FCpoweredRBSProject reference: 278921
Funded under :
Demonstration Project for Power Supply to Telecom Stations through FC technology
Total cost:EUR 10 591 649
EU contribution:EUR 4 221 270
Topic(s):SP1-JTI-FCH.2010.4.2 - Demonstration of industrial application readiness of fuel cell generators for power supply to off-grid stations, including the hydrogen supply solution
Call for proposal:FCH-JU-2010-1See other projects for this call
Funding scheme:JTI-CP-FCH - Joint Technology Initiatives - Collaborative Project (FCH)
FC and H2 may represent an enabling technology for a wider diffusion of Radio Base Station “energized” by renewable energy sources. While the expected higher energy efficiency already has an attractive potential for these applications, the energy storage potential of H2 (either locally produced or stored in bottles) is even more interesting as it could extend significantly the number of hours of unattended operation which very much determines the overall energy cost for these installation. This is an instrumental feature of H2 and FC which could favour the further diffusion of mobile applications in remote sites.
To clearly demonstrate this potential a minimum of 17 sites of really operating off-grid Radio Base Stations will be equipped with an integrated power generation system using Fuel Cell technology and H2 and tested for a significant period. This very large demonstration program will be used to assess the readiness of available technological solution to make the potential viable and demonstrate the industrial readiness of the fuel cell technology in this early market. These units will demonstrate a level of technical performance (start-up time, reliability, durability, number of cycles) that qualifies them for market entry, thereby accelerating the commercialization of this technology in Europe and elsewhere.
The RBSPoweredFCH2 Project consortium integrates different EU FC and H2 related technology maker with a market leader for Telecom Systems and with R&D institution. This peculiar opportunity is also fundamental to pursue a bottom-up approach which allows to modify the energy requirements and load profile of the energy utilization to fit in an optimum way the performances expected for the Fuel Cell system.
The demonstration project will involve the benchmarking of different technical configurations for fuel cells integrated with other local Renewable Energy sources (mainly PV but also wind). One of the key factor for this off-grid application market
EU contribution: EUR 2 128 080
VIA ANAGNINA 203
EU contribution: EUR 1 093 520
EU contribution: EUR 341 488
EU contribution: EUR 301 342
VIA CANTONALE 5
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EU contribution: EUR 356 840
VIA ORAZIO RAIMONDO 18
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