330 kWe Fuel Cell System
Dimensions
Length = 12,500 mm
Width = 4,700 mm
Surface area ≃ 60 m2
Parameters |
Unit of measure |
Performance @ Mid Life |
---|---|---|
Main inlet source |
/ |
Natural Gas |
Calorific Value – LCV |
kWth/Sm3 |
10 |
Inlet pressure of primary source |
bar |
0,6 – 1 |
Incoming calorific value |
kWth |
611 |
Primary source consumption |
Sm3/h |
61 |
Effective electrical power |
kWel |
330 |
Hot air produced by system – Mass |
kg/h |
2479 |
Hot air temperature |
°C |
348 |
Maximum permissible backpressure |
mbar |
7,47 |
Heat recovery |
kWth |
180 |
Thermal efficiency |
% |
30 |
Overall efficiency |
% |
84 |
Water consumption |
m3/h |
0 (during operation) |
Atmospheric emissions |
. % mass % mass % mass % mass % mass |
. 3,31 8,40 13,46 73,94 0,88 |
Noise emissions |
dB(A) |
< = 55 dB(A) at 10 metres |
An innovative and reliable technology.
Businesses and communities are facing growing threats to their energy supplies: energy shortages, ageing infrastructure, rising energy costs, climate-related events and cybersecurity threats.
The Bloom Energy Server integrated into the Cefla solution is an on-site power generation platform that delivers highly reliable, continuous 24/7 energy to respond to such challenges.
Want to learn more?
Interested in learning more about energy self-production systems using fuel cell technology?
Would you also like to incorporate the heat recovery solution?
Contact us to assess this solution together.