5.0124469

Dhiwanto, Fadhil Arya ; Budi, Avian Lukman Setya ; Indriawati, Katherin. / Study of speed sensorless supervisory control for maximum power extraction at wind turbine system. Engineering Physics International Conference 2021, EPIC 2021. editor / Ayodya Pradhipta Tenggara ; Nur Abdillah Siddiq ; Sita Gandes Pinasti ; Rizki Insyani ; Jundika Candra Kurnia ; Geetali Saha ; Rasool Moradi-Dastjerdi. American Institute of Physics Inc., 2023. (AIP Conference Proceedings).

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title = "Study of speed sensorless supervisory control for maximum power extraction at wind turbine system",

abstract = "In this paper, supervisory control without using a speed sensor has been developed in order to increase the generated wind turbine generator power with the help of a boost converter. In this case, the control system works based on current information instead of rotor speed. For this reason, at each speed, the optimum current value that produces maximum power will be determined. This information becomes part of the supervisory level algorithm, which is by using the converter output voltage to determine the optimum current. This current value acts as the setpoint for the proposed controller. Based on the results of real time experiments on a laboratory scale, it was obtained an increase in power of 280-893 mW for wind speeds of 5 - 7 m/s compared to the power results in open loop conditions.",

author = "Dhiwanto, {Fadhil Arya} and Budi, {Avian Lukman Setya} and Katherin Indriawati",

note = "Publisher Copyright: {\textcopyright} 2023 Author(s).; 3rd Engineering Physics International Conference, EPIC 2021 ; Conference date: 24-08-2021 Through 25-08-2021",

year = "2023",

month = may,

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doi = "10.1063/5.0124469",

language = "English",

series = "AIP Conference Proceedings",

publisher = "American Institute of Physics Inc.",

editor = "Tenggara, {Ayodya Pradhipta} and Siddiq, {Nur Abdillah} and Pinasti, {Sita Gandes} and Rizki Insyani and Kurnia, {Jundika Candra} and Geetali Saha and Rasool Moradi-Dastjerdi",

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Dhiwanto, FA, Budi, ALS & Indriawati, K 2023, Study of speed sensorless supervisory control for maximum power extraction at wind turbine system. in AP Tenggara, NA Siddiq, SG Pinasti, R Insyani, JC Kurnia, G Saha & R Moradi-Dastjerdi (eds), Engineering Physics International Conference 2021, EPIC 2021., 040024, AIP Conference Proceedings, vol. 2580, American Institute of Physics Inc., 3rd Engineering Physics International Conference, EPIC 2021, Yogyakarta, Virtual, Indonesia, 24/08/21. https://doi.org/10.1063/5.0124469

Study of speed sensorless supervisory control for maximum power extraction at wind turbine system. / Dhiwanto, Fadhil Arya; Budi, Avian Lukman Setya; Indriawati, Katherin.
Engineering Physics International Conference 2021, EPIC 2021. ed. / Ayodya Pradhipta Tenggara; Nur Abdillah Siddiq; Sita Gandes Pinasti; Rizki Insyani; Jundika Candra Kurnia; Geetali Saha; Rasool Moradi-Dastjerdi. American Institute of Physics Inc., 2023. 040024 (AIP Conference Proceedings; Vol. 2580).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - Study of speed sensorless supervisory control for maximum power extraction at wind turbine system

AU - Dhiwanto, Fadhil Arya

AU - Budi, Avian Lukman Setya

AU - Indriawati, Katherin

PY - 2023/5/22

Y1 - 2023/5/22

N2 - In this paper, supervisory control without using a speed sensor has been developed in order to increase the generated wind turbine generator power with the help of a boost converter. In this case, the control system works based on current information instead of rotor speed. For this reason, at each speed, the optimum current value that produces maximum power will be determined. This information becomes part of the supervisory level algorithm, which is by using the converter output voltage to determine the optimum current. This current value acts as the setpoint for the proposed controller. Based on the results of real time experiments on a laboratory scale, it was obtained an increase in power of 280-893 mW for wind speeds of 5 - 7 m/s compared to the power results in open loop conditions.

AB - In this paper, supervisory control without using a speed sensor has been developed in order to increase the generated wind turbine generator power with the help of a boost converter. In this case, the control system works based on current information instead of rotor speed. For this reason, at each speed, the optimum current value that produces maximum power will be determined. This information becomes part of the supervisory level algorithm, which is by using the converter output voltage to determine the optimum current. This current value acts as the setpoint for the proposed controller. Based on the results of real time experiments on a laboratory scale, it was obtained an increase in power of 280-893 mW for wind speeds of 5 - 7 m/s compared to the power results in open loop conditions.

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A2 - Tenggara, Ayodya Pradhipta

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A2 - Pinasti, Sita Gandes

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A2 - Kurnia, Jundika Candra

A2 - Saha, Geetali

A2 - Moradi-Dastjerdi, Rasool

PB - American Institute of Physics Inc.

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Dhiwanto FA, Budi ALS, Indriawati K. Study of speed sensorless supervisory control for maximum power extraction at wind turbine system. In Tenggara AP, Siddiq NA, Pinasti SG, Insyani R, Kurnia JC, Saha G, Moradi-Dastjerdi R, editors, Engineering Physics International Conference 2021, EPIC 2021. American Institute of Physics Inc. 2023. 040024. (AIP Conference Proceedings). doi: 10.1063/5.0124469

Study of speed sensorless supervisory control for maximum power extraction at wind turbine system

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