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112 results on '"Jianben, Liu"'

1. Design and application of a power frequency electric field measuring device for a high‐humidity environment

Author

Yemao Zhang, Guangzhou Zhang, Zhihui Feng, Ni Li, Jianben Liu, Lijian Ding, and Xiong Wu

Subjects
electric fields, electric field measurement, electric impedance measurement, electric sensing devices, environmental factors, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Abstract The power frequency electric field is the most important electromagnetic environmental factor in alternating current power transmission projects. The humidity has a negative influence on available electric field measuring devices, which may lead to discrepancies of up to seven times the actual value at a relative humidity exceeding 80%. The changes in the support and probe shell impedance may be the reason for the error. The optimization measures include modifying the communication mode, designing a suitable structure and circuit for the probe, and using composite insulating material with strong hydrophobicity for the support. A three‐axis omnidirectional electric field measuring device was developed based on wireless communication and composite support. The variation of the measured electric field strength value is less than 1% at relative humidities ranging from 45% to 90% in the laboratory, and the measured results obtained in high humidity at the high‐voltage test site and under the transmission line demonstrated high accuracy. The research demonstrates that the composite support can be used to improve the performance of conventional devices. The proposed device can better meet the needs for accurate measurement of electric field strength in a high‐humidity environment and overcome the technical problems raised by the IEC standard.

Published
2024
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3. Temperature Evaluation Considering Gradient Distribution for MV Cable XLPE Insulation Based on Wave Velocity

Author

Yan Liu, Jianben Liu, Longxiang Zhang, Yuwei Liang, Yuyao Zhong, and Yan Li

Subjects
wave velocity, cable, XLPE, temperature, Mathematics, QA1-939
Abstract

Temperature is an important factor for the service life of cable insulation. To ensure safety, the operating temperature of cables must be monitored. Since optical fiber temperature measurement technology is difficult to be used widely in medium voltage (MV) cables due to cost, this paper proposes a temperature evaluation method based on wave velocity. Firstly, the dielectric constant of cross-linked polyethylene (XLPE) cable insulation under different temperature is obtained through experiment. Based on the result, the relationship curve between wave velocity and temperature is established. The asymmetry effect due to temperature gradient in the cable insulation is discussed via finite element simulation. The effectiveness of obtaining the average insulation temperature of the cable based on wave velocity is validated. In addition, the mechanism of the temperature influence on the cable insulation material’s dielectric constant is analyzed by molecular dynamics simulation, which further deepens understanding of the characteristics of cable insulation materials.

Published
2024
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4. An Improved Control Method of DC Voltage for Series Hybrid Active Power Filter

Author

Jianben Liu, Yuan Ni, and Jun Zhao

Subjects
active power filter, flux compensation, DC voltage, active power current component, linear relationship, Technology
Abstract

DC voltage is one of the important parameters of active power filters. Since the series hybrid active power filter does not withstand the fundamental voltage, it cannot absorb energy from the power grid, making it too difficult to control its DC voltage. In order to solve the DC voltage control problem, an improved control method for the series hybrid active power filter with magnetic flux compensation is proposed in this paper. In this improved method, the fundamental magnetic flux compensation coefficient is equal to 1, meeting the condition of fundamental magnetic flux compensation. This improved method does not rely on the precise detection and phase-locking of the fundamental voltage at the port of the series transformer. A phase-fixed active current component is generated directly by the inverter, enabling the active power filter (APF) to absorb active power from the power grid. Consequently, the active power absorbed by the APF from the power grid has a linear relationship with the active current component. Both simulation and experimentation verified the correctness and effectiveness of this proposed method.

Published
2024
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5. A machine learning‐based approach for dielectric strength prediction of long air gaps with engineering configurations

Author

Zhibin Qiu, Zijian Wu, Louxing Zhang, Yu Song, and Jianben Liu

Subjects
air gaps, electric field features, discharge voltage prediction, transmission line, machine learning, support vector machine, Distribution or transmission of electric power, TK3001-3521, Production of electric energy or power. Powerplants. Central stations, TK1001-1841
Abstract

Abstract It is a long‐term goal in external insulation studies to determine the discharge voltages of complicated engineering gaps by simulation methods. Based on the one‐to‐one correspondence between air gap structure and the static electric field (EF) distribution, this paper characterizes the transmission tower gap configuration by spatial EF features, which were used for machine learning to achieve switching impulse discharge voltage prediction. An interelectrode path and a conical zone between the energized sub‐conductor and the crossarm or the tower window were considered as EF regions strongly associated with gap breakdown, where 73 parameters were extracted to construct a feature set. Taking 15 extra‐high voltage (EHV) transmission tower gaps as training samples, with different gap distances and tower configurations, their EF features were input to a support vector machine (SVM) for model training to establish the relationships with discharge voltages. The trained SVM model was used to predict the impulse discharge voltages of 20 EHV and ultra‐high voltage (UHV) transmission tower gaps. The prediction results with different feature dimensions and various sizes of conical zones were compared to the experimental values, which demonstrate similar variation trends and acceptable errors. This study contributes to realize insulation strength calculation of engineering gaps.

