Power management and control of a hybrid islanded power system to ensure resiliency and eeonomie operation

Ahmad Tavakoli; M. E. Haque; S. Saha; M. T. Arif; N. Mendis; A. M. T. Oo

doi:10.1109/IAS.2018.8544711

Power management and control of a hybrid islanded power system to ensure resiliency and eeonomie operation

Ahmad Tavakoli, M. E. Haque, S. Saha, M. T. Arif, N. Mendis, A. M. T. Oo

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

Abstract

The uncertainty of renewable resources and absence of a grid-connected supply impacts on the frequency and voltage stability of a hybrid islanded power system (HIPS). The ancillary components such as dump loads and battery storages are applied to suppress the uncertainties. However, the ancillary components require substantial investment, operating costs, inefficiency, and the complexity of the system control. This paper proposes a control strategy for the economic operation and resiliency enhancement of a HIPS. In this control strategy, the diesel generators operate in both Motor/Generator modes through the new technology of the diesel engines. Also, the control of other components is developed for improving the performance of the HIPS. The aim of the proposed control strategy is to maximize renewable penetration and minimize investment of components, and fuel and operating costs. The several case studies are considered to investigate the proposed power management and control strategy.

Original language	English
Title of host publication	2018 IEEE Industry Applications Society Annual Meeting (IAS)
Place of Publication	Piscataway, NJ
Publisher	Institute of Electrical and Electronics Engineers (IEEE)
Pages	1-7
Number of pages	7
ISBN (Electronic)	9781538645369, 9781538645352
ISBN (Print)	9781538645376
DOIs	https://doi.org/10.1109/IAS.2018.8544711
Publication status	Published - 2018
Externally published	Yes
Event	2018 IEEE Industry Applications Society Annual Meeting, IAS 2018 - Portland, United States Duration: 23 Sept 2018 → 27 Sept 2018

Publication series

Name
ISSN (Print)	0197-2618
ISSN (Electronic)	2576-702X

Conference

Conference	2018 IEEE Industry Applications Society Annual Meeting, IAS 2018
Country/Territory	United States
City	Portland
Period	23/09/18 → 27/09/18

Keywords

Energy storage system
Hybrid islanded power networks
Inverter-based generators
Synchronous generators

Access to Document

10.1109/IAS.2018.8544711

Cite this

Tavakoli, A., Haque, M. E., Saha, S., Arif, M. T., Mendis, N., & Oo, A. M. T. (2018). Power management and control of a hybrid islanded power system to ensure resiliency and eeonomie operation. In 2018 IEEE Industry Applications Society Annual Meeting (IAS) (pp. 1-7). Article 2018-IACC-0797 Institute of Electrical and Electronics Engineers (IEEE). https://doi.org/10.1109/IAS.2018.8544711

@inproceedings{4e2c618352494e2bac3169d76ebfabdc,

title = "Power management and control of a hybrid islanded power system to ensure resiliency and eeonomie operation",

abstract = "The uncertainty of renewable resources and absence of a grid-connected supply impacts on the frequency and voltage stability of a hybrid islanded power system (HIPS). The ancillary components such as dump loads and battery storages are applied to suppress the uncertainties. However, the ancillary components require substantial investment, operating costs, inefficiency, and the complexity of the system control. This paper proposes a control strategy for the economic operation and resiliency enhancement of a HIPS. In this control strategy, the diesel generators operate in both Motor/Generator modes through the new technology of the diesel engines. Also, the control of other components is developed for improving the performance of the HIPS. The aim of the proposed control strategy is to maximize renewable penetration and minimize investment of components, and fuel and operating costs. The several case studies are considered to investigate the proposed power management and control strategy.",

keywords = "Energy storage system, Hybrid islanded power networks, Inverter-based generators, Synchronous generators",

author = "Ahmad Tavakoli and Haque, \{M. E.\} and S. Saha and Arif, \{M. T.\} and N. Mendis and Oo, \{A. M. T.\}",

year = "2018",

doi = "10.1109/IAS.2018.8544711",

language = "English",

isbn = "9781538645376",

publisher = "Institute of Electrical and Electronics Engineers (IEEE)",

pages = "1--7",

booktitle = "2018 IEEE Industry Applications Society Annual Meeting (IAS)",

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note = "2018 IEEE Industry Applications Society Annual Meeting, IAS 2018 ; Conference date: 23-09-2018 Through 27-09-2018",

}

Tavakoli, A, Haque, ME, Saha, S, Arif, MT, Mendis, N & Oo, AMT 2018, Power management and control of a hybrid islanded power system to ensure resiliency and eeonomie operation. in 2018 IEEE Industry Applications Society Annual Meeting (IAS)., 2018-IACC-0797, Institute of Electrical and Electronics Engineers (IEEE), Piscataway, NJ, pp. 1-7, 2018 IEEE Industry Applications Society Annual Meeting, IAS 2018, Portland, United States, 23/09/18. https://doi.org/10.1109/IAS.2018.8544711

Power management and control of a hybrid islanded power system to ensure resiliency and eeonomie operation. / Tavakoli, Ahmad; Haque, M. E.; Saha, S. et al.
2018 IEEE Industry Applications Society Annual Meeting (IAS). Piscataway, NJ: Institute of Electrical and Electronics Engineers (IEEE), 2018. p. 1-7 2018-IACC-0797.

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

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T1 - Power management and control of a hybrid islanded power system to ensure resiliency and eeonomie operation

AU - Tavakoli, Ahmad

AU - Haque, M. E.

AU - Saha, S.

AU - Arif, M. T.

AU - Mendis, N.

AU - Oo, A. M. T.

PY - 2018

Y1 - 2018

N2 - The uncertainty of renewable resources and absence of a grid-connected supply impacts on the frequency and voltage stability of a hybrid islanded power system (HIPS). The ancillary components such as dump loads and battery storages are applied to suppress the uncertainties. However, the ancillary components require substantial investment, operating costs, inefficiency, and the complexity of the system control. This paper proposes a control strategy for the economic operation and resiliency enhancement of a HIPS. In this control strategy, the diesel generators operate in both Motor/Generator modes through the new technology of the diesel engines. Also, the control of other components is developed for improving the performance of the HIPS. The aim of the proposed control strategy is to maximize renewable penetration and minimize investment of components, and fuel and operating costs. The several case studies are considered to investigate the proposed power management and control strategy.

AB - The uncertainty of renewable resources and absence of a grid-connected supply impacts on the frequency and voltage stability of a hybrid islanded power system (HIPS). The ancillary components such as dump loads and battery storages are applied to suppress the uncertainties. However, the ancillary components require substantial investment, operating costs, inefficiency, and the complexity of the system control. This paper proposes a control strategy for the economic operation and resiliency enhancement of a HIPS. In this control strategy, the diesel generators operate in both Motor/Generator modes through the new technology of the diesel engines. Also, the control of other components is developed for improving the performance of the HIPS. The aim of the proposed control strategy is to maximize renewable penetration and minimize investment of components, and fuel and operating costs. The several case studies are considered to investigate the proposed power management and control strategy.

KW - Energy storage system

KW - Hybrid islanded power networks

KW - Inverter-based generators

KW - Synchronous generators

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M3 - Conference proceeding contribution

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BT - 2018 IEEE Industry Applications Society Annual Meeting (IAS)

PB - Institute of Electrical and Electronics Engineers (IEEE)

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ER -

Power management and control of a hybrid islanded power system to ensure resiliency and eeonomie operation

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