Zobrazeno 1 - 10
of 16
pro vyhledávání: '"Andreas Luzzi"'
Publikováno v:
Solar Energy. 76:331-337
The Solar Thermal Group at the Australian National University has completed an experimental solar-driven ammonia-based closed-loop thermochemical energy storage system. The system uses a cavity receiver containing 20 reactor tubes filled with iron ba
Autor:
Andreas Luzzi, Tatsuya Kodama, Keith Lovegrove, Nobuyuki Gokon, Yutaka Tamaura, Hiroshi Kaneko
Publikováno v:
Solar Energy. 76:317-322
The O2 generation step in two-step water splitting with Zn-ferrite/Zn, Fe3O4 system was studied with a stainless steel reactor having a window of quartz glass plate (Sandwich Reactor) using the 15 kW solar dish concentrator in Australian National Uni
Autor:
Gary Sandrock, Andreas Luzzi, Carolyn C. Elam, Elisabet Fjermestad Hagen, Catherine E. Gregoire Padró, Peter Lindblad
Publikováno v:
International Journal of Hydrogen Energy. 28:601-607
Realizing the hydrogen future: the International Energy Agnency´s effort to advance hydrogen energy technologies
Publikováno v:
Solar Energy. 74:133-140
While paraboloidal dishes have traditionally been used for high flux/high power solar concentration devices, the manufacture of multi-facet collectors has been complicated somewhat by the need to produce reflecting elements having different curvature
Publikováno v:
Journal of Solar Energy Engineering. 123:75-82
Solar energy storage using a closed loop thermochemical system based on the reversible dissociation of ammonia, has been investigated at the Australian National University for over two decades. Theoretical and system studies have indicated that large
Publikováno v:
Solar Energy. 66:103-115
The reversible dissociation of ammonia is one of the candidate reactions for use in closed loop solar thermochemical energy storage systems. The major determinant of achievable performance for such a system is the degree of thermodynamic irreversibil
Autor:
Stephen Kaneff, Hans W Fricker, Keith Lovegrove, Ermanno Filippi, Andreas Luzzi, Mathew Chandapillai, Manfred Schmitz-Goeb
Publikováno v:
Solar Energy. 66:91-101
The production of solar thermal power on a continuous, 24-h basis is possible by applying thermochemical energy storage. An international group of industrial and academic partners is studying such a base-load solar power plant concept, where the reve
Publikováno v:
Le Journal de Physique IV. :Pr3-105
Using a closed-loop thermochemical system based on the reversible ammonia reaction is one of the possible ways for building solar thermal power systems capable of providing electricity on a 24-hour basis without the need for any fossil fuel back-up.
Publikováno v:
Le Journal de Physique IV. :Pr3-581
Publikováno v:
Solar Energy. 67:309-316
During 1998, over 20 years of research at the Australian National University came to fruition with the successful operation of the world-first solar-driven ammonia-based thermochemical energy storage system. This paper presents the latest results obt