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Impact of Junction Capacitor and Transfer characteristic on EMI prediction
Wenxia Chen,Wenjie Chen,Pengyuan Ren,Rui Cheng 전력전자학회 2023 ICPE(ISPE)논문집 Vol.2023 No.-
While silicon carbide devices miniaturize power electronic devices, they bring more serious EMI problems. This paper proposes a switching model for noise source EMI spectral prediction, which is a key prerequisite for accurate prediction in terms of electronic magnetic interference (EMI). Compared with the asymmetric trapezoidal wave, the modeling of the step-by-step switch with oscillation stage can better reflect the switching characteristics. In addition, the junction capacitance and transfer characteristics have a certain influence on the rise time, fall time and oscillation of the switch, and also affect the noise spectra in different frequency bands. Considering the actual switching process, the effect of junction capacitance and transfer characteristics on the switching oscillation process and the EMI problem of its corresponding frequency band is studied.
Wenxia Liu,Qi Chen,Yuying Zhang,Guobing Qiu,Chenghui Lin 대한전기학회 2014 Journal of Electrical Engineering & Technology Vol.9 No.6
A reliability model of wind farm located in mountainous land with complex terrain, which considers the cable and wind turbine (WT) failures, is proposed in this paper. Simple wake effect has been developed to be applied to the wind farm in mountainous land. The component failures in the wind farm like the cable and WT failures which contribute to the wind farm power output (WFPO) and reliability is investigated. Combing the wind speed distribution and the characteristic of wind turbine power output (WTPO), Monte Carlo simulation (MCS) is used to obtain the WFPO. Based on clustering algorithm the multi-state model of a wind farm is proposed. The accuracy of the model is analyzed and then applied to IEEE-RTS 79 for adequacy assessment.
Liu, Wenxia,Chen, Qi,Zhang, Yuying,Qiu, Guobing,Lin, Chenghui The Korean Institute of Electrical Engineers 2014 Journal of Electrical Engineering & Technology Vol.9 No.6
A reliability model of wind farm located in mountainous land with complex terrain, which considers the cable and wind turbine (WT) failures, is proposed in this paper. Simple wake effect has been developed to be applied to the wind farm in mountainous land. The component failures in the wind farm like the cable and WT failures which contribute to the wind farm power output (WFPO) and reliability is investigated. Combing the wind speed distribution and the characteristic of wind turbine power output (WTPO), Monte Carlo simulation (MCS) is used to obtain the WFPO. Based on clustering algorithm the multi-state model of a wind farm is proposed. The accuracy of the model is analyzed and then applied to IEEE-RTS 79 for adequacy assessment.
A novel strengthened dispersed particle gel for enhanced oil recovery application
Caili Dai,Wenxia Chen,Qing You,Hong Wang,Yang Zhe,Long He,Baolei Jiao,Yining Wu 한국공업화학회 2016 Journal of Industrial and Engineering Chemistry Vol.41 No.-
A novel strengthened dispersed particle gel (SDPG) was proposed and investigated to improve hightemperatureand high-salinity stability of foam, which uses silica nanoparticles as reinforcing material tosupport the inner framework of particle gel. In this paper, SDPG was successfully prepared and applied toa new three-phase foam system (STPFS). Indoor experiments were conducted to evaluate the salttolerance, thermal tolerance, plugging capacity and enhanced oil recovery capacity of the STPFS. It provedthat silica nanoparticles could improve the high-temperature and high-salinity stability of the gelparticles effectively. Consequently, the new three-phase foam system (STPFS) exhibited superior salt andtemperature resistance, with a salinity of 80,000 mg/L of Na+, 15,000 mg/L of Ca2+ and Mg2+ andtemperature tolerance of 110 C. In addition, core-flooding test indicated the STPFS possessed betterplugging capacity with a resistance factor of 310 and better enhanced oil recovery capacity with the oilrecovery increment of 26.79% under high temperature (110 C) and high salt environment (212,633.8 mg/L).