Published
2022
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6. Simulation analysis of potential transfer process in live-line maintenance

Author

Cheng Xie, Linong Wang, Jiachen Gao, Shaocheng Wu, Wenyu Wang, Yong Peng, Guangkai Yu, Jianben Liu, and Yan Liu

Subjects
Live-line maintenance, Potential transfer, Transfer current, Transient energy, Arc model, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

The transmission line maintenance is usually carried out by live-line maintenance, and equipotential live-line maintenance is one of the primary forms. In this process, the linemen need to enter the high potential with the help of conductive gloves or a potential transfer rod. This process is called the potential transfer. Because this process is accompanied by sizeable potential transfer current and transient energy, it may threaten linemen’s safety. Hence, the research on this process is of great significance. This paper improves the traditional transient model by introducing the arc model. The finite element method calculates the capacitance distribution between conductors by establishing the three-dimensional models of different postures and positions that the lineman may adopt. Then, considering the influence of the arc model on the process of the potential transfer, the potential transfer current and transient energy under different linemen’s postures and positions are calculated. Finally, the optimal mode of potential transfer operation for linemen in the process of potential transfer is proposed, which provides a theoretical reference for the safety protection of personnel in the process of the potential transfer.

Published
2022
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7. Breakdown voltage characteristics of combined air gaps under negative lightning impulse

Author

Shaocheng Wu, Linong Wang, Jiachen Gao, Cheng Xie, Bin Song, Yong Peng, Jianben Liu, and Yan Liu

Subjects
Combined air gaps, Negative lightning impulse, Breakdown voltage, Breakdown timing, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Long air gaps are the main external insulation medium of overhead transmission lines. When there are floating conductors in the air gap, the gap’s configuration changes, and the combined air gaps is formed. We built an experimental platform to obtain the breakdown characteristics of a 2 m rod–plane air gap with a rod floating conductor in different positions under negative lightning impulse. The results show that as the distance between the floating conductor and the high voltage conductor changes, the breakdown voltage (BV) and timing change. Moreover, the breakdown voltage increases with the length of sub-gap 1, showing a trend of first increasing, then decreasing, and then increasing, which is different from the trend under positive lightning impulse. The reason for this phenomenon is inferred from the analysis to be related to the polarity effect.

Published
2022
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8. Study on the lightning shielding characteristics of the crossover area of UHV/HV transmission lines

Author

Yeqiang Deng, Jisheng Li, Hao Pan, Yu Wang, Xiaoyue Chen, Lei Gao, Baoquan Wan, and Jianben Liu

Subjects
Crossover area, EHV/UHV transmission lines, Lightning shielding, Electrical geometric model, External insulation characteristics, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Due to space limitations of transmission corridors, ultrahigh voltage (UHV) lines inevitably cross over other lines. UHV lines in a crossover section have a lightning shielding effect similar to that of a lightning conductor of lower lines. While, whether a 500-kV line below a crossover section meets the lightning protection requirements is unknown. Therefore, a calculation method for the shielding failure trip rate of transmission lines in a crossover section in a three-dimensional space is proposed. The calculation of the shielding failure trip rate of the 500-kV line without a ground wire below the UHV line was performed. The results revealed that the shielding failure rate of the lower line was positively correlated with the length of the lower line and was negatively correlated with the crossing angle and length of the upper line. The maximum traversal lengths for a 500-kV line without a ground wire below a UHV AC or DC line were 200 m and 150 m, respectively. These findings provide a scientific basis for lightning protection design of ultra-UHV line crossing areas.

Published
2022
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9. Study on Improved CG Algorithm for Reradiation Interference Calculation of Transmission Steel Tower

Author

Li Huang, Bo Tang, Xingfa Liu, and Jianben Liu

Subjects
Conjugate gradient, method of moment, reradiation interference, transmission steel tower, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

With the development of extra-high voltage and ultra-high voltage transmission line in China, the reradiation interference generated by induced current on the surface of transmission steel tower becomes more serious to the radio station in the vicinity. In this paper, the calculation method for reradiation interference of transmission steel tower based on method of moment is analyzed. And in order to reduce the impedance matrix storage data in the memory space and the number of iterations in the calculation, the preprocessing of matrix sparse and diagonal norm precondition is presented to improve the performance of the conjugate gradient algorithm for the reradiation interference calculation. The reradiation interference of a standard 500 kV transmission steel tower is calculated using the improved conjugate gradient algorithm. And the results show that the algorithm enhances the convergence and stability after preprocessing and is suitable to calculate the reradiation interference of super-large metal truss structure target.

Published
2022
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10. Study on tri-imidazole derivatives modified with triazine-trione structure as latent curing agents for epoxy resin

Author

Xiaodong Wan, Jianben Liu, Xi Chen, and Jun Wang

Subjects
Epoxy resin, Imidazole, Triazine-trione, Latency, Curing behavior, Science, Technology
Abstract

