Obiettivo
"ASCENT will provide a robust proof-of-concept of three related high temperature processes; each will lead to a step-change in efficiency of carbon removal in three types of pre-combustion capture, producing the hydrogen needed for highly efficient low-carbon power production. The project brings together five small and medium enterprises preparing to launch these concepts with the support of leading research institutes, universities and industrial partners.
The essential feature linking the three technologies is the use of a high temperature solid sorbent for the simultaneous separation of CO2 during conversion of other carbon containing gases (CO and CH4) into H2. Each technology provides a step-change in efficiency because they all separate the CO2 at elevated temperatures (>300°C) providing for more efficient heat integration options not available in technologies where the separation occurs at lower temperatures. Each process matches both endothermic and exothermic heat requirements of associated reactions and sorbent regeneration in an integrated in situ approach.
The synergies between the three technologies are strong, allowing both multiple interactions between the different work packages and allowing a consistent framework for cross-cutting activities across all the technologies. Each technology will be proven under industrially relevant conditions of pressure and temperature, at a scale that allows the use of industrially relevant materials that can be manufactured at a scale needed for real implementation. This represents a necessary step to be taken for each of the technologies before setting out on the route to future demonstration level activities.
ASCENT, Advanced Solid Cycles with Efficient Novel Technologies, addresses the need for original ideas to reduce the energy penalty associated with capturing carbon dioxide during power generation, and create a sustainable market for low carbon emission power with low associated energy penalties"
Invito a presentare proposte
FP7-ENERGY-2013-1
Vedi altri progetti per questo bando
Meccanismo di finanziamento
CP - Collaborative project (generic)Coordinatore
00196 Roma
Italia
Mostra sulla mappa
Partecipanti (15)
1755 LE Petten
Mostra sulla mappa
67100 L Aquila
Mostra sulla mappa
2007 KJELLER
Mostra sulla mappa
5612 AE Eindhoven
Mostra sulla mappa
20133 Milano
Mostra sulla mappa
28006 Madrid
Mostra sulla mappa
SW7 2AZ LONDON
Mostra sulla mappa
60550 Verneuil En Halatte
Mostra sulla mappa
EC4A 4AB London
Mostra sulla mappa
1024 Ecublens Vd
Mostra sulla mappa
7034 Trondheim
Mostra sulla mappa
2913LV NIEUWERKERK AAN DEN IJSSEL
Mostra sulla mappa
09340 VERNIOLLE
Mostra sulla mappa
SP1 1BG Salisbury Wiltshire
Mostra sulla mappa
1360 Fornebu
Mostra sulla mappa