Aging data based on daily cogeneration profile (2024)
Data creators :
Simon Morando [1],
Élodie Pahon [2] [3]
Data collector :
Simon Morando [1],
Élodie Pahon [2] [3]
Project member :
Daniel Hissel [4] [5],
Rafael Gouriveau [6],
Samir Jemei [4] [5],
Noureddine Zerhouni [7],
Marie-Cécile Péra [4]
[1] : SYMBIO
[2] : Franche-Comté Electronique Mécanique Thermique et Optique - Sciences et Technologies (UMR 6174) (Université de technologie de Belfort Montbéliard)
[3] : Fuel Cell Lab (UAR 2200) (Université de technologie de Belfort Montbéliard)
[4] : Franche-Comté Electronique Mécanique Thermique et Optique - Sciences et Technologies (UMR 6174) (Université de Franche-Comté)
[5] : Fuel Cell Lab (UAR 2200) (Université de Franche-Comté)
[6] : Kipers Industries
[7] : Franche-Comté Electronique Mécanique Thermique et Optique - Sciences et Technologies (UMR 6174) (École Nationale Supérieure de Mécanique et des Microtechniques)
Description :
The EU-funded project SAPPHIRE (System automation of PEMFCs with prognostics and health management for improved reliability and economy) was initiated to address the relatively short life expectancy of PEMFCs. Extending service life can be achieved in several ways – one of these is prognostics and health management.
Researchers reviewed existing models of PEMFC stacks, employed for state-of-health assessment and even operation control. Project partners also developed several controllers to efficiently counteract common factors that can cause degradation. SAPPHIRE generated two patents, one for the controller system and another for the data-driven prognostic system. By ensuring sufficient durability for transport and stationary applications, SAPPHIRE work promises to accelerate market uptake of fuel cell technologies and promote Europe’s energy independence.
Researchers reviewed existing models of PEMFC stacks, employed for state-of-health assessment and even operation control. Project partners also developed several controllers to efficiently counteract common factors that can cause degradation. SAPPHIRE generated two patents, one for the controller system and another for the data-driven prognostic system. By ensuring sufficient durability for transport and stationary applications, SAPPHIRE work promises to accelerate market uptake of fuel cell technologies and promote Europe’s energy independence.
Disciplines :
electrochemistry (chemistry), energy & fuels (engineering science), engineering, electrical & electronic (engineering science)
Keywords :
Access details :
To access the data, please contact the scientific data manager.
General metadata
Data acquisition date :
from 4 Feb 2015 to 22 Apr 2015
Data acquisition methods :
- Experimental data : A PEM fuel cell was tested during 1,800 operating hours by following an accelerated daily micro-cogeneration profile. The nominal power of the fuel cell is 300W and the stack is composed of 5 cells. In addition to electrical, thermal and fluidic parameters, periodic characterizations was performed: polarization curve (I/V curve) and electrochemical impedance spectroscopy under several current densities: 0.15, 0.25 et 0.35 A/cm². The characterization was recorded each week.
Formats :
application/pdf, application/vnd.openxmlformats-officedocument.spreadsheetml.sheet, text/tab-separated-values
Audience :
University: licence, University: master, Research
Publisher :
Fuel Cell Lab (UAR 2200)
Project and funders :
-
SAPPHIRE - System Automation of PEMFCs with Prognostics and Health management for Improved Reliability and Economy
- Hydrogen Joint Technology Initiative under grant agreement n°325275 (European project)
- Seventh Framework Programme (European project)
DOI and links
10.25666/DATAUBFC-2024-03-29
https://dx.doi.org/doi:10.25666/DATAUBFC-2024-03-29
https://search-data.ubfc.fr/FR-13002091000019-2024-03-29
Quotation
Simon Morando, Élodie Pahon (2024): Aging data based on daily cogeneration profile. FCLAB. doi:10.25666/DATAUBFC-2024-03-29
Record created 29 Mar 2024 by Élodie Pahon.
Last modification : 29 Mar 2024.
Local identifier: FR-13002091000019-2024-03-29.