Source: Washington State University
Date: October 16
While
fossil fuels take millions of years to form, biofuels are renewable and are
composed of recently dead biological matter, making them highly sought after.
However, one challenge industry leaders face is that when biofuels are made, it
is difficult to remove oxygen while leaving carbon. A high oxygen content makes
biofuel less stable and efficient than fossil fuels and unsuitable for airplane
or diesel fuels. Even though iron catalysts function well when removing oxygen
from plant-based materials, it can stop working when it interacts with water
and rusts. On the other hand, palladium can work in water, but it simply does
not function as efficiently as when iron is used and the metal itself is very
expensive.
Researchers
at Washington State University have developed a mixture of two metals, iron
along with a tiny amount of palladium, to serve as a catalyst to efficiently
and cheaply remove oxygen. They found that adding extremely small amounts of
palladium to iron helped cover the surface of the catalyst with hydrogen, speeding
up the reaction and making it work better. It also prevented water from
interrupting the reactions. Additionally, it minimized the hydrogen consumption
needed to remove the oxygen. “When combined, the catalyst is far better than
the metals alone in terms of activity, stability and selectivity," Professor
Yong Wang, the leader of the project, states.
This
article relates to our units on matter and energy and ecology. Catalysts are
proteins that increase the speed up chemical reactions. The macromolecules mentioned
in the article increase the rate at which oxygen is removed from plant matter
so that a higher amount of the desired fuel product can be produced. In class,
we studied how the enzyme catalase (which is also a catalyst) catalyzes the
reaction of H2O2 breaking into H2O and O2
and what factors affect it. In addition, the biofuels that are produced with
the catalysts relate to conservation biology. By using biofuels, less fossil
fuels will be burned, reducing the amount of greenhouse gases in the atmosphere
and slowing down global warming. The discovery of this new catalyst could
potentially be a scientific breakthrough that will greatly help maintain
biodiversity on Earth.
How do you think this discovery of the new catalyst will affect the biofuel and fossil fuel industries? Would the use of biofuel become more widespread?
ReplyDeleteI think that once the new catalyst is industrialized and can be used by large energy providing companies, it will greatly help the switch from using fossil fuels to biofuels. However, there are still problems with using biofuels, such as modifications to existing vehicles to compensate with the different fuel used and an increase in farmland needed to produce the biofuel. Nonetheless, the usage of viofuels has so many advantages that could reduce global warming, and so most people would prefer using them over fossil fuels.
DeleteDo you think biofuel will be cheaper than fossil fuels-- as in is this effective enough to replace the fossil fuels?
ReplyDeleteThere are some challenges that would need to be resolved when making the switch from fossil fuels to biofuels, such as modifications to existing vehicles and an increase of farmland needed to grow plant material. However, monetary-wise, biofuels are a much more reliable source of energy (production-wise) and are a cheaper alternative to the growing price of limited fossil fuels. Additionally, biofuels are not readily available to most people right now, but with the help of the new catalyst, maybe biofuels will become more commercially available to the general public.
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