process by which plants convert energy
from the sun's rays into chemical 'fuel' has inspired a new way of generating
clean, cheap, renewable hydrogen power which could solve looming problems with
the UK's energy infrastructure.
Hydrogen is a significant source of energy which can be burned to produce power with no negative impact on the environment, unlike power produced by burning fossil fuels. Hydrogen gas can be easily produced by splitting water into its constituent elements – hydrogen and oxygen. Plants' powers of photosynthesis allow them to harness the energy of the sun to split water molecules into hydrogen and oxygen at separate times and at separate physical locations in the plant's structure. By applying direct current to water via a positive and a negatively-charged electrode in a process known as electrolysis, scientists have long been able to break the bonds between hydrogen and oxygen, releasing them as gas. Industrial processes to produce pure hydrogen from water require expensive equipment and rigorous oversight to ensure that the gases do not mix. Accidental mixing of the gases can lead to accelerated decay of materials involved in the process or even dangerously explosive mixtures. In a new paper in the journal Nature Chemistry published today (Monday 14 April), Professor Lee Cronin and Dr Mark Symes of theUniversity
of Glasgow outline how
they have managed to replicate for the first time plants' ability to decouple
the production of hydrogen and oxygen from water using what they call an electron-coupled proton buffer (ECPB). Dr Symes:
"What we have developed is a system for producing
hydrogen on an industrial scale much more cheaply and safely than is currently
possible. Currently much of the industrial production of hydrogen relies
on reformation of fossil fuels, but if the electricity is provided via solar,
wind or wave sources we can create an almost totally clean source of power.
"The ECPB is made from commercially-available
phosphomolyb-dic acid. The properties of this material allow us to collect and
store the protons and electrons which are generated when we oxidise water, to
give oxygen as the only gaseous product. We can then use those stored protons
and electrons to produce only hydrogen at a time of our choosing, allowing us
to produce pure hydrogen gas on demand with none of the difficulties of the
current electrolytic process where the two are unavoidably produced at the same
time.
Read more at: http://phys.org/news/2013-04-blueprint-cheap-hydrogen-production.html#jCp
Hydrogen is a significant source of energy which can be burned to produce power with no negative impact on the environment, unlike power produced by burning fossil fuels. Hydrogen gas can be easily produced by splitting water into its constituent elements – hydrogen and oxygen. Plants' powers of photosynthesis allow them to harness the energy of the sun to split water molecules into hydrogen and oxygen at separate times and at separate physical locations in the plant's structure. By applying direct current to water via a positive and a negatively-charged electrode in a process known as electrolysis, scientists have long been able to break the bonds between hydrogen and oxygen, releasing them as gas. Industrial processes to produce pure hydrogen from water require expensive equipment and rigorous oversight to ensure that the gases do not mix. Accidental mixing of the gases can lead to accelerated decay of materials involved in the process or even dangerously explosive mixtures. In a new paper in the journal Nature Chemistry published today (Monday 14 April), Professor Lee Cronin and Dr Mark Symes of the
Read more at: http://phys.org/news/2013-04-blueprint-cheap-hydrogen-production.html#jCp
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