Using a manganese ore as catalyst for upgrading biomass derived gas
Journal article, 2015
Secondary catalytic tar cleaning has been evidenced
as a promising technology for upgrading gas derived
from biomass gasification. When applying this technology
downstream a biomass gasifier, the tar fraction in the raw
gas can potentially be reduced and the content of hydrogen
be increased. In this work, experiments have been conducted
in a chemical-looping reforming (CLR) reactor. The present
reactor system features a circulating fluidized bed as the
reformer section, which offers a higher gas-solid contact time
than a bubbling bed configuration previously tested. All experiments
were performed using raw gas from the Chalmers
2–4MWth biomass gasifier as feedstock to the reactor system.
The catalyst inventory consisted of a natural manganese ore,
and its activity was evaluated at three different temperature
levels—800, 850, and 880 °C—andwith an oxygen content of
2.2 %, corresponding to a theoretical air-to-fuel ratio of 0.06.
Experimental results showed that the manganese ore exhibits
catalytic activity with respect to tar conversion, and a tar
reduction of as much as 72 % was achieved at 880 °C.
Moreover, this material showed high activity towards hydrogen
production and overall, an interesting upgrading capacity
toward this producer gas. An H2/CO ratio of nearly 3 in the
produced gas can make this material potentially interesting for
application in an SNG system. Regarding the analysis of the
physicochemical characteristics, the material showed signs of
agglomeration with traces of sand most likely resulting from
previous sieving during particle preparation. Though, a positive
aspect is that this occurred without impacting the catalyst
activity.
Catalytic gas cleaning
Biomass gasification
Tar cleaning