Abstract In this paper, four novel kinds of triazine-trione based tri-imidazole derivatives (IM-TT, 2MI-TT, 2EI-TT and EMI-TT) were synthesized through the addition reaction between triglycidyl isocyanurate (TGIC) and imidazole (IM), 2-methylimidazole (2MI), 2-ethylimidazole (2EI) and 2-ethyl-4-methylimidazole (EMI), respectively. The triazine-trione based tri-imidazole derivatives were blended with epoxy resin and the reactivity, thermal latency and thermal property were investigated. The results on curing behaviors indicated that the curing exothermic peaks of the blends with triazine-trione based tri-imidazole derivatives shifted to higher temperatures compared with those with commercial imidazoles. The curing exothermic peak temperatures (Tps) of the synthesized tri-imidazole derivatives were increased by 23–32 ℃ compared with the unmodified imidazoles. In addition, Rheological behavior results indicated that the EP blends with tri-imidazole derivatives also exhibited excellent storage stability which was as long as 38 days under room temperature. Last but not the least, the EP blends with triazine-trione based tri-imidazole derivatives also exhibited high glass transition temperatures due to introducing of triazine-trione structures with high crosslinking density. The glass transition temperatures (Tgs) of the prepared thermosets ranged from 128 to 152 ℃. The triazine-trione based tri-imidazole derivatives provide a way to prepare latency epoxy resin with high high glass transition temperature and long storage stability. Article Highlights Four novel kinds of triazine-trione based tri-imidazole derivatives were synthesized. The EP cured with the tri-imidazole derivatives displayed great thermostability. The EP cured with the tri-imidazole derivatives exhibited long storage stability.

Published
2021
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11. Study on sound absorption performance of resonance structure for aluminum–polyurethane foam composite and plexiglass

Author

Binxia Yuan, Xinyi Fang, Jianben Liu, Rui Zhu, and Lan Cao

Subjects
Control engineering systems. Automatic machinery (General), TJ212-225, Acoustics. Sound, QC221-246
Abstract

Low-frequency noise control in substations (converter stations) has received extensive attention. The sound absorption performance of a single material is limited. In the paper, aluminum–polyurethane (Al–PU) foam composite materials were prepared by impregnating method. The microstructure and composition of PU and Al–PU composite foam were characterized by scanning electron microscopy (SEM) and X-ray diffraction (XRD). The results showed that aluminum particles can be well adhered to the skeleton of PU foams, and the sound absorption coefficient of Al–PU foams at 50 Hz–315 Hz was greatly improved. Meanwhile, the resonance structures of Al–PU foams and plexiglass were further constructed. The sound absorption coefficient of different resonance structures was different, and the performance of the resonance structure with 10 mm back cavity and front hole was the best.

Published
2022
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12. An Interface Pressure Detection Method of Cable Silicone Rubber-XLPE Based on Nonlinear Ultrasound

Author

Chunhua Fang, Jianben Liu, Aoqi Sun, Junxiong Wu, Rong Xia, Benhong Ouyang, Yilin Zhang, and Fang Li

Subjects
cable, silicone rubber, nonlinear ultrasound, interfacial pressure, nonlinear coefficient, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

The interface pressure between the cable attachment and the body is crucial for the stable long-term operation of the cable. To solve the issue of interface insulation characteristics’ damage caused by the pressure transducer measurement method, a non-destructive testing method of silicone rubber interface pressure using nonlinear ultrasound is presented. Initially, the study analyzes the propagation characteristics of ultrasonic waves at the interface of cross-linked polyethylene and silicone rubber. The study also establishes the relationship between the nonlinear coefficient and the interface pressure. Subsequently, a nonlinear ultrasonic test platform is constructed using the pulse reflection method to measure the interface pressure of flat silicone rubber and cross-linked polyethylene through nonlinear ultrasonic testing. Theoretical and experimental results indicate that the fundamental amplitude of the frequency domain of the interface reflection wave decreases, and the second harmonic amplitude and nonlinear coefficient both increase as pressure increases. These results demonstrate that the nonlinear ultrasound, non-destructive testing method can accurately evaluate the interfacial pressure state of the cable accessories.

Published
2023
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13. Study on Detecting Dielectric Properties of Typical Electrical Insulation Materials by Terahertz Wave Spectroscopy

Author

Hongwei Mei, Lanxin Li, Fanghui Yin, Wei Hu, Jianben Liu, and Liming Wang

Subjects
Broadband dielectric spectrometer, dielectric properties, insulation materials, terahertz wave, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

The dielectric properties of the electrical insulation materials is of great importance to the safe operation of the power system. As a promising technique in the field of material testing and with the very adaptive physical modeling of wave transmission process, terahertz wave was used to measure the dielectric properties of five commonly used insulation materials by two methods in this paper. When excluding the echo pulse from the reference signal and the sample signal, a better signal-noise ratio and a wider effective frequency band of spectrums can be obtained. Alternatively, the dielectric properties can also be achieved by separating the main pulse and echo pulse from the sample signal. The latter method makes the sampling of reference signal unnecessary. Furthermore, the dielectric properties of materials were also measured on a relative lower frequency band (1Hz-1MHz) by the broadband dielectric spectrometer. Compared with a relatively lower frequency band, due to the polarization, the dielectric constant of the tested insulation materials was lower on the terahertz band while the dielectric loss tangent was generally higher except the epoxy resin.

