Publications by authors named "Yi-Cen Hou"
In high-voltage direct current transmission systems, charges accumulate at the gas-solid interface, distorting the local field strength, causing a reduction in the flashover voltage, and threatening the safe and reliable operation of the power system. The latest research has found that doping metal nanoparticles into an epoxy resin effectively suppresses the surface charge accumulation on insulators and improves their flashover voltage. This paper further analyzes the microscopic mechanism of this phenomenon, establishes a single-electron tunneling mode, and draws two conclusions: when there is no agglomeration of the doped nanoparticles, a higher doping concentration can be achieved, which provides a better insulative performance.
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- In HVDC systems, electric charge buildup on insulators leads to reduced flashover voltage and performance issues.
- Researchers experimented with doping epoxy resin with various metal nanoparticles to enhance insulation strength.
- Key findings showed that smaller nanoparticles (especially nanocopper at low concentrations) significantly improved insulation and flashover voltage, possibly due to single-electron tunneling effects.