Renkuan Liu scite author profile

Renkuan Liu

5Publications

40Citation Statements Received

52Citation Statements Given

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Chongqing University

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A Non-Destructive Testing Method for Fault Detection of Substation Grounding Grids

Wang

et al. 2019

Sensors

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The grounding grid is critical to the safety and stability of a power system. Corrosive cracking of the grounding conductor is the main cause of deterioration of grounding grid performance. Existing fault diagnosis methods for grounding grids are limited by the number and distribution of grounding leads, and some of them cannot be used for online detection. This paper proposes a grounding grid detection method based on magnetic source excitation. The measuring device consists of four coils, two horizontal excitation coils, and two vertical receiving coils. The secondary magnetic field signal is extracted from the primary field and the background field by properly positioning the coils, such that the measured signal can reflect the underground media more accurately. The measuring device of the method is portable, the measurement process is contactless with the grounding grid, and it is not limited by the grounding leads. Furthermore, it has a strong anti-interference ability and can realize online detection. It was proven by simulations and experiments that the proposed method has a higher measurement accuracy and stronger anti-interference ability when compared with existing methods. This paper also discusses the influence of various factors such as the number and the location of the breakpoints, the frequency of the excitation source, the soil resistivity, and stratification from the measurement data. It was proven that the method has high precision and a wide application range, and is important for guiding significance and reference value in engineering applications.

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Static voltage stability analysis and evaluation of vector controlled offshore wind farm considering cable capacitance parameters

Tan

Li²,

Yao³

et al. 2023

Front. Energy Res.

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Voltage stability region assessment is the key to ensuring the reliable operation of offshore wind farms However, the traditional analysis method, which treats the WFs as a PQ node and directly connected to the infinite power grid, fails to take the cable capacitance and the dynamics of the converter into account, resulting an inaccurate evaluation of voltage stability. The contribution of this paper is to propose a more accurate method for assessing the voltage stability of OWFs. Firstly, based on the equivalent circuit method, the point of common coupling (PCC) and internal voltage characterization models of OWF considering the cable capacitance parameters are derived. Then, the coupling interface between the dynamic of the converter and the voltage characteristics of the system is designed, and the transfer function of the power injection from the DC side of the converter to the voltage of the collector system is established, which fully reflects the OWF Pin→Udc→Id→Upcc→Pout transitive relationship. Finally, a voltage stability criterion based on dPw, out/dId&dUdc/dt direction discrimination is proposed, and the influence of cable parameters, output power, and grid impedance on the voltage stability margin is analyzed. The accuracy of the proposed method is verified based on the RT-LAB platform.

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Thermal Contact Resistance Optimization of Press-Pack IGBT Device Based on Liquid Metal Thermal Interface Material

Xiao

Yao

et al. 2022

IEEE Trans. Power Electron.

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Reactive-voltage coordinated control of offshore wind farm considering multiple optimization objectives

Tan

Yao

et al. 2022

International Journal of Electrical Power & Energy Systems

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A Thermal Twin Modeling Method of Press Pack IGBT Based on Power Loss

Zhou

Yao

et al. 2022

IEEE Trans. Electron Devices

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Renkuan Liu

A Non-Destructive Testing Method for Fault Detection of Substation Grounding Grids

Static voltage stability analysis and evaluation of vector controlled offshore wind farm considering cable capacitance parameters

Thermal Contact Resistance Optimization of Press-Pack IGBT Device Based on Liquid Metal Thermal Interface Material

Reactive-voltage coordinated control of offshore wind farm considering multiple optimization objectives

A Thermal Twin Modeling Method of Press Pack IGBT Based on Power Loss

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