(From left) Junyoung Kim, Professor Guntae Kim, and Ohhun Gwona are part of the team who developed the Hybrid-SOEC, a more efficient new system for producing hydrogen(Credit:UNIST) |
Clean and plentiful, hydrogen is a promising fuel source, but there are a few problems standing in the way of it becoming mainstream. South Korean scientists have now developed a new system for producing hydrogen from water, which that they say overcomes some of these issues and produces the gas more efficiently than other water electrolysis systems.
The new device was developed by a research team consisting of scientists from the
and is based on an existing design called a solid oxide electrolyzer cell (SOEC).
These work like other electrolyzers in that an electrical current splits water into its constituent molecules – hydrogen and oxygen – which can then be harvested. The difference is that in this setup, both electrodes are solid-state, as is the electrolyte that carries the ions between them.
This has a few advantages over systems that use liquid electrolytes – namely,
- the liquids need to be topped up occasionally, and over time they tend to corrode other components.
- And since solid-state electrolyzers operate at higher temperatures, they don't need as much electrical energy to function because they can draw energy from that heat.
But SOECs still have room for improvement. There are two main designs that use different electrolytes:
- One allows only oxygen ions to pass through, and
- the other only hydrogen ions.
So the researchers developed a new Hybrid-SOEC, which uses a mixed-ion conductor to transport both negatively-charged oxygen ions and positively-charged hydrogen ions (protons) at the same time. The end result had all the benefits of a solid-state electrolyzer, with improved efficiency.
"By controlling the driving environment of the hydrogen ion conductive electrolyte, a 'mixed ion conductive electrolyte' in which two ions pass can be realized," says Junyoung Kim, first author of the study. "In Hybrid-SOEC where this electrolyte was first introduced, water electrolysis occurred at both electrodes, which results in significant increase in total hydrogen production."
Using the mixed-ion conductor and electrodes made of layered perovskite, the Hybrid-SOEC produced 1.9 liters (0.5 gal) of hydrogen per hour, running at a cell voltage of 1.5 V and a temperature of 700° C (1,292° F). The researchers say that's four times more efficient than existing water electrolysis systems, and after running the device continuously for 60 hours, there were no signs of that performance degrading.
The research was published in the journal Nano Energy.
Source: UNIST
ORIGINAL: New Atlas
December 28th, 2017
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