Dissolved gas in transformer oil absorption analysis based on density functional theory
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TM930.4

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    Abstract:

    Dissolved gas analysis (DGA) in transformer oil is an important way to monitor the state of transformer equipment. CO, CH4 and C2H2 are the representative dissolved gases in transformer oil. Based on the density functional theory, the optimal adsorption site of the transition metal atom Pt on the surface of WSe2, one of the typical layered transition metal disulfides (LTMDs), is determined in the beginning. The adsorption behavior of these three gases on the surface of Pt-WSe2is attained. The optimal structure of gas adsorption, charge transfer, adsorption energy, electronic density of states (DOS), deformation charge density (DCD), and frontier orbital are analyzed. As an electron acceptor, Pt-WSe2 attracts electrons from all three gas molecules. The adsorption type of CO and C2H2 molecules is chemisorption, which means that the adsorption effect is strong. CH4 adsorption is physical adsorption and the adsorption effect is weak. The adsorption of all the three gas molecules leads to an increase in the band gap of the Pt-WSe2, resulting in the increase in the resistivity. The potential of applying Pt doped WSe2 modified material to the detection of typical dissolved gas in transformer oil is explored and a theoretical basis is provided.

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History
  • Received:July 05,2020
  • Revised:August 16,2020
  • Adopted:March 23,2020
  • Online: February 03,2021
  • Published: January 28,2021
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