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228 results on '"Wang, Enyu"'

1. An Ultra-Short-Term PV Power Prediction Method Based on Meteorological Factors with Weather Fluctuation Level and Historical Power Datasets

Author

Wang, Enyu, Lu, Chao, Hou, Peng, Wu, Yiwen, Shen, Yang, He, Guodong, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Zhang, Junjie James, Series Editor, Tan, Kay Chen, Series Editor, Xue, Yusheng, editor, Zheng, Yuping, editor, and Gómez-Expósito, Antonio, editor

Published
2024
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9. Decoupling of itinerant and localized $d$-orbital electrons in the compound Sc$_{0.5}$Zr$_{0.5}$Co

Author

Si, Jin, Fan, Xinwei, Wang, Enyu, Zhu, Xiyu, Li, Qing, and Wen, Hai-Hu

Subjects
Condensed Matter - Materials Science
Abstract

By using the arc-melting method, we successfully synthesized the compound Sc$_{0.5}$Zr$_{0.5}$Co with the space group of $Pm$-$3m$. Both the resistivity and magnetic susceptibility measurements reveal a phase transition at about 86 K. This transition might be attributed to the establishment of an antiferromagnetic order. The magnetization hysteresis loop measurements in wide temperature region show a weak ferromagnetic feature, which suggests a possible canted arrangement of the magnetic moments. Bounded by the phase transition temperature, the resistivity at ambient pressure shows a change from Fermi liquid behavior to a super-linear behavior as temperature increases. By applying pressures up to 32.1 GPa, the transition temperature does not show a clear change and no superconductivity is observed above 2 K. The density functional theory (DFT) calculations confirm the existence of the antiferromagnetic order and reveal a gap between the spin-up and spin-down $d$-orbital electrons. This kind of behavior may suggest that the antiferromagnetic order in this compound originates from the localized $d$-electrons which do not contribute to the conductance. Thus the itinerant and localized $d$-orbital electrons in the compound are decoupled., Comment: 6 pages, 6 figures

Published
2019
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14. Synergy and competition between superconductivity and antiferromagnetism in FeSe under pressure

Author

Chen, Guan-Yu, Wang, Enyu, Zhu, Xiyu, and Wen, Hai-Hu

Subjects
Condensed Matter - Superconductivity
Abstract

Temperature dependence of resistivity under high pressures with magnetic fields parallel and perpendicular to the FeSe planes are measured in FeSe single crystals. It is found that the structural transition (nematic) temperature is suppressed by pressure and ends at around $P$ = 1.18 GPa. Below around 0.85 GPa, the superconducting transition shows a narrow width with no indication of antiferromagnetic order. While above this pressure, the superconducting transition temperature drops slightly forming a small dome of superconducting region with the maximum $T_c$ at around 0.825 GPa. Furthermore, just above this pressure, the superconducting transition exhibits an unusual large transition width which reaches about 6-8 K. This wide transition width is an intrinsic feature and does not change with magnetic field. In the high pressure region above 1.18 GPa, just accompanying the onset of superconducting transition, an upturn of resistivity immediately occurs, which is attributed to the formation of an antiferromagnetic order. This closely attached behavior of superconductivity and antiferromagnetic order indicates that these two orders have a synergy feature. Near the critical pressure 0.825 GPa and below, our data illustrate that an antiferromagnetic order emerges when superconductivity is suppressed. From the weak influence of magnetic field to the antiferromagnetic order, we conclude that it exists already below the small superconducting dome in the low pressure region. This shows a competing feature between superconductivity and antiferromagnetic order. Our results show duality features, namely synergy and competition between superconductivity and antiferromagnetic order under pressure in FeSe., Comment: 9 pages, 7 figures

Published
2018
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15. Direct visualization of sign reversal s^+- superconducting gaps in FeTe0.55Se0.45

Author

Chen, Mingyang, Tang, Qingkun, Chen, Xiaoyu, Gu, Qiangqiang, Yang, Huan, Du, Zengyi, Zhu, Xiyu, Wang, Enyu, Wang, Qiang-Hua, and Wen, Hai-Hu

Subjects
Condensed Matter - Superconductivity
Abstract

In many unconventional superconductors, the pairing of electrons is driven by the repulsive interaction, which leads to the sign reversal of superconducting gaps along the Fermi surfaces (FS) or between them. However, to measure this sign change is not easy and straightforward. It is known that, in superconductors with sign reversal gaps, non-magnetic impurities can break Cooper pairs leading to the quasiparticle density of states in the superconducting state. The standing waves of these quasiparticles will interfere each other leading to the quasiparticle interference (QPI) pattern which carries the phase message reflecting also the superconducting gap structure. Based on the recently proposed defect-bound-state QPI technique, we explore the applicability of this technique to a typical iron based superconductor FeTe$_{0.55}$Se$_{0.45}$ with roughly equivalent gap values on the electron and hole pockets connected by the wave vector q_2=(0,\pi). It is found that, on the negative energy side, with the energy slightly below the gap value, the phase reference quantity $|g(q,-E)|\cos(\theta_{q,+E}-\theta_{q,-E}) becomes negative and the amplitude is strongly enhanced with the scattering vector q_2, but that corresponding to the scattering between the electron-electron pockets, namely q_3=(\pi,\pi), keeps all positive. This is well consistent with the theoretical expectation of the s^+- pairing gap and thus serves as a direct visualization of the sign reversal gaps. This experimental observation is also supported by the theoretical calculations with the Fermi surface structure and s^+- pairing gap., Comment: 10 pages, 6 figures

Published
2018
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19. Pressure Induced Superconductivity in the New Compound ScZrCo1-${\delta}$

Author

Wang, Enyu, Si, Jing, Zhu, Xiyu, Chen, Guan-Yu, Lin, Hai, and Wen, Hai-Hu

Subjects
Condensed Matter - Superconductivity
Abstract

It is widely perceived that the correlation effect may play an important role in several unconventional superconducting families, such as cuprate, iron-based and heavy-fermion superconductors. The application of high pressure can tune the ground state properties and balance the localization and itineracy of electrons in correlated systems, which may trigger unconventional superconductivity. Moreover, non-centrosymmetric structure may induce the spin triplet pairing which is very rare in nature. Here, we report a new compound ScZrCo1-${\delta}$ crystallizing in the Ti2Ni structure with the space group of FD3-MS without a spatial inversion center. The resistivity of the material at ambient pressure shows a bad metal and weak semiconducting behavior. Furthermore, specific heat and magnetic susceptibility measurements yield a rather large value of Wilson ratio ~4.47. Both suggest a ground state with correlation effect. By applying pressure, the up-going behavior of resistivity in lowering temperature at ambient pressure is suppressed and gradually it becomes metallic. At a pressure of about 19.5 GPa superconductivity emerges. Up to 36.05 GPa, a superconducting transition at about 3.6 K with a quite high upper critical field is observed. Our discovery here provides a new platform for investigating the relationship between correlation effect and superconductivity., Comment: 23 pages, 6 figures, including Supplementary Information

Published
2017
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20. Discrete energy levels of Caroli-de Gennes-Martricon states in quantum limit due to small Fermi energy in FeTe$_{0.55}$Se$_{0.45}$

Author

Chen, Mingyang, Chen, Xiaoyu, Yang, Huan, Du, Zengyi, Zhu, Xiyu, Wang, Enyu, and Wen, Hai-Hu

