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A Multi-Objective Optimization Approach of Smart Autonomous Electrical Grid with Active Consumers and Hydrogen Storage System

Ngakan Ketut Acwin Dwijendra

Ngakan Ketut Acwin Dwijendra

Faculty of Engineering, Udayana UniversityBali, Indonesia
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Dwijendra, Ngakan Ketut Acwin
, 
Muhaned Zaidi

Muhaned Zaidi

Al-Manara College for Medical SciencesMaysan, Iraq
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Zaidi, Muhaned
, 
I Gusti Ngurah Kerta Arsana

I Gusti Ngurah Kerta Arsana

Faculty of Engineering, Udayana UniversityBali, Indonesia
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Arsana, I Gusti Ngurah Kerta
, 
Samar Emad Izzat

Samar Emad Izzat

Al-Nisour University CollegeBaghdad, Iraq
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Emad Izzat, Samar
, 
Abduladheem Turki Jalil

Abduladheem Turki Jalil

Medical Laboratories Techniques Department, Al-Mustaqbal University CollegeIraq
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Turki Jalil, Abduladheem
, 
Ming-Hung Lin

Ming-Hung Lin

Department of Electrical Engineering, Cheng Shiu UniversityKaohsiung, Taiwan
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Lin, Ming-Hung
, 
Untung Rahardja

Untung Rahardja

University of Raharja, Faculty of Science and TechnologyIndonesia
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Rahardja, Untung
, 
Iskandar Muda

Iskandar Muda

Department of Doctoral Program, Faculty Economic and Business, Universitas Sumatera UtaraMedan, Indonesia
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Muda, Iskandar
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A. Heri Iswanto

A. Heri Iswanto

Public Health Department, Faculty of Health Science, University of Pembangunan Nasional Veteran JakartaJakarta, Indonesia
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Iswanto, A. Heri
 y 
Surendar Aravindhan

Surendar Aravindhan

Department of Pharmacology, Saveetha Dental College and Hospital, Saveetha Institute of Medical and Technical SciencesChennai, India
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Aravindhan, Surendar
  
17 nov 2022
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Publicado en línea: 17 nov 2022
Páginas: 1067 - 1079
DOI: https://doi.org/10.2478/rtuect-2022-0080
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© 2022 Ngakan Ketut Acwin Dwijendra et al., published by Sciendo
This work is licensed under the Creative Commons Attribution 4.0 International License.

In this paper, a multi objective optimization approach is studied for optimal energy scheduling of the smart autonomous electrical grid with participation of active consumers (ACs) and hydrogen storage system (HSS). The objective functions consist of: 1) minimizing the costs and 2) maximizing reliability. The ACs participation are modelled through demand reduction approach based on offer price to peak demand management. The proposed optimization is solved by epsilon-constraint method and LINMAP decision making strategy. The 21-node test system is employed to analyse the efficiency of the proposed approach at two case studies. The obtained results shown the high effectiveness of smart autonomous electrical grid with participation of ACs and HSS to supply the demand.

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