International projects source: SICRIS

Fluid Management component improvement for Back up fuel cell systems

Researchers (1)
no. Code Name and surname Research area Role Period No. of publicationsNo. of publications
1.  14342  PhD Mihael Sekavčnik  Energy engineering  Head  2012 - 2015  565 
Organisations (3)
no. Code Research organisation City Registration number No. of publicationsNo. of publications
1.  0106  Jožef Stefan Institute  Ljubljana  5051606000  88,443 
2.  0782  University of Ljubljana, Faculty of Mechanical Engineering  Ljubljana  1627031  29,244 
3.  0834  DOMEL, Elektromotorji in gospodinjski aparati, d.o.o. (Slovene)  Železniki  5045401  194 
The FluMaBack (Fluid Management component improvement for Back up fuel cell systems) project aims at improving the performance, life time and cost of balance of plant (BOP) components of back up fuel cell systems specifically developed to face back-out periods of around 1,000h/year for specific markets: USA, Africa and North Europe where hard operative conditions are present (high and low temperatures). The improvement of system components addressed in this project will benefit both back-up and CHP applications.The project focuses on new design and improvement of BOP components for utilization in PEMFC based stationary power applications, aimed at:-improving BOP components performance, in terms of reliability;-improving the lifetime of BOP component both at component and at a system level;-reducing cost in a mass production perspective;-simplifying the manufacturing/assembly process of the entire fuel cell system.While in recent years the performance and durability of the PEMFC have increased and the cost has decreased at the same time, performance, durability and costs of BOP components have basically stayed the same. So, for improvements on performance, durability and cost of the fuel cell system, R&D dedicated on BOP components have become essential. The project is focussed on the most critical BOP components with the largest potential for performance improvement and cost reductions:- Air and fluid flow equipments, including subcomponents and more specifically blower and recirculation pumps- Humidifier- Heat exchangerSpecific targets in terms of efficiency, lifetime and cost have been pointed out for each BOP component to be developed.The project will have a duration of 3 years to guarantee the achievement of all project targets.The consortium consists of large and small entities which are R&D centres, BoP components developers and manufacturers, fuel cells stack and fuel cell system developers and manufacturers. Partners are located throughout the EU: Italy, Spain, The Netherland and Slovenia.
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