Published
2020
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14. Research on Conducted Disturbance to Secondary Cable Caused by Disconnector Switching Operation

Author

Xiaoyue Chen, Zeyu He, Yanze Zhang, Junjie Si, Shuang Wang, Baoquan Wan, and Jianben Liu

Subjects
disconnector switching operation, broadband equivalent circuit model, finite integral method, overall electromagnetic disturbance, suppression measures, General Works
Abstract

The disconnector switching operation in GIS not only generates very fast transient overvoltage (VFTO) in primary equipment, but also couples to the secondary system, which affects normal operation of the secondary equipment. In this study, aiming at the conducted disturbance caused by the disconnector switching operation of the 1,000-kV UHV GIS test circuit on the secondary cable, a broadband equivalent circuit model of the potential transformer and the grounding grid is proposed based on the vector fitting method and the impedance synthesis method, and the accuracy of the model is tested. On the basis of this model, the conducted disturbance voltage of the secondary cable core is obtained by combining the measured typical disturbance source waveform. The research results of the influencing factors of conducted disturbance show that the amplitude of the disturbance voltage generated by the capacitive conduction is higher than that generated by the resistive conduction, but the main frequency of the resistive conducted disturbance voltage is higher. The amplitude of the conducted disturbance voltage will decrease with the increase of the length of the cable and the length of the grounding wire. The single-ended grounding of the secondary cable shield at the GIS side will cause serious disturbance voltage. The research results of this study will be beneficial to the protection of secondary cable electromagnetic disturbance in the intelligent substation and have reference significance for the implementation of secondary equipment protection measures in the intelligent substation.

Published
2022
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15. Study on Reradiation Interference Characteristics of Steel Towers in Transmission Lines

Author

Li Huang, Bo Tang, Xingfa Liu, and Jianben Liu

Subjects
reradiation interference, steel tower, transmission line, Information technology, T58.5-58.64
Abstract

With the development of ultrahigh-voltage transmission lines in China, the reradiation interference caused by the steel tower used in ultrahigh-voltage transmission becomes increasingly aggravating for nearby radio stations. In this paper, using the multilevel fast multipole algorithm, the reradiation interference of an ultrahigh-voltage transmission steel tower is investigated. Additionally, the reradiation interference characteristics of a transmission steel tower were investigated with various frequencies and azimuth angles of incidence wave. The results show that the frequency and the azimuth angle of incident wave are the impact factors for the reradiation interference of steel towers. It is better to use a detailed angle steel model for the truss structure of steel towers at high frequency, while a simplified structural model can be used at low frequency. Additionally, the diffraction at the edge of the angle steel has a great influence on the reradiation interference, particularly at high frequencies.

Published
2022
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16. Electro-Thermal Fault Diagnosis Method of RAPO Vegetable Oil Transformer Based on Characteristic Gas and Ratio Criterion

Author

Haoxi Cong, Shiyue Du, Qingmin Li, and Jianben Liu

Subjects
Characteristic gas, electro-thermal fault, fault diagnosis, ratio criterion, vegetable oil transformer, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

The vegetable oil transformer has excellent fire resistance, environmentally friendly performances and electrical properties, which is the development direction of oil-filled transformer in the future. At present, the fault diagnosis methods are limited to pure electrical fault or thermal fault, also the diagnosis of combined electro-thermal fault on RAPO vegetable oil needs to be developed. In this paper, an electro-thermal fault experiment platform was established. The gas generation characteristics of RAPO vegetable oil under pure electrical faults, pure thermal faults and combined electric-thermal faults were obtained. Results show that the characteristic gases under pure electrical fault are methane and acetylene, while under pure thermal fault are ethane. Ethane is the characteristic gas of electro-thermal faults except combined high energy breakdown and low temperature thermal fault, of which the characteristic gas is acetylene. Carbon dioxide quickly reached the saturation solubility at the corresponding temperature in the early stage of the above faults, and its content remained stable until the end of the experiment. Therefore, carbon dioxide could not be used as the characteristic gas to diagnose faults. Under different electro-thermal fault conditions, the gas production trend and gas production quantity of hydrogen and carbon monoxide are generally similar, but still different to some extent. Then, the fault diagnosis method of RAPO vegetable oil was established based on the characteristic gas and the ratio criterion. The above study can provide reference for establishing the fault diagnosis method of RAPO vegetable oil and promoting the practical application of vegetable oil transformer.

Published
2019
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17. PD Flexible Built-In High-Sensitivity Elliptical Monopole Antenna Sensor

Author

Hanting Zhang, Guozhi Zhang, Xiaoxing Zhang, Hanlu Tian, Changyue Lu, Jianben Liu, and Yin Zhang

Subjects
Gas Insulated Switchgear, partial discharge, flexible antenna, ultra-high frequency, monopole antenna, Chemical technology, TP1-1185
Abstract

In view of the insufficient signal detection sensitivity of Gas Insulated Switchgear (GIS), partial discharge (PD), ultra-high frequency (UHF), and failure to conform with GIS surface structure when the existing rigid stereo structure UHF sensor is built in, this paper, using rectangular patch antenna equivalent technique, trapezoidal ground plane technique, and coplanar waveguide (CPW) feed line index asymptotic linearization technique, conducts research on a flexible built-in high-sensitivity elliptic monopole antenna. The flexible antenna, with a thickness of only 0.28 mm, can be kept at a voltage standing wave ratio (VSWR) of less than three in the 300 MHz to 3 GHz band under the curvature radius of 0, 100, 300, and 500 mm, and at less than two in the 650 MHz to 3 GHz band. Through the true 220 kV-GIS partial discharge experimental platform built to analyze the high frequency electromagnetic wave detection performance of the built-in flexible antenna, it is shown that the flexible built-in high-sensitivity elliptical monopole antenna designed in this paper can effectively detect the characteristic signals of high-frequency electromagnetic waves emitted by partial discharges with an average discharge amount below 10 pC.

