The end - use of renewably produced
hydrogen varies based on
application but the end - use needs to be considered when designing and interfacing
hydrogen production, compression and storage systems.
Once lauded as the future of clean transportation and energy storage in a variety of other
applications,
hydrogen - based fuel cell systems have a great many barriers to adoption, one of which is lack of
hydrogen infrastructure, and the other is the need to develop
hydrogen production sources that aren't fossil fuel - based or that require more energy to produce than can be released in the fuel cell.
Session 2:
Applications 13:18 Pitch 1: tbd 13:23 Discussion and voting 13:27 Pitch 2: Drakerenergy with the thesis «By integrating monitoring and analytics with SCADA and power plant controllers, it is possible to reduce downtime and LCOE, and additionally to increase earnings with the solar energy produced» 13:32 Discussion and voting 13:36 Pitch 3: Nel
Hydrogen with the thesis «Large scale production of hydrogen from PV power plants is already feasible and profitable today, and will help finance PV plants in the near future» 13:41 Discussion and voting 13:45 Pitch 4: First Solar with the thesis «Is it possible to achieve solar penetrations higher than 50 % «13:50 Discussion and voting 13:54 Panel discussion 1
Hydrogen with the thesis «Large scale
production of
hydrogen from PV power plants is already feasible and profitable today, and will help finance PV plants in the near future» 13:41 Discussion and voting 13:45 Pitch 4: First Solar with the thesis «Is it possible to achieve solar penetrations higher than 50 % «13:50 Discussion and voting 13:54 Panel discussion 1
hydrogen from PV power plants is already feasible and profitable today, and will help finance PV plants in the near future» 13:41 Discussion and voting 13:45 Pitch 4: First Solar with the thesis «Is it possible to achieve solar penetrations higher than 50 % «13:50 Discussion and voting 13:54 Panel discussion 14:00 END