Resumen
Colaboración de la UPV vía Linked Third Party en el proyecto H2020 concedido a AIMPLAS.
Global warmlng resulting from the emmission of greenhouse gases has recelved widespread attention with lnternational
action from governments and industries, including a number of collaborative programs, such as SET-Plan, and very
recently the lnternational Climate Change hold 2015 in Paris. Key European Commission roadmaps towards 2030 and
2050 have identified Carbon Capture and Storage (CCS) as a central low-carbon technology to achieve the EU's 2050
Greenhouse Gas (GHG) emission reduction objectives, although there still remains a great deal to be done in terms of
embedding ccs in future policy frameworks.
The selective capture and storage of C02 at low cost in an energy-efficient is a world-wide challenge. One of the most
promlsing technologies for C02 capture is adsorption using solid sorbents, with the most important advantage being the
energy penalty reduction durlng capture and regeneration of the materia! compared to liquid absorption.
The key objectives of GRAMOFON project are:
(i) to develop and protoype a new energy and cost-competitive dry separation process for post-combustion C02 capture
based on innovative hybrid porous solids Metal organlc frameworks (MOFs) and Graphene Oxide nanostructures.
(11) to optimize the C02 desorption process by means of Microwave Swing Desorption (MSD) and joule effect, that will
surpass the efflciency of the conventional heating procedures.
This innovative concept will be set up by world key players expert in synthesls, adsorption, characterization and
modelling, as well as process design and economic projections.
