Your search keyword '"Wei, Changyou"' showing total 7 results

1. Interaction and Diffusion Mechanism of Moisture in Power Capacitor Insulating Oil Based on Molecular Simulation.

Author

Wei, Changyou, Pang, Zhiyi, Qin, Rui, Huang, Jiwen, and Li, Yi

Subjects

*INSULATING oils, *POWER capacitors, *BROWNIAN motion, *CHEMICAL properties, *HYDROGEN atom

Abstract

Characterized by its exceptional electrical, physical, and chemical properties, 1-phenyl-1-xylylethane (PXE) insulating oil finds extensive application in the realm of power capacitor insulation. In this study, molecular simulation is employed to investigate the reactivity of PXE insulating oil molecules and the impact of temperature on water diffusion behavior in PXE insulating oil, as well as its solubility. The findings demonstrate a higher propensity for hydrogen atoms in nucleophilic and electrophilic positions within PXE insulating oil molecules to interact with water molecules. The inclusion of a temperature field enhances the Brownian motion of water molecules and improves their diffusion ability within the oil. Furthermore, the temperature field diminishes the interaction force between water molecules and the oil medium. Under the influence of this temperature field, there is an increase in the free volume fraction of PXE insulating oil, leading to a weakening effect on hydrogen bonds between oxygen and hydrogen atoms within PXE insulating oil. Additionally, with increasing temperature, there is an elevation in moisture solubility within insulating oil, resulting in a transition from a suspended state to a dissolved state. [ABSTRACT FROM AUTHOR]

Published

2024

2. Research on university laboratory management and maintenance framework based on computer aided technology

Author

Wei, Changyou

Published

2020

3. The Effect of Transcranial Electrical Stimulation on the Recovery of Sleep Quality after Sleep Deprivation Based on an EEG Analysis

Author

Wang, Yuhan, primary, Cao, Qiongfang, additional, Wei, Changyou, additional, Xu, Fan, additional, Zhang, Peng, additional, Zeng, Hanrui, additional, Shao, Yongcong, additional, Weng, Xiechuan, additional, and Meng, Rong, additional

Published

2023

4. A systemic review and meta-analysis comparing the ability of diagnostic of the third heart sound and left ventricular ejection fraction in heart failure

Author

Dao, Lin, primary, Huang, Min, additional, Lin, Xinghong, additional, Li, Liuyin, additional, Feng, Xixi, additional, Wei, Changyou, additional, Guo, Mingjin, additional, Yang, Yifan, additional, Xu, Fan, additional, and Weng, Xiechuan, additional

Published

2022

5. Lee Silverman Voice Treatment to Improve Speech in Parkinson’s Disease: A Systemic Review and Meta-Analysis

Author

Pu, Tingting, primary, Huang, Min, additional, Kong, Xiangyu, additional, Wang, Meng, additional, Chen, Xiangling, additional, Feng, Xixi, additional, Wei, Changyou, additional, Weng, Xiechuan, additional, and Xu, Fan, additional

Published

2021

6. The prevalence of smoking in male medical students from 16 Chinese medical colleges and the associated factors

Author

Yang, Xiaohong, primary, Chen, Weizhong, additional, Peng, Xiaoli, additional, Wei, Changyou, additional, Xin, Junguo, additional, Tang, Jiayang, additional, Chen, Jian, additional, Zeng, Ziqian, additional, and Luan, Rongsheng, additional

Published

2020

7. Construction and validation of a method for automated time label segmentation of heart sounds.

Author

Li L, Huang M, Dao L, Feng X, Liu Y, Wei C, Liu F, Zhang J, and Xu F

Abstract

Heart sound detection technology plays an important role in the prediction of cardiovascular disease, but the most significant heart sounds are fleeting and may be imperceptible. Hence, obtaining heart sound information in an efficient and accurate manner will be helpful for the prediction and diagnosis of heart disease. To obtain heart sound information, we designed an audio data analysis tool to segment the heart sounds from single heart cycle, and validated the heart rate using a finger oxygen meter. The results from our validated technique could be used to realize heart sound segmentation. Our robust algorithmic platform was able to segment the heart sounds, which could then be compared in terms of their difference from the background. A combination of an electronic stethoscope and artificial intelligence technology was used for the digital collection of heart sounds and the intelligent identification of the first (S1) and second (S2) heart sounds. Our approach can provide an objective basis for the auscultation of heart sounds and visual display of heart sounds and murmurs., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Li, Huang, Dao, Feng, Liu, Wei, Liu, Zhang and Xu.)

Published

2024