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Tytuł artykułu

Modeling, design and energy management of a residential standalone photovoltaic-fuel cell power system

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
PL
Projekt I modelowanie zarządzane energią w systemie hybrydowm: ogniwa słoneczne i ogniwa paliwowe
Języki publikacji
EN
Abstrakty
EN
The aim of this paper is to evaluate the potential of integrating photovoltaic and fuel cell technologies for standalone residential applications. The paper presents a detailed modelling of the photovoltaic (PV) array and maximum power tracking control, proton-exchange membrane (PEM) fuel cell stack, electrolyser and hydrogen storage tank. An energy management strategy is proposed to control the power flow in the system to satisfy the demand of typical residential load profiles under different operating conditions. In the proposed power management strategy, PV constitutes the primary energy source of the system, while the fuel cell represents the back-up supply when solar energy is unavailable. The overall model is simulated in Matlab/Simuink.The proposed model will provide qualitative information on the optimal rating and size of the PV array, fuel cell and storage devices characteristics to satisfy the energy/cost requirements for a residential application in rural/remote areas.
PL
Celem tego artykułu jest ocena potencjału integracji technologii fotowoltaicznej i ogniw paliwowych do zastosowań mieszkaniowych. W pracy przedstawiono szczegółowe modelowanie układu fotowoltaicznego (PV) i kontrolę śledzenia maksymalnej mocy, stos ogniw paliwowych z membraną wymiany protonów (PEM), elektrolizer i zbiornik wodoru. Zaproponowano strategię zarządzania energią w celu kontrolowania przepływu energii w systemie, aby zaspokoić zapotrzebowanie na typowe profile obciążeń mieszkaniowych w różnych warunkach pracy. W proponowanej strategii zarządzania energią ogniwo fotowoltaiczne stanowi podstawowe źródło energii systemu, a ogniwo paliwowe stanowi zapasowe źródło zasilania, gdy energia słoneczna jest niedostępna. Ogólny model jest symulowany w Matlab / Simulink. Proponowany model dostarczy informacji jakościowych na temat optymalnej oceny i wielkości tablicy fotowoltaicznej, ogniwa paliwowego i cech urządzeń magazynujących, aby spełnić wymagania dotyczące energii / kosztów dla zastosowań mieszkaniowych na obszarach wiejskich / odległych.
Rocznik
Strony
79--87
Opis fizyczny
Bibliogr. 24 poz., rys., tab.
Twórcy
autor
  • Laboratory of Energy engineering and Computer Engineering ,university of Tiaret, Algeria
  • Laboratory of Energy engineering and Computer Engineering ,university of Tiaret, Algeria
autor
  • Laboratory of Energy engineering and Computer Engineering ,university of Tiaret, Algeria
  • School of Engineering and Technology, University of Hertfordshire, Hatfield, UK
Bibliografia
  • [1] V. Dash, P. Bajpai , ‘Power management control strategy for a stand-alone solar photovoltaic-fuel cell–battery hybrid system’ Sustainable Energy Technologies and Assessments 9 (2015), 68–80
  • [2] N. Tlili, B. Neili and F Ben Salem, ‘Modeling and Simulation of Hybrid System Coupling a Photovoltaic Generator, a PEM Fuel Cell and an Electrolyzer (Part1)', 11th International Multi- Conference on Systems, Signals and Devices. February 11-14, 2014 - Castelldefels-Barcelona, Spain.
  • [3] N.Benchouia ,A.E.Hadjadj ,A. Derghal , L. Khochemane and B. Mahmah, ‘Modeling and validation of fuel cell PEMFC’, Renewable Energies Review,Vol. 16 N°2 (2013) ,365–377
  • [4] M. Albarghot, M.Sasiand, L.Rolland, ‘MATLAB/Simulink Modeling and Experimental Results of a PEM Electrolyzer Powered by a Solar Panel’, Journal of Energy and Power Engineering,10 (2016), 779-785
  • [5] S.Ahmed , M.Tasbirul , M.Aminul ,N.Mohammad, ‘Exploitation of renewable energy for sustainable development and overcoming power crisis in Bangladesh’, Renewable Energy; 72 (2014), 223-235
  • [6] A. Ganguly, D. Misra, S. Ghosh, ‘Modeling and analysis of solar photovoltaic-electrolyzer-fuel cell hybrid power system integrated with a floriculture greenhouse’,Energy and Buildings ,42 (2010), 2036–2043
  • [7] G.Bhansali,R. Kumar, ‘Design Analysis and Dynamic Control of PEMFuel Cell for Standalone Applications’, IEEE Students’ Conference on Electrical, Electronics and Computer Science,2014.