Published
2022
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19. Research on Active Control of Rotating Motion and Vibration of Flexible Manipulator

Author

Qingpeng Han, Wenwen Dong, Bin Wu, Xinhang Shen, Meilin Zhang, Binxia Yuan, Jianben Liu, Rui Zhu, and Daolei Wang

Subjects
Physics, QC1-999
Abstract

In this study, PZT (piezoelectric) actuators and PD control (PDs’ command line tool) method is selected to control the vibration of the flexible manipulator. The dynamic equations of the flexible manipulator system are established based on Lagrange principle. The control strategy of PZT actuators and joint control torque are designed. It is investigated by a Lyapunov approach that a combined scheme of PD feedback and command voltages applies to segmented PZT actuators. By comparison, only PD feedback control is also considered to control the flexible manipulator. The numerical simulations prove that the method of the designed PZT actuators’ control strategy and PD control is effective to compress the vibration of the flexible manipulator.

Published
2021
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20. Improved Sound Absorption Properties in Polyurethane Foams by the Inclusion of Al2O3 Nanoparticles

Author

Binxia Yuan, Xinyi Fang, Jianben Liu, Yan Liu, and Rui Zhu

Subjects
Physics, QC1-999
Abstract

At present, the scale of China’s power grid is becoming larger and larger, and the control of low-frequency noise in substations (especially for transformers) is very important. The sound-absorbing materials have become one of the important ways to control low-frequency noise. The single polyurethane material cannot satisfy the requirements for reducing low-frequency noise, so it is very necessary to study its composite with other materials. In the paper, the flexible polyurethane foam and Al2O3 nanoparticle composites were obtained by the impregnation method. The method was simple, safe, and easy to control. The morphology and sound absorption coefficient of the foam materials before and after filling were analyzed. Single-hole acoustic cavity models of PU and Al2O3-PU composite were established through the finite element. The absorption and dissipation process of sound pressure for single hole was studied to understand the energy dissipation process. Meanwhile, through studying acoustic energy storage and acoustic energy dissipation, the loss factor of a single hole was obtained, which can predict the change rule of the sound absorption coefficient for PU foam and Al2O3-PU.

Published
2021
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21. Flexible Planar Monopole Built-in GIS PD Sensor Based on Meandering Technology

Author

Shuo Zhang, Guozhi Zhang, Changyue Lu, Hanlv Tian, Jianben Liu, and Xiaoxing Zhang

Subjects
gas-insulated switchgear, partial discharge, flexible antenna, meandering technology, Chemical technology, TP1-1185
Abstract

To address the problem of low space utilization of existing rigid Ultra-High Frequency (UHF) sensors for partial discharge (PD) in Gas-Insulated Switchgears (GIS) and the problem of disrupting the electric field distribution inside the GIS. This paper draws on the idea of flexible wearable antennas and introduces planar monopole antennas commonly used in the communication field as GIS PD detection sensors and carried out research on flexible planar monopole sensing technology built into GIS PD. The VSWR of monopole antenna in the UHF low band is optimized by the meandering technique. The size of the designed flexible antenna is 142 mm × 195 mm × 0.28 mm. The simulation and physical test results show that the improved monopole antenna with meandering technology has a VSWR of ≤2 in the frequency bands 570 MHz–830 MHz, 1.38 GHz–1.8 GHz, and 2.2 GHz–2.76 GHz when the bending radius is 0 mm, 200 mm, and 400 mm, respectively. The VSWR in the frequency band 450 MHz–3 GHz is ≤5. A 220 kV GIS PD detection platform was built to test the performance of the designed antenna, and the results showed that the antenna could detect the PD signal after bending deformation with a high Signal Noise Ratio (SNR).

Published
2022
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24. Prediction of radio interference from HVDC transmission lines based on corona discharge characteristics

Author

Caowei Huang, Han Yin, Pengfei Xu, Bo Zhang, Jinliang He, and Jianben Liu

Subjects
power transmission lines, space charge, hvdc power transmission, corona, radio interference, hvdc transmission lines, corona discharge characteristics, corona cage test, ri prediction, high-voltage direct current transmission lines, corona performance, hvdc lines, widely distributed space charge, detailed corona current characteristics, current pulse amplitude, half-wave time, average corona current, ri excitation current, ri level, kv bipolar hvdc transmission line, voltage 800.0 kv, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Electricity, QC501-721
Abstract

Many research works have proved that it is viable to predict the radio interference (RI) of high-voltage alternating current transmission lines by corona cage test. However, it is uncertain whether the same method can be adopted for RI prediction of high-voltage direct current (HVDC) transmission lines, since the corona performance of HVDC lines is obviously affected by the widely distributed space charge. In this study, the detailed corona current characteristics, such as the current pulse amplitude, rise time, half-wave time, and repetition frequency are systematically studied by the reduced-scale experiment and the relationship between the average corona current and the RI excitation current is confirmed. Furthermore, based on the experimental study, a method for predicting the RI level of HVDC transmission lines by the corona cage test is proposed. The RI level of a ±800 kV bipolar HVDC transmission line is predicted and compared with the measured result, which verifies the validity of the proposed method.

