Scientists at Tomsk Polytechnic University (TPU) are developing solid oxide fuel cells for installations generating electricity from hydrocarbon fuels or hydrogen.
Researchers at TPU, together with their colleagues at the Institute of High Current Electronics SB RAS (IHCE SB RAS), have proposed a new method for producing one of the key elements of a fuel cell – electrolyte. This will increase the service life of fuel cells, the university’s press service said.
According to the scientists, they were the first in Russia to suggest using the magnetron sputtering method to create an electrolyte. Using this method, they obtained a very thin layer of electrolyte, no more than five microns thick. This reduced the temperature at which electricity is generated by 100°C, which will help increase the service life of fuel cells.
Solid oxide fuel cells (or SOFC) can be considered the “heart” of a hydrogen power plant. They convert fuel energy into electrical energy and partly into thermal energy without burning it. Solid oxide fuel cells can work with hydrocarbon fuels such as methane and butane, as well as hydrogen.
A fuel cell has three layers: a cathode, an anode, and an electrolyte between them. In the power plant, hydrogen and air are fed to them from different sides. When oxygen ions and hydrogen molecules are combined, a chemical reaction takes place which generates heat and electricity. The by-product of the reaction is pure water.
Kanipa Ibrayeva, engineer of the REC I.N.Butakova TPU, prepares fuel samples for experiments on a thermal analyzer
Solid oxide fuel cells have two major advantages, Associate Professor of the TPU’s Weinberg Research Centre Andrey Soloviev noted.
The electrolyte in a fuel cell acts as a barrier between hydrogen and oxygen molecules, which can explode if directly mixed. The electrolyte layer allows only the oxygen ions needed for a safe reaction to pass through. The electrolyte itself is a thin film of zirconium dioxide stabilised with yttrium and cerium oxide doped with gadolinium. The electrolyte is applied to a ceramic anode.
Tomsk Polytechnic University has created its own vacuum magnetron sputtering facility for the application of such coating.
The TPU initiated the establishment of a consortium called “Technological Hydrogen Valley”. Its participants will conduct joint research and develop technologies for hydrogen production, transportation, safe storage, and use in the energy sector. The consortium includes the Boreskov Institute of Catalysis of the Siberian Branch of the Russian Academy of Sciences, the Institute of Problems of Chemical Physics of the Russian Academy of Sciences (IPCP RAS), the Topchiev Institute of Petrochemical Synthesis of the Russian Academy of Sciences (TIPS RAS), Samara State Technical University (SSTU), and Sakhalin State University.
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