  • [8] J.Shiau , Y.Wei and B.Chen, ‘A Study on the Fuzzy-Logic- Based Solar Power MPPT Algorithms Using Different Fuzzy Input Variables’. Algorithms 2015, 8, 100-127
  • [9] R.Faranda, S.leva, ‘A Comparative Study of MPPT techniques for PV Systems’, 7th WSEAS International Conference on Application of Electrical Engineering (AEE’08), Trondheim, Norway, July 2-4, 2008 .
  • [10] Sh. Abdi, K. Afshar, N. Bigdeli, S. Ahmadi, ‘A Novel Approach for Robust Maximum Power point Tracking of PEM Fuel Cell GeneratorUsingSlidingModeControl Approach’ Int. J. Electrochem. Sci., 7 (2012) ,4192 – 4209.
  • [11] A. Almaktoof, A. Raji, and M. Kahn , ‘Modeling and Simulation of Three-Phase Voltage Source Inverter Using a Model Predictive Current Control’, International Journal of Innovation, Management and Technology, February 2014,Vol. 5, No. 1.
  • [12] N.Bchouia , A. Hadjadj , A. Derghal, L. Khochemane and B. Mahmah ‘Modeling and validation of fuel cell PEMFC’, Renewable Energies Review,Vol. 16 N°2 (2013) 365–377.
  • [13] N.Bigdeli,‘Optimal management of hybrid PV/fuelcell/battery powersystem:Acomparisonofoptimalhybridapproaches’, Renewable and Sustainable Energy Reviews 42 (2015) 377–393.
  • [14] T.Vigneysh, N.Kumarappan,‘Autonomous operation and control of photovoltaic/ solid oxide fuel cell/battery energy storage based microgrid using fuzzy logic controller’, International Journal of Hydrogen Energy, 4 1 ( 2016 ) 1877-1891.
  • [15] Ahmed Fathy, ‘A reliable methodology based on mine blast optimization algorithm for optimal sizing of hybrid PV-wind-FC system for remote area in Egypt’, Renewable Energy 95 (2016) 367-380.
  • [16] D.Ipsakisa,S.Voutetakisa,P.Seferlisa,F.Stergiopoulosa,‘ Power management strategies for a stand-alone power system using renewable energy sources and hydrogen storage’. International Journal of Hydrogen Energy, 34 (2009), 7081–7095.
  • [17] P.Olivier, C.Bourasseau, B.Bouamama ,‘ Modelling, simulation and analysis of a PEM electrolysis system’ ,FAC-PapersOnLine 49-12 (2016) 1014–1019.
  • [18] S.MALLIKA and R.SARAVANAKUMAR, ‘Closed Loop Current Control of Three Phase Photovoltaic Grid Connected System’. International Journal of Electronics Communications and Electrical Engineering, Vol 5 Issue 2, (May 2015).
  • [19] N.Yildiran, ‘Detailed Modeling of Solar Inverter’, Proceedings of the 2nd World Congress on Electrical Engineering and Computer Systems and Science (EECSS'16), August16 – 17, 2016, Budapest, Hungary .
  • [20] I.Ouachani, A.Rabhi, A.Hajjaji, B.Tidhaf, S.l Zouggar, ‘Robust H? Observer-Based Tracking Control for the Photovoltaic Pumping’, System Energy and Power Engineering,2014,6,266- 277.
  • [21] M.Cheikh, C. Larbes, G. Tchoketch and A. Zerguerras, ‘Maximum power point tracking using a fuzzy logic control scheme’, Renewable Energies Review Vol. 10 N°3 (2007) 387 – 395
  • [22] S.Sumathi, 'Solar PV and Wind Energy Conversion Systems, Green Energy and Technology”, Application of MATLAB/SIMULINK in Solar PV Systems’, Springer International Publishing Switzerland 2015.
  • [23] B. Bendiba, , F. Krimb, H. Belmilia, M. Almia, S. Bouloumaa, ‘ Advanced Fuzzy MPPT Controller for a stand-alone PV system’, International Conference on Technologies and Materials for Renewable Energy, Environment and Sustainability, TMREES14. Energy Procedia 50 (2014) 383–392.
  • [24] P.Olivier , C. Bourasseau , B.Bouamama . ‘Dynamic and multiphysic PEM electrolysis system modelling: A bond graph approach’ International Journal of Hydrogen Energy (2017).
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e9936a6f-a106-436f-819a-1ebec4910f58
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