|
|
ANALYSIS |
FEASIBILITY’ |
PROJECT |
KNOW-HOW |
PROTOTYPE |
|
PRODUCTION
|
SOLAR |
|
§
Water thermolysis
through solar concentrators
§
Photoelectrochemical production |
|
|
|
|
BIOLOGIC |
§
Production through bacteria or enzymes (study with biotech
company) |
|
|
|
|
|
ELECTROLYSIS |
|
|
|
§
Integration of electrolysers |
|
|
REFORMING |
§
Mini reformer
for domestic applications |
|
|
|
|
|
STORAGE |
HIGH PRESSURE |
|
|
|
§
Integration of tanks 350¸450
bar |
|
|
LOW PRESSURE |
|
|
§
H2T develpment of tank with LaNi5 on
microporous silice support |
§
Integration of tanks LaNi5 |
|
|
MEASURE |
|
|
|
|
§
PCT-H2
analytic instrument for characterisation of H2 adsorbent
materials |
|
EESENERGY
PRODUCT |
STATIONARY
GENERATORS |
EMERGENCY |
|
|
|
|
§
DEMAG
Domestic Emergency Multipurpose Advanced Generator |
|
ISOLATED |
|
|
§
FEMAG-SUN
integration of power train FEMAG with PV and wind |
|
|
|
COGENERATION |
DISTRICT |
|
§
Molten Carbonate (commercial contact) |
|
|
|
|
RESIDENTIAL |
§
DEMAG
+ mini reformer |
|
|
|
|
|
MOBILE GENERATORS
|
NON
TRANSPORT |
PERSONAL VEHICLES |
|
|
|
|
§
FEMAG
application to wheelchair |
|
INDUSTRIAL VEHICLES |
|
|
|
|
§
FEMAG
application to industrial vehicles |
|
TRANSPORT |
MICRO-CAR |
|
|
§
FEMAG-C
micro cars |
|
|
|
BUS |
|
|
§
SUNBUS
integration of a FC range extender |
|
|
|
SPECIAL |
|
|
§
Ultra-light generator for aeronautic applications |
|
|