Published
2020
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25. Sound Source Separation Mechanisms of Different Deep Networks Explained from the Perspective of Auditory Perception

Author

Han Li, Kean Chen, Lei Wang, Jianben Liu, Baoquan Wan, and Bing Zhou

Subjects
sound source separation, separation mechanisms, proximity principle, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Thanks to the development of deep learning, various sound source separation networks have been proposed and made significant progress. However, the study on the underlying separation mechanisms is still in its infancy. In this study, deep networks are explained from the perspective of auditory perception mechanisms. For separating two arbitrary sound sources from monaural recordings, three different networks with different parameters are trained and achieve excellent performances. The networks’ output can obtain an average scale-invariant signal-to-distortion ratio improvement (SI-SDRi) higher than 10 dB, comparable with the human performance to separate natural sources. More importantly, the most intuitive principle—proximity—is explored through simultaneous and sequential organization experiments. Results show that regardless of network structures and parameters, the proximity principle is learned spontaneously by all networks. If components are proximate in frequency or time, they are not easily separated by networks. Moreover, the frequency resolution at low frequencies is better than at high frequencies. These behavior characteristics of all three networks are highly consistent with those of the human auditory system, which implies that the learned proximity principle is not accidental, but the optimal strategy selected by networks and humans when facing the same task. The emergence of the auditory-like separation mechanisms provides the possibility to develop a universal system that can be adapted to all sources and scenes.

Published
2022
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28. Research on the Prediction Method of Conducted Interference in Flyback Converters based on the High-frequency Transformer Model.

Author

Mengxia Zhou, Bin Cheng, Jianben Liu, Yakang Pei, Ruining Yao, Yan Liu, and Feng Li

Subjects
SWITCHING power supplies, ELECTROMAGNETIC interference, RESEARCH methodology
Abstract

Conducted electromagnetic interference (EMI) has always been a challenge for designers of switched-mode power supplies. Flyback converters are used in various applications. However, as the switching frequency of these converters increases, the issue of electromagnetic interference becomes progressively more severe. In light of this, this paper presents a predictive method for conducted interference in flyback converters, based on a high-frequency transformer model. A high-frequency transformer model topology is proposed, integrating traditional inductance models with a three-capacitor model. Subsequently, a self-organizing migrating algorithm (SOMA) is employed for the extraction of parameters from the high-frequency transformer model, and a high-frequency model is established for a transformer. Finally, the high-frequency model is applied to the prediction of conducted interference in flyback converters. The results demonstrate that the proposed predictive method can effectively forecast the actual conducted interference, thereby providing a reference for suppression of conducted electromagnetic interference. [ABSTRACT FROM AUTHOR]

Published
2024
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29. The white noise standard sample method and application for subjective noise evaluation

Author

Yunyun DENG, Ke'an CHEN, Hao LI, Bo DANG, and Jianben LIU

Subjects
General Engineering
Abstract

The anchored scoring method is one of the widely used subjective sound evaluation methods. The comparability between subjective sound evaluation data obtained from different sample sets can be enhanced by selecting the standard sound sample as reference sample in subjective sound evaluation, thus facilitating the horizontal comparison between different evaluation results. However, the applicability of the standard sound sample method is poor in the experiments on evaluating some types of noise because the mechanisms of annoyance caused by different types of noise are discrepant. Therefore, the standard sound sample method for white noise that takes the existing pure tone as standard sample is proposed. Taking the evaluation results of the common anchored scoring method as benchmark, the experimental study of the performances of the standard sound sample method and the anchored scoring method was carried out according to the evaluation of the annoyance degrees of the two types of similar noise combination or dissimilar noise combination that have obviously different spectra and perceptual characteristics. The results show that the standard sound sample method for pure tone is suitable for noise with obvious tonal perception and that the standard sound sample method for white noise is suitable for broadband noise with weak tonal perception. Finally, the method of conversion between the annoyance evaluation results on different reference samples is studied to enhance the applicability of the standard sound sample method.

Published
2022

30. Effect of Air Gap on Electrical Tree in Epoxy Resin Under High Frequency Bipolar Square-Wave Voltage

Author

Shihang Wang, Chuang Zhang, Hang Fu, Jiao Xiang, Jianying Li, Shengtao Li, Benhong Ouyang, and Jianben Liu

Subjects
epoxy resin, electrical tree, air gap, high voltage, high frequency, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85
Abstract

Insulation fails quickly under high-frequency AC high voltage, especially bipolar square-wave voltage with a high dV/dt. It is of great significance to study the failure mechanism of epoxy casting insulation under such kind of voltage. In this paper, pin-plane epoxy casting insulation samples with air gaps were prepared, and the relation between the electrical trees under the high frequency bipolar square-wave voltage and the air gap conditions and voltage frequencies (1~20 kHz) were studied. Results indicated that, with the presence of air gaps, the electrical trees were bush-type and had a relatively slow growth rate, which was different from the fast-growing branch-type trees in the samples without air gap. The electrical tree characteristics related with the size of air gap and voltage frequency were also studied. The electrical tree grew faster under higher voltage frequency or with a smaller air gap. Results proved that discharge introduced a lot of defects for the surface layer of the epoxy resin samples and hence induced the possibility of multi-directional expansion of electrical trees. In addition, the resulting heat accumulation and unique charge transport synergistically affected the electrical tree characteristics under the high frequency bipolar square-wave voltage.

