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| A membrane developed by MIT researchers can isolate carbon monoxide from carbon dioxide, allowing polluting greenhouse gas emissions to be turned into useful alternate fuels(Credit:kodda/Depositphotos) |
Researchers at MIT have developed a new membrane-based system
that can convert carbon dioxide emissions into useful alternate fuels. The
process has been effectively demonstrated on a small-scale and the researchers
hope to ultimately adapt the system to conventional fossil fuel-based power
plants.
Made of lanthanum, calcium, and iron oxide, the membrane is
designed to separate out oxygen from carbon dioxide, leaving behind carbon
monoxide that can then be turned into a variety of useful fuels.
The process requires a significant energy input to produce
the up to 990° C (1,814° F) temperatures needed to separate the carbon dioxide
input into oxygen and carbon monoxide. But the researchers suggest this heat
energy could be provided by either, "solar energy or by waste heat, some
of which could come from the power plant itself."
A pragmatic hypothetical outcome would be to incorporate the
process into a natural gas power plant by adding an entirely new fuel output
stream to the plant. The carbon dioxide produced by generating electricity from
the burning gas would then be fed through the membrane system, which itself
would be powered by a small stream of the original natural gas.
The carbon monoxide output could then be mixed with hydrogen
to produce syngas, which can be used to generate electricity, as a fuel in
internal combustion engines, or fed into the existing gas distribution network.
This process would create a new commercial output for the power plant while
also reducing greenhouse emissions.
It is worth noting that this research is co-funded by Shell
Oil, which hopefully points to the process finding a real, practical outcome.
After all, if the big fossil fuel companies can find a way to turn their carbon
dioxide emissions into a positive revenue source then its a real win-win
scenario for everyone.
The research was published in the journal CHEMSUSCHEM
SOURCE : Newatlas
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