TOWERPOWERProject reference: 279190
Funded under :
Demonstration of FC-Based integrated generator systems to power off-grid cell phone towers, using ammonia fuel
Total cost:EUR 9 403 106
EU contribution:EUR 4 936 631
Coordinated in:United Kingdom
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
SP1-JTI-FCH.2010.3.5 - Field demonstration of stationary fuel cell systems
Call for proposal:FCH-JU-2010-1See other projects for this call
Funding scheme:JTI-CP-FCH - Joint Technology Initiatives - Collaborative Project (FCH)
The Cell Phone industry is a recent major business success story, with the EU significantly contributing and gaining from this opportunity. (Three of 4 cell phone network equipment manufacturers are European (Ericsson; Nokia-Siemens; and Alcatel-Lucent) and many global cell phone companies are based in the EU (e.g. Vodafone, Orange, Telefonica etc).
The developed markets are saturated, and growth is focussed in developing countries (Africa, Asia, Eastern Europe), where the operators’ success has out-paced the electrical grid, and power for cell phone towers is provided by inefficient, high maintenance, polluting and expensive diesel generators.
This consortium has developed a low-cost, FC-based integrated generator system (the PowerCube™), together with the relevant fuelling capability (using ammonia as the fuel), to cost-effectively replace diesel generators in this market and with an 80% reduction in greenhouse gases. The market is worth €8.5Bn per annum.
This project will deploy a field demonstration project comprising 40-60 PowerCubes to demonstrate:
• Integrated FC based systems with sufficient power generation capacity and redundancy to power 40-60 off-grid cell phone sites.
• Proof of suitable supply chain (maintenance, spare parts, and fuel) and field support capabilities
• Capability of systems to integrate with the existing power systems requirements
• Advantages over incumbent technologies (twin diesel generators) and advantages over wind/solar battery prototypes
• Compliance with all relevant Regulatory Codes and Standards
Feedback from the demonstration project will be fed into additional RD&D activities to mitigate any potential barriers or risks preventing subsequent full implementation
An environmental sustainability assessment will be completed by means of Life Cycle Assessments studies.
The results and benefits will be widely disseminated to a wider audience including potential customers and industrial stakeholders.
EU contribution: EUR 3 742 412
Spring Copse Business Park
RH13 OSZ Slinfold
Tel.: +44 1403 792010
EU contribution: EUR 803 865
EU contribution: EUR 35 699
CAMPUS BLAIRON 714
Tel.: +32 14711134
EU contribution: EUR 256 446
Otterspool Way CP House
WD25 8HG Watford
Tel.: +441923 650261
EU contribution: EUR 98 209
AMMERSTON ROAD 5
TS1 5LL MIDDLESBROUGH