Published
2020
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36. Standard sample evaluation method for noise annoyance suppression from audio injection

Author

Ke'an Chen, Hao Li, Yunyun Deng, Jun Zhang, Jianben Liu, and Bing Zhou

Subjects
General Engineering
Abstract

Noise control technology based on sound energy reduction uses sound pressure level as an evaluation index, and the addition control technology proposed in recent years uses annoyance as an evaluation index. However, no method has been proposed to link the change in sound pressure level with the change in annoyance. In this paper, three types of transformer substation noise are selected as the target sounds, natural sounds and synthetic sounds are selected as the controllable sound, and the pure tone annoyance and combined noise annoyance evaluation experiments are carried out using the standard sample method, and the curve of the decrease value of annoyance and the equivalent sound pressure level change value is obtained. And the effect of audio injection annoyance control is quantitatively analyzed, aiming to build a bridge between addition control and subtraction control. The research results show the effect of controllable sound on the annoyance of substation noise. This study provides new ideas for quantitative analysis of noise control effects and substation noise control.

Published
2021

37. Research on Active Control of Rotating Motion and Vibration of Flexible Manipulator

Author

Bin Wu, Binxia Yuan, Meilin Zhang, Han Qingpeng, Wenwen Dong, Xinhang Shen, Jianben Liu, Daolei Wang, and Rui Zhu

Subjects
Article Subject, Computer science, Physics, QC1-999, Mechanical Engineering, Motion (geometry), Geotechnical Engineering and Engineering Geology, Condensed Matter Physics, Active control, Piezoelectricity, Computer Science::Other, Computer Science::Robotics, Vibration, Condensed Matter::Materials Science, Mechanics of Materials, Control theory, Line (geometry), Manipulator, Actuator, Civil and Structural Engineering, Voltage
Abstract

In this study, PZT (piezoelectric) actuators and PD control (PDs’ command line tool) method is selected to control the vibration of the flexible manipulator. The dynamic equations of the flexible manipulator system are established based on Lagrange principle. The control strategy of PZT actuators and joint control torque are designed. It is investigated by a Lyapunov approach that a combined scheme of PD feedback and command voltages applies to segmented PZT actuators. By comparison, only PD feedback control is also considered to control the flexible manipulator. The numerical simulations prove that the method of the designed PZT actuators’ control strategy and PD control is effective to compress the vibration of the flexible manipulator.

Published
2021

38. Artificial Intelligence-Aided Computation for Green’s Function of the Spherical Layered Earth

Author

Zhuohong Pan, Baoquan Wang, Jianben Liu, Yan Wang, Yang Tian, and Haocheng Wang

Subjects
Artificial Intelligence, Computer Vision and Pattern Recognition, Software
Abstract

Currently, there are considerable challenges associated with the theoretical derivation and numerical calculation of Green’s function for spherical layered earths. In order to study the coupling effect between wide-area interconnected systems and the earth, this earth model is widely used. Artificial intelligence methods have been applied in order to overcome these challenges. First, Green’s function in the form of infinite Legendre series is derived using intelligent symbolic operations, and the weight function of Legendre series is recursively computed by means of a recursive algorithm. It is on this basis that the intelligent complex image method has been developed for solving spherical layered Green’s functions, which transforms the summation of infinite series of Green’s functions into the superposition of complex image potentials. Additionally, the upper error limit of the algorithm has been determined, and examples have been provided to demonstrate the accuracy of the algorithm. A solution based on multiple precision algorithms has been proposed to resolve the numerical singularity problem and the extremely slow convergence of the spherical layered Green’s function at the earth’s scale. It has been demonstrated that the intelligent complex image method has advantages in terms of computing speed and accuracy. A spherical layered Green’s function at the earth scale is presented in this paper as an effective and intelligent solution.

Published
2022

40. Electrostatic Field Feature Selection Technique for Breakdown Voltage Prediction of Sphere Gaps Using Support Vector Regression

Author

Xiongjian Zhu, Zhibin Qiu, Jianben Liu, Huasheng Hou, Yan Liu, and Louxing Zhang

Subjects
010302 applied physics, Optimal design, Dielectric strength, Feature extraction, Feature selection, 01 natural sciences, Electronic, Optical and Magnetic Materials, Support vector machine, 0103 physical sciences, Genetic algorithm, Breakdown voltage, Electrical and Electronic Engineering, Air gap (plumbing), Algorithm
Abstract

This article proposes a methodology for air gap breakdown voltage (BV) prediction based on support vector regression (SVR), taking various features extracted from the electrostatic field calculation results as input variables. The genetic algorithm (GA) is applied for feature selection to improve the performance of the SVR model. A case study on sphere gap BV prediction is reported to demonstrate the validity of the proposed technique. This study provides a reference for dielectric strength prediction by artificial intelligence algorithms, thus to guide the optimal design of air insulation structures.

Published
2021

41. Theoretical and experimental study on sound absorption performance of Al2O3-polyurethane foam and microperforated plate composite structure.

