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RISS 인기검색어
- 검색키워드
- 저자 : Zhang Zhenxin (검색결과 3 건)
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Xiaohong Zhan,Qi Zhang,Zhenxin Zhu,Yanhong Wei 대한기계학회 2018 JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY Vol.32 No.1
A thermal-electrical-mechanical coupled model was established to simulate the Parallel-gap resistance welding (PGRW) process between the Germanium-based solar cell and the silver interconnector. The simulated results showed that the peak temperature during PGRW is lower than the melting temperature of the base material. It is indicated that the connection mechanism of PGRW was mainly the interdiffusion and recrystallization due to pressure of electrode and the resistance heat. A detailed calculation method of current was proposed using semi-layered resistance model and layered resistance model. By comparing these models, it was found that the layered resistance model was more accurate to calculate the current value. The maximum residual stress was generated within the region under the welding electrode, while the maximum deformation was generated on the edge of the interconnector. The current variation trend predicated by the simulation results is in good agreement with the results obtained by the experiments.
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Jin Yong,Wang Zhilin,Zhang Zhenxin,Lin Bo,Ge Zhengjun,You Qidong,Chen Hao,Liu Xiliang,Xu Chenghao,Gao Shuaiqiang,Wu Yi,Abro Zafar 한국자원공학회 2023 Geosystem engineering Vol.26 No.4
CO2 flooding is a significant technology for oil recovery, to reveal the microcosmic mechanism of CO2 flooding, CO2 slim tube experiments, long core CO2 flooding experiments, gas chromatography analysis experiments, and numerical simulations were carried out. The results show that the miscibility increase can improve the effect of dissolution and diffusion in the CO2-crude oil system, easing the CO2 finger entry phenomena, and delaying gas breakthrough time. Besides, the CO2 -crude oil interaction is enhanced by increasing the pressure difference between the injection well and the production well, which improves the oil recovery of CO2 flooding. Besides, CO2 carries the light and medium components (C4 ~ 25) forward to cross the first miscible zone, which makes the CO2-crude oil system form double miscible zones. This study reveals the rule of CO2 front and light components front under different miscibility degrees of CO2 flooding from the microscopic perspective and deepens the theory of CO2 flooding in low-permeability sandstone reservoirs.
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Banglei Liang,Yaqi Zhao,Xinxin Guo,Zhenxin Zhao,Qiao Feng,Jingyi Guo,Xiaoyuan Zhang,Jinyu Tian 한국섬유공학회 2020 Fibers and polymers Vol.21 No.8
An efficient approach was presented to prepare polyaniline/polypyrrole (PANi/PPy) composite nanofibers bygrowing PPy layers on the surface of PANi nanofibrous seeds as electrode materials for supercapacitors in neutral electrolyte. Core layer of PANi nanofiber was firstly synthesized by the chemical oxidative polymerization of aniline monomers underfree melting condition of reaction solutions in fully aqueous system without the assistance of any templates or organicsolvents. Then the shell layer of PPy was fabricated by in-situ chemical oxidative polymerization of pyrrole monomers withthe above-mentioned PANi nanofiber as a seed, and the PPy shell layer thicknesses were tuned by changing the molar ratio ofaniline to pyrrole. The resulting PANi/PPy composites were investigated by field-emission scanning electron microscopy,ultraviolet-visible spectroscopy, Fourier transform infrared and Raman spectrometry. Furthermore, electrochemical behaviorsin Na2SO4 electrolyte were tested by cyclic voltammetry, galvanostatic charge-discharge techniques and electrochemicalimpedance spectroscopy. It turned out that low molar ratio of aniline to pyrrole is helpful to increase the PPy shell layerthicknesses, yield and conductivity of PANi/PPy composite nanofibers. A great improvement on the capacitive propertiescould be achieved by choosing appropriate PPy shell layer thickness. The results showed that benefiting from strong synergyeffect and π-π interaction between PANi core and PPy shell layer as well as low electrochemical impedance, PANi/PPycomposite nanofibers prepared with the molar ratio of 1:1 (PPy shell layer thickness of about 12.5 nm) displayed the highestspecific capacitance of 1550.2 F g-1 at scan rate of 5 mV s-1 and 758.8 F g-1 at the current density of 1 A g-1 with the bestcycling stability of 70.3 % after 500 cycles in 0.5 M Na2SO4 electrolyte, which exhibited a great potential in the developmentof high-performance electrode materials operated in environmentally friendly electrolyte.
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