42  Winter 2017 European Energy Innovation

    COMMUNICATION

Harmonization of the ASCENT
technologies to the worldwide
Mission Innovation strategy

Mission Innovation is a worldwide initiative to accelerate       reactor for hydrogen production by sorption-enhanced
the implementation of clean energy, announced during the         reforming of methane at different fluidization velocities
COP21 in Paris on November 30, 2015. Several challenges          for the new sorbent materials developed. The materials
were selected, one of those is the implementation of carbon      performance was satisfactory for operation in fluidized bed
capture, to enable near-zero CO2 emissions from power            environment and operating conditions have been validated.
plants and carbon intensive industries. A workshop has           The experimental activities related to the SER process
been held in Houston, Texas on September 25-29, 2017             have been complemented with simulation carried out with
which aims on early stage breakthrough CCUS technologies.        a Lagrangian- Eulerian approach. A short movie of the
The event was conceived as composed of a number of               simulated fluidized bed have been posted in the ASCENT
panels where experts have been invited to discuss the            website. Experimental long-term multi-cycle runs were
fundamentals of the worldwide research in the field               performed in a micro-fixed bed reactor set-up to test the
of carbon capture, use and storage within the coming years.      chemical stability of the materials. A satisfactory stability in
                                                                 relevant operating conditions has been achieved up to
One of the panel focused on sorbents and looping systems,        200 cycles.
and was attended by Paul Fennell, Tom Hills and Stefano
Stendardo - members of the ASCENT consortium. In                 As for the CSHIFT, benchmarking of the process clearly
particular, Fennell gave a presentation showing the current      showed that the process has a good potential when the
state of the art of Calcium Looping (CaL), and included the      process is run in an adiabatic manner with an efficient heat
processes which are being thoroughly investigated in the         integration between the carbonator and calciner. New,
ASCENT project. The ASCENT project along with SCARLET            alternative, process CSHIFT concept have been discussed
project were presented as two EU initiatives on the CaL          and modeled.
cycle at different scales, with the former more related to
proof of concept scale and the latter on pilot scale. Different  The ASCENT consortium is proud to contribute with
research actions have been prioritised during the discussion     the other EU initiatives in paving the future of the
in the panel by the members of the ASCENT consortium             worldwide research in the advanced CCUS processes
with the other panelists: Hills have highlighted the             and demonstrating the value of continued EU research,
importance of the implementation of CCUS technologies            including the contribution of the UK. Assuming that all the
for the decarbonisation of industry whereas Stendardo has        Mission Innovation partners remain committed to the initial
suggested to focus the future efforts in the development         strategy agreed during the COP21, the contribution of
of new flexible CCUS processes for the production of              the ASCENT representatives within Mission Innovation are
decarbonised power.                                              expected to have significant and far-reaching consequences
                                                                 in the long term worldwide research on the decarbonisation
ASCENT consortium is focusing on the experimental                of industry and power. ●
tests of novel processes at the proof of concept scale.
The activities are complemented with modeling activities           The research leading to these results has received
to give insight into the dynamics and performances of              funding from the European Union Seventh Framework
the lab-scale reactors. The experimental and modeling              Programme FP7 under grant agreement n° 608512
activities are related to the CaCu, CSHIFT and SER cycles.
With regards to the CaCu cycle, the activities are related to      Contact Details:
the: (i) modification of the experimental set up to reduce          Web: www.ascentproject.eu
heat losses and to improve the initial temperature profiles,
(ii) study of the reduction/calcination stage with methane
and mixtures of methane/hydrogen for the subsequent
validation of the reactor model and (iii) proof of concept of
the whole process.

The SER process has been tested in batch Fluidized Bed

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