Author

Binxia, Yuan, Weiguang, Hou, Jianben, Liu, Bing, Zhou, Rui, Zhu, and Lan, Cao

Subjects
FOAM, ABSORPTION of sound, ACOUSTICS, COMPOSITE structures, COMPOSITE plates, NOISE pollution
Abstract

Low-frequency noise pollution in substations has a significant impact on the physical and mental health of workers. Reduction low-frequency noise pollution is an urgent problem to solve for researchers. In this paper, the different structures of Al2O3-polyurethane composites and micro-perforated plate were constructed, and the effects of cavity depth, perforated plate, and foam position on sound absorption properties were comprehensively investigated. The results showed that the position of perforated plate and the arrangement of resonance structure were the two most important factors affecting sound absorption performance. When the sound wave passed through the plexiglass plate–cavity–composites foam–perforated plate in turn, the peak position of sound absorption coefficient was located in the ultra-low frequency range. Meantime, the simulation study showed that the friction between the air column and the cavity wall in the perforated plate can consume sound energy to achieve sound absorption. [ABSTRACT FROM AUTHOR]

Published
2023
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43. Recent Progress on Electromagnetic Field Measurement Based on Optical Sensors

Author

Jun Peng, Shuhai Jia, Jiaming Bian, Shuo Zhang, Jianben Liu, and Xing Zhou

Subjects
electromagnetic field measurement, optical sensors, Faraday effect, magnetostriction, magnetic fluid, electro-optic effect, piezoelectric effect, electrostatic attraction, Chemical technology, TP1-1185
Abstract

Electromagnetic field sensors are widely used in various areas. In recent years, great progress has been made in the optical sensing technique for electromagnetic field measurement, and varieties of corresponding sensors have been proposed. Types of magnetic field optical sensors were presented, including probes-based Faraday effect, magnetostrictive materials, and magnetic fluid. The sensing system-based Faraday effect is complex, and the sensors are mostly used in intensive magnetic field measurement. Magnetic field optical sensors based on magnetic fluid have high sensitivity compared to that based on magnetostrictive materials. Three types of electric field optical sensors are presented, including the sensor probes based on electric-optic crystal, piezoelectric materials, and electrostatic attraction. The majority of sensors are developed using the sensing scheme of combining the LiNbO3 crystal and optical fiber interferometer due to the good electro-optic properties of the crystal. The piezoelectric materials-based electric field sensors have simple structure and easy fabrication, but it is not suitable for weak electric field measurement. The sensing principle based on electrostatic attraction is less commonly-used sensing methods. This review aims at presenting the advances in optical sensing technology for electromagnetic field measurement, analyzing the principles of different types of sensors and discussing each advantage and disadvantage, as well as the future outlook on the performance improvement of sensors.

Published
2019
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46. Remote Optical Thermography Detection Method and System for Silicone Polymer Insulating Materials Used in Power Industry

Author

Lishuai Liu, Chenjun Guo, Hongwei Mei, Liming Wang, Yanxin Tu, and Jianben Liu

Subjects
Remote detection, Materials science, Acoustics, 020208 electrical & electronic engineering, Fast Fourier transform, 02 engineering and technology, Silicone polymer, Independent component analysis, Electric power system, Reliability (semiconductor), Electrical equipment, Thermography, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Instrumentation
Abstract

Live detection of composite insulating materials in electrical equipment is highly demanded for the reliability and safety of the power system. This article proposes a remote optical thermography detection method and system for detecting defects in silicone polymer materials with the advantages of quick and simple operation, safety, visual results, and automatic remote measurement. First, the remote optical thermography detection system was established. Then, silicone polymer insulating materials with typical defects were tested by the proposed system at a long distance of 5 m. Images sequence processing techniques, including fast Fourier transform, principal component analysis, independent component analysis, and partial least-squares regression, were used to enhance defect contrast and reduce background noises. The experiment results have shown that defects with the size of 2 mm in silicone polymer insulating materials can be accurately detected at a long distance of 5 m by the proposed system. Finally, the performance of these adopted processing techniques in remote detection was quantitatively evaluated by two metrics, contrast and signal-to-noise ratio, to provide a reference for industrial applications of thermography detection at a long distance.

Published
2020

48. Theoretical and experimental study on sound absorption performance of Al2O3-polyurethane foam and microperforated plate composite structure

Author

Binxia, Yuan, Weiguang, Hou, Jianben, Liu, Bing, Zhou, Rui, Zhu, and Lan, Cao

Abstract

Low-frequency noise pollution in substations has a significant impact on the physical and mental health of workers. Reduction low-frequency noise pollution is an urgent problem to solve for researchers. In this paper, the different structures of Al2O3-polyurethane composites and micro-perforated plate were constructed, and the effects of cavity depth, perforated plate, and foam position on sound absorption properties were comprehensively investigated. The results showed that the position of perforated plate and the arrangement of resonance structure were the two most important factors affecting sound absorption performance. When the sound wave passed through the plexiglass plate–cavity–composites foam–perforated plate in turn, the peak position of sound absorption coefficient was located in the ultra-low frequency range. Meantime, the simulation study showed that the friction between the air column and the cavity wall in the perforated plate can consume sound energy to achieve sound absorption.

Published
2023
Full Text
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