Abstract
External environmental factors have no effect on the breakdown performance of the internal gap, leading to the anti-icing and anti-storm features of the internal-gap lightning protection device (ILPD). In this paper, a test platform is created to study the impulse discharge and arc erosion characteristics of the ILPD applied to a 35 kV distribution line. The 50% lightning impulse voltage and discharge stability of the ILPD are experimentally analysed. The results show that the ILPD has good discharge voltage repeatability under multiple impulses. Under a positive lightning impulse, the 50% breakdown voltage of the ILPD is 3.8–11.4% higher than that of the outer-gap lightning protection device (OLPD). A finite element simulation model is created for electric field analysis. The maximum electric field strength of the ILPD is 4.68% lower than that of the OLPD, leading to a higher lightning breakdown voltage. High-speed camera shooting shows that the discharge arc may lead to the erosion of the discharge tube, reducing its insulation performance. A large current impulse test platform is set up for arc energy analysis, which indicates that more than 90% of the energy is absorbed by the varistor during lightning stroke. The quality and leakage current of the discharge tube did not change significantly after testing. Given the current design of varistors, the per unit length energy of arc is less than 4.5 J/mm due to the numerical calculation, which is far less than the experimental arc energy (25.0 J/mm). Therefore, arc erosion will not cause the insulation performance of discharge tube to decrease when using the current varistor design.
Highlights
The internal-gap lightning protection device (ILPD) and outer-gap structure lightning protection device (OLPD) are two different types of lightning protection device
The impulse discharge characteristics of the ILPD applied to a 35 kV distribution
We drew the following conclusions: (1) The lightning impulse discharge voltage experiment results showed that the repeatability of the line was studied
Summary
The internal-gap lightning protection device (ILPD) and outer-gap structure lightning protection device (OLPD) are two different types of lightning protection device. When the lightning striking distribution line does not have a lightning protection device, power outages occur which may lead to arc burn of the insulator surface and wire breaking [1,2]. The structure of the outer-gap is affected by the external environment [4] Under harsh environments such as rainstorms, the discharge gap is prone to bridging by rain, leading to malfunction of lightning protection device. The gas in the internal-gap is not connected with the outside air, leading to the difference in the impulse breakdown characteristics compared with the outer-gap. A large current impulse test is performed to analyse the insulation properties of the surface material of the discharge tube under high arc current. Based on the experimental research and simulation analysis, the theoretical basis for ILPD design is provided
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