Szczegóły

Tytuł artykułu

Exergetic sustainability indicators of a polymer electrolyte membrane fuel cell at variable operating conditions

Tytuł czasopisma

Archives of Thermodynamics

Rocznik

2021

Wolumin

vol. 42

Numer

No 1

Afiliacje

Xu, Bing : Nanjing Forestry University Coll Automobile & Traff Engn, Nanjing 210037, Jiangsu, China ; Chen, Yan : The 723th Institute, China Shipbuilding Industry Corporation, Yangzhou, 225001, China ; Ma, Zheshu : Nanjing Forestry University Coll Automobile & Traff Engn, Nanjing 210037, Jiangsu, China

Autorzy

Słowa kluczowe

PEM fuel cell ; Exergy balance ; Exergy analysis ; Exergetic sustainability indicators

Wydział PAN

Nauki Techniczne

Zakres

183-204

Wydawca

The Committee of Thermodynamics and Combustion of the Polish Academy of Sciences and The Institute of Fluid-Flow Machinery Polish Academy of Sciences

Bibliografia

[1] Cengel Y., Bole M.: Thermodynamics: An Engineering Approach. McGraw-Hill, New York 1994.
[2] Dincer I.: Technical, environmental and exergetic aspects of hydrogen energy systems. Int. J. Hydrogen Energ. 27(2002), 3, 265–285.
[3] Kazim A.: Exergy analysis of a PEM fuel cell at variable operating conditions. Energ. Convers. Manage. 45(2004), 11/12, 1949–1961.
[4] Mert S.O., Dincer I., Ozcelik Z.: Exergoeconomic analysis of a vehicular PEM fuel cell system. J. Power Sources 165(2007), 1, 244–252.
[5] Barelli L., Bidini G., Gallorini F. et al.: An energetic–exergetic analysis of a residential CHP system based on PEM fuel cell. Appl. Energ. 88(2011), 12, 4334– 4342.
[6] Midilli A., Dincer I.: Development of some exergetic parameters for PEM fuel cells for measuring environmental impact and sustainability. Int. J. Hydrogen Energ. 34(2009), 9, 3858–3872.
[7] Ay M., Midilli A., Dincer I.: Exergetic performance analysis of a PEM fuel cell. Int. J. Energ. Res. 30(2006), 5, 307–321.
[8] Hanapi S., Tijani A.S., Rahim A.H.A., Mohamed W.A.N.W.: Comparison of a prototype PEM fuel cell powertrain power demand and hydrogen consumption based on inertia dynamometer and on-road tests. In: Proc. Int. Conf. on Alternative Energy in Developing Countries and Emerging Economies, Selangor 2015.
[9] Rosen M.A., Dincer I., Kanoglu M.: Role of exergy in increasing efficiency and sustainability and reducing environmental impact. Energ. Policy 36(2008), 1, 128– 137.
[10] Midilli A., Inac S., Ozsaban M.: Exergetic sustainability indicators for a high pressure hydrogen production and storage system. Int. J. Hydrogen Energ. 42(2017), 33, 21379–21391.
[11] Tayfun Özgür, Yakaryilmaz A.C.: Thermodynamic analysis of a proton exchange membrane fuel cell. Int. J. Hydrogen Energ. 43(2018), 38, 18007–18013.
[12] Balli O., Sohret Y., Karakoc H.T.: The effects of hydrogen fuel usage on the exergetic performance of a turbojet engine. Int. J. Hydrogen Energ. 43(2018), 23, 10848–10858.
[13] Ghritlahre H. K., Sahu P.K.: A comprehensive review on energy and exergy analysis of solar air heaters. Arch. Thermodyn. 41(2020), 3, 183–222.
[14] Carmo M., Fritz D.L., J. Mergel et al.: A comprehensive review on PEM electrolysis. Int. J. Hydrogen Energ. 38(2013), 12, 4901–4934.
[15] Li C., Liu Y., Xu B., Ma Z.: Finite time thermodynamic optimization of an irreversible proton exchange membrane fuel cell for vehicle use. Processes 7(2019), 7, 419
[16] Obara S., Tanno I., Kito S. et al.: Exergy analysis of the woody biomass Stirling engine and PEM-FC combined system with exhaust heat reforming. Int. J. Hydrogen Energ. 33(2008), 9, 2289–2299.
[17] Ayoub Kazim.: Exergy analysis of a PEM fuel cell at variable operating conditions. Energ. Convers. Manage. 45(2003), 11–12, 1949–1961.
[18] Taner T.: Energy and exergy analyze of PEM fuel cell: A case study of modeling and simulations. Energy 143(2018), 15, 284–294.
[19] El-Emam R.S., Dincer I., Naterer G.F.: Energy and exergy analyses of an integrated SOFC and coal gasification system. Int. J. Hydrogen Energ. 37(2012), 2, 1689–1697.
[20] Granovskii M., Dincer I., Rosen M.A.: Life cycle assessment of hydrogen fuel cell and gasoline vehicles. Int. J. Hydrogen Energ. 31(2006), 3, 337–352.

Data

2021.03.31

Typ

Article

Identyfikator

DOI: 10.24425/ather.2021.136954 ; ISSN 1231-0956 ; eISSN 2083-6023

Źródło

Archives of Thermodynamics; 2021; vol. 42; No 1; 183-204

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