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http://yadda.icm.edu.pl:443/baztech/element/bwmeta1.element.baztech-18042386-cfe7-4aa9-8233-e24ceb913303

Czasopismo

Journal of Ecological Engineering

Tytuł artykułu

Design of Stand-Alone Proton Exchange Membrane Fuel Cell Hybrid System under Amman Climate

Autorzy Nsour, Wala'  Taa'mneh, Tamara  Ayadi, Osama  Al Asfar, Jamil 
Treść / Zawartość
Warianty tytułu
Języki publikacji EN
Abstrakty
EN Renewable energy application is gaining a wide acceptance by end users; however, considering the fact that renewable energy is intermittent, variable and cannot be predicted, the need of storage systems is becoming a necessity at both micro and macro levels. Fuel cell technology is one of the most promising storage systems due to the fact that hydrogen has high energy density. This paper presents a design of stand-alone PV-PEMFC hybrid system for a small house under Amman climate. The simulation results show that the optimal size of PV array, fuel cell (PEMFC), inverter, electrolyzer (ELE) and H2Tank capacity were 10 kW, 1 kW, 5 kW, 6 kW, and 5 kg respectively. Hydrogen proved itself as a low carbon energy source, which is environmental friendly and characterized with high energy content per unit mass. Due to fuel cells technology, hydrogen can be used for inter-season storage.
Słowa kluczowe
EN proton exchange membrane fuel cell   PEMFC   PV system   hydrogen storage   stand-alone   hybrid system   HOMER  
Wydawca Polskie Towarzystwo Inżynierii Ekologicznej
Czasopismo Journal of Ecological Engineering
Rocznik 2019
Tom Vol. 20, nr 9
Strony 1--10
Opis fizyczny Bibliogr. 5 poz., rys., tab.
Twórcy
autor Nsour, Wala'
autor Taa'mneh, Tamara
  • Mechanical Engineering Department, The University of Jordan, Amman 11942, Jordan
autor Ayadi, Osama
  • Mechanical Engineering Department, The University of Jordan, Amman 11942, Jordan
autor Al Asfar, Jamil
  • Mechanical Engineering Department, The University of Jordan, Amman 11942, Jordan
Bibliografia
1. J. Larminie and A. Dicks. 2003. Fuel cell systems explained.
2. J.H. Wee. 2007. Applications of proton exchange membrane fuel cell systems, Renew. Sustain. Energy Rev., 11(8), 1720–1738.
3. Ulleberg and S.O. Mørner. 1997. TRNSYS simulation models for solar-hydrogen systems, Sol. Energy, 59, no. 4–6–6 pt 4, 271–279.
4. X.X. Dou and J. Andrews. 2012. Design of a dynamic control system for standalone solar-hydrogen power generation, Procedia Eng., 49, 107–115.
5. A. Djafour, M.S. Aida, and B. Azoui. 2014. Photovoltaic assisted fuel cell power systems, Energy Procedia, 50, 306–313.
Kolekcja BazTech
Identyfikator YADDA bwmeta1.element.baztech-18042386-cfe7-4aa9-8233-e24ceb913303
Identyfikatory
DOI 10.12911/22998993/111800