The complexity of the balance of plant of a fuel cell-fuel processor unit challenges the design/development/demonstration of compact and user friendly fuel cell power systems for portable applications. An Internal Reforming Methanol Fuel Cell (IRMFC) stack poses a highly potential technological challenge for High Temperature Polymer Electrolyte Membrane Fuel Cells (HT-PEMFCs) in portable applications. It aims at opening new scientific and engineering prospects, which may allow easier market penetration of the fuel cells. The core of innovation of IRMFC is the incorporation of a methanol reforming catalyst in the anode compartment or in between the bipolar plates of a High Temperature Polymer Electrolyte Membrane Fuel Cell (HT-PEMFC). In order to obtain an economically technologically viable solution, low-cost materials with certain functional specifications within 200-220oC (electrolytes, catalysts and bipolar plates) and production techniques, with easy maintenance and high durability will be employed. Taking advantage of the innovative outcomes of the ending FCH-JU IRAFC 245202 project, the functionality of MeOH-fuelled integrated 100 W system will be demonstrated. IRMFC partnership brings together specialists in catalysis (FORTH, UMCS, ZBT, IMM), HT polymer electrolytes (UPAT, ADVENT, FORTH), as well as the technological know-how to design, construct and test balance-of-plant components and HT-PEMFC stacks (IMM, ZBT, ENERFUEL, JRC-IET, ADVENT). Special role is adapted throughout the project for end-user/system integrators (ENERFUEL, ARPEDON) with respect to emerging portable applications. In particular Advent’s joint development with HT PEM dedicated and recognized industrial partners like Enerfuel (USA) gives the ability to adopt and integrate the advanced technological know-how of the two companies toward the manufacture of a product that will have all assets to penetrate fuel cell early market business.
Topic:
SP1-JTI-FCH.2012.4.2 - Demonstration of portable generators, back-up power and Uninterruptible Power Systems and SP1-JTI-FCH.2012.4.4 - Demonstration of portable fuel cell systems for various applications
Coordinator:
FOUNDATION FOR RESEARCH AND TECHNOLOGY HELLAS, Greece
Contact:
Mr. George Avgouropoulos
Other participating organisations:
Organisation | Country |
ADVANCED ENERGY TECHNOLOGIES AE EREUNAS & ANAPTYXIS YLIKON & PROIONTONANANEOSIMON PIGON ENERGEIAS & SYNAFON SYMVOULEFTIKON Y PIRESION*ADVEN | Greece |
UNIWERSYTET MARII CURIE-SKLODOWSKIEJ | Poland |
(INSTITUT FUER MIKROTECHNIK MAINZ GMBH) | Germany |
UNIVERSITY OF PATRAS | Greece |
ZENTRUM FUR BRENNSTOFFZELLEN-TECHNIK GMBH | Germany |
JRC-JOINT RESEARCH CENTRE- EUROPEAN COMMISSION | Belgium |
ENERFUEL INC | United States |
ARPEDON METRITIKES DIATAXEIS KAI ORGANA MICHANIMATA YPRESIES EPE | Greece |
Fraunhofer Gesellschaft | Germany |
- Reference
- 325358
- Project duration
- 1 May 2013 - 31 Oct 2016
- Project locations
- 70013 HERAKLION, Greece
- Overall budget
- €3 440 040
- EU contribution
- €1 586 04046.1% of the overall budget
- Project website
- http://cordis.europa.eu/project/rcn/108673_en.html