Optimal and Modular Configuration of Wind Integrated Hybrid Power Plants for Off-Grid Systems

Lennart Petersen, Florin Iov, German Claudio Tarnowski, Carlos Carrejo

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Resumé

This paper focusses on the system configuration of offgrid hybrid power plants including wind power generation. First, a modular and scalable system topology is proposed. Secondly, an optimal sizing algorithm is developed in order to determine the installed capacities of wind turbines, PV system, battery energy storage system and generator sets. The novelty of this work lies in a robust sizing algorithm with respect to the required resolution of resource data in order to account for intra-hour power variations. Moreover, the involvement of the electrical infrastructure enables a precise estimation of power losses within the hybrid power plant as well as the consideration of both active and reactive power load demand for optimally sizing the plant components. The main outcome of this study is a methodology to determine feasible system configurations of modular and scalable wind integrated
hybrid power plant solutions for off-grid applications.
OriginalsprogEngelsk
TitelProceedings of the 3rd International Hybrid Power Systems Workshop
RedaktørerThomas Ackermann, Uta Betancourt
Antal sider10
Udgivelses stedTenerife
ForlagEnergynautics
Publikationsdato2018
ISBN (Elektronisk)978-3-9816549-7-4
StatusUdgivet - 2018

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Power plants
Wind power
Reactive power
Wind turbines
Energy storage
Power generation
Topology

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Petersen, L., Iov, F., Tarnowski, G. C., & Carrejo, C. (2018). Optimal and Modular Configuration of Wind Integrated Hybrid Power Plants for Off-Grid Systems. I T. Ackermann, & U. Betancourt (red.), Proceedings of the 3rd International Hybrid Power Systems Workshop Tenerife: Energynautics.
Petersen, Lennart ; Iov, Florin ; Tarnowski, German Claudio ; Carrejo, Carlos. / Optimal and Modular Configuration of Wind Integrated Hybrid Power Plants for Off-Grid Systems. Proceedings of the 3rd International Hybrid Power Systems Workshop. red. / Thomas Ackermann ; Uta Betancourt. Tenerife : Energynautics, 2018.
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title = "Optimal and Modular Configuration of Wind Integrated Hybrid Power Plants for Off-Grid Systems",
abstract = "This paper focusses on the system configuration of offgrid hybrid power plants including wind power generation. First, a modular and scalable system topology is proposed. Secondly, an optimal sizing algorithm is developed in order to determine the installed capacities of wind turbines, PV system, battery energy storage system and generator sets. The novelty of this work lies in a robust sizing algorithm with respect to the required resolution of resource data in order to account for intra-hour power variations. Moreover, the involvement of the electrical infrastructure enables a precise estimation of power losses within the hybrid power plant as well as the consideration of both active and reactive power load demand for optimally sizing the plant components. The main outcome of this study is a methodology to determine feasible system configurations of modular and scalable wind integratedhybrid power plant solutions for off-grid applications.",
keywords = "Hybrid power plant, Wind power, Solar photovoltaic, Battery energy storage, Generator set, Optimal sizing, System configuration, Techno-economic analysis",
author = "Lennart Petersen and Florin Iov and Tarnowski, {German Claudio} and Carlos Carrejo",
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Petersen, L, Iov, F, Tarnowski, GC & Carrejo, C 2018, Optimal and Modular Configuration of Wind Integrated Hybrid Power Plants for Off-Grid Systems. i T Ackermann & U Betancourt (red), Proceedings of the 3rd International Hybrid Power Systems Workshop. Energynautics, Tenerife.

Optimal and Modular Configuration of Wind Integrated Hybrid Power Plants for Off-Grid Systems. / Petersen, Lennart; Iov, Florin; Tarnowski, German Claudio; Carrejo, Carlos.

Proceedings of the 3rd International Hybrid Power Systems Workshop. red. / Thomas Ackermann; Uta Betancourt. Tenerife : Energynautics, 2018.

Publikation: Bidrag til bog/antologi/rapport/konference proceedingKonferenceartikel i proceedingForskningpeer review

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T1 - Optimal and Modular Configuration of Wind Integrated Hybrid Power Plants for Off-Grid Systems

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N1 - This paper was presented at the 3rd International Hybrid Power Systems Workshop and published in the workshop’s proceedings.

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N2 - This paper focusses on the system configuration of offgrid hybrid power plants including wind power generation. First, a modular and scalable system topology is proposed. Secondly, an optimal sizing algorithm is developed in order to determine the installed capacities of wind turbines, PV system, battery energy storage system and generator sets. The novelty of this work lies in a robust sizing algorithm with respect to the required resolution of resource data in order to account for intra-hour power variations. Moreover, the involvement of the electrical infrastructure enables a precise estimation of power losses within the hybrid power plant as well as the consideration of both active and reactive power load demand for optimally sizing the plant components. The main outcome of this study is a methodology to determine feasible system configurations of modular and scalable wind integratedhybrid power plant solutions for off-grid applications.

AB - This paper focusses on the system configuration of offgrid hybrid power plants including wind power generation. First, a modular and scalable system topology is proposed. Secondly, an optimal sizing algorithm is developed in order to determine the installed capacities of wind turbines, PV system, battery energy storage system and generator sets. The novelty of this work lies in a robust sizing algorithm with respect to the required resolution of resource data in order to account for intra-hour power variations. Moreover, the involvement of the electrical infrastructure enables a precise estimation of power losses within the hybrid power plant as well as the consideration of both active and reactive power load demand for optimally sizing the plant components. The main outcome of this study is a methodology to determine feasible system configurations of modular and scalable wind integratedhybrid power plant solutions for off-grid applications.

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KW - Battery energy storage

KW - Generator set

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KW - System configuration

KW - Techno-economic analysis

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Petersen L, Iov F, Tarnowski GC, Carrejo C. Optimal and Modular Configuration of Wind Integrated Hybrid Power Plants for Off-Grid Systems. I Ackermann T, Betancourt U, red., Proceedings of the 3rd International Hybrid Power Systems Workshop. Tenerife: Energynautics. 2018