Fangwei Liang scite author profile

The 2050 carbon‐neutral vision spawns a novel energy structure revolution, and the construction of the future energy structure is based on equipment innovation. Insulating material, as the core of electrical power equipment and electrified transportation asset, faces unprecedented challenges and opportunities. The goal of carbon neutral and the urgent need for innovation in electric power equipment and electrification assets are first discussed. The engineering challenges constrained by the insulation system in future electric power equipment/devices and electrified transportation assets are investigated. Insulating materials, including intelligent insulating material, high thermal conductivity insulating material, high energy storage density insulating material, extreme environment resistant insulating material, and environmental‐friendly insulating material, are categorised with their scientific issues, opportunities and challenges under the goal of carbon neutrality being discussed. In the context of carbon neutrality, not only improves the understanding of the insulation problems from a macro level, that is, electrical power equipment and electrified transportation asset, but also offers opportunities, remaining issues and challenges from the insulating material level. It is hoped that this paper envisions the challenges regarding design and reliability of insulations in electrical equipment and electric vehicles in the context of policies towards carbon neutrality rules. The authors also hope that this paper can be helpful in future development and research of novel insulating materials, which promote the realisation of the carbon‐neutral vision.

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Hybrid RVM–ANFIS algorithm for transformer fault diagnosis

Fan

Wang

Sun

et al. 2017

IET Generation, Transmission & Distribution

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China's 10-year progress in DC gas-insulated equipment: From basic research to industry perspective

Zhang

et al. 2022

iEnergy

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The construction of the future energy structure of China under the 2050 carbon-neutral vision requires compact direct current (DC) gas-insulation equipment as important nodes and solutions to support electric power transmission and distribution of long-distance and large-capacity. This paper reviews China's 10-year progress in DC gas-insulated equipment. Important progresses in basic research and industry perspective are presented, with related scientific issues and technical bottlenecks being discussed. The progress in DC gas-insulated equipment worldwide (Europe, Japan, America) is also reported briefly.

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Investigation on the Geometrical Characteristics of Secondary Arc by Image Edge Detection

Sun

Liang

Wang

et al. 2018

IEEE Trans. Plasma Sci.

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A novel UHF Minkowski fractal antenna for partial discharge detection

Wang

Feng

Sun

et al. 2017

Micro & Optical Tech Letters

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A compact and wideband ultra‐high‐frequency antenna is developed in this work. Based on the Minkowski fractal geometry of the lateral boundaries of monopole and the upper boundary of ground plane, miniaturization is realized. Meanwhile, by optimizing the dimension of the semi‐elliptical part of monopole and the triangular notch of ground plane, the impedance bandwidth is enhanced. To confirm the performance of antenna, a series of experiments are conducted. The size and ratio bandwidth of antenna are compared with existing broadband ones. The proposed antenna with size of 0.3 λL × 0.25 λL covers the frequency ranging from 700 MHz to more than 3 GHz and possesses an average gain of 4.08 dBi.

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Fangwei Liang

Insulating materials for realising carbon neutrality: Opportunities, remaining issues and challenges

Hybrid RVM–ANFIS algorithm for transformer fault diagnosis

China's 10-year progress in DC gas-insulated equipment: From basic research to industry perspective

Investigation on the Geometrical Characteristics of Secondary Arc by Image Edge Detection

A novel UHF Minkowski fractal antenna for partial discharge detection

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