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Predictive system-level modeling framework for transient operation and cathode platinum degradation of high temperature proton exchange membrane fuel cells
ID
Kregar, Ambrož
(
Avtor
),
ID
Tavčar, Gregor
(
Avtor
),
ID
Kravos, Andraž
(
Avtor
),
ID
Katrašnik, Tomaž
(
Avtor
)
PDF - Predstavitvena datoteka,
prenos
(1,41 MB)
MD5: 034EAD70FBC9E9D3C750014DD587B2B2
URL - Izvorni URL, za dostop obiščite
https://www.sciencedirect.com/science/article/pii/S0306261920300593
Galerija slik
Izvleček
High temperature proton exchange membrane fuel cells (HT-PEMFCs) are a promising and emerging technology, which enable highly efficient, low-emission, small-scale electricity and heat generation. The simultaneous reduction in production costs and prolongation of service life are considered as major challenges toward their wider market adoption, which calls for the application of predictive virtual tools during their development process. To present significant progress in the addressed area, this paper introduces an innovative real-time capable system-level modeling framework based on the following: (a) a mechanistic spatially and temporally resolved model of HT-PEMFC operation, and (b) a degradation modeling framework based on interacting individual cathode platinum degradation mechanisms. Additional innovative contributions arise from a consistent consideration of the varying particle size distribution in the transient fuel cell operating regime. The degradation modeling framework interactively considers the carbon and platinum oxidation phenomena, and platinum dissolution, redeposition, detachment, and agglomeration; hence, covering the entire causal chain of these phenomena. Presented results confirm capability of the modeling framework to accurately simulate the platinum particle size redistribution. Results clearly indicate more pronounced platinum particle growth towards the end of the channel since humidity is the main precursor of oxidation reactions. In addition, innovative modeling framework elucidate contributions of agglomeration, which is more pronounced at voltage cycling, and Ostwald ripening, which is more pronounced at higher voltages, to the platinum particles growth. These functionalities position the proposed modeling framework as a beyond state-of-the-art tool for model-supported development of the advanced clean energy conversion technologies.
Jezik:
Angleški jezik
Ključne besede:
fuel cells
,
proton-exchange membrane
,
high temperature
,
modeling
,
platinum degradation
,
mechanistically based
Vrsta gradiva:
Članek v reviji
Tipologija:
1.01 - Izvirni znanstveni članek
Organizacija:
FS - Fakulteta za strojništvo
Status publikacije:
Objavljeno
Različica publikacije:
Recenzirani rokopis
Leto izida:
2020
Št. strani:
Str. 1-17
Številčenje:
Vol. 263, art. 114547
PID:
20.500.12556/RUL-126388
UDK:
004.925.84(045)
ISSN pri članku:
0306-2619
DOI:
10.1016/j.apenergy.2020.114547
COBISS.SI-ID:
17037083
Datum objave v RUL:
19.04.2021
Število ogledov:
1710
Število prenosov:
214
Metapodatki:
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Objavi na:
Gradivo je del revije
Naslov:
Applied energy
Skrajšan naslov:
Appl. energy
Založnik:
Applied Science Publishers
ISSN:
0306-2619
COBISS.SI-ID:
5134599
Licence
Licenca:
CC BY-NC-ND 4.0, Creative Commons Priznanje avtorstva-Nekomercialno-Brez predelav 4.0 Mednarodna
Povezava:
http://creativecommons.org/licenses/by-nc-nd/4.0/deed.sl
Opis:
Najbolj omejujoča licenca Creative Commons. Uporabniki lahko prenesejo in delijo delo v nekomercialne namene in ga ne smejo uporabiti za nobene druge namene.
Začetek licenciranja:
19.04.2021
Sekundarni jezik
Jezik:
Slovenski jezik
Ključne besede:
gorivne celice
,
membrane za izmenjavo protonov
,
visoke temperature
,
modeliranje
,
staranje platine
,
mehanska osnova
Projekti
Financer:
ARRS - Agencija za raziskovalno dejavnost Republike Slovenije
Številka projekta:
P2-0401
Naslov:
Energetsko strojništvo
Financer:
Drugi - Drug financer ali več financerjev
Program financ.:
Austrian Research Promotion Agency
Številka projekta:
848810
Akronim:
MEA Power
Financer:
Drugi - Drug financer ali več financerjev
Program financ.:
Austrian Research Promotion Agency
Številka projekta:
854867
Akronim:
SoH4PEM
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