Decomposition products and formation path of C3F7CN/CO2 mixture with suspended discharge

A mixture of perfluoronitrile (C3F7CN) and carbon dioxide (CO2) has excellent insulation and environmental protection properties, and it is considered to have the potential to replace SF6 gas. However, there are few studies on the decomposition products and formation reasons of C3F7CN/CO2 gas under partial discharge. In order to study the decomposition characteristics of C3F7CN/CO2 gas, suspension potential was used to simulate partial discharge. The experimental study on partial discharge decomposition of C3F7CN/CO2 gas was carried out. The variation of decomposition products with discharge time was qualitatively and quantitatively analyzed by gas chromatography-mass spectrometry (GC/MS). The results show that the decomposition products of suspension discharge of C3F7CN/CO2 are mainly CF4, C2F6, C3F8, CF3CN and an unknown product. The relative contents of C2F6 remain basically unchanged with the increase of discharge time. The relative contents of CF4, C3F8 and unknown products show a non-linear growth trend with the increase of discharge time. The relative content of CF3CN gas shows a saturation trend with the increase of discharge time. Finally, based on density functional theory (DFT), the formation paths of various products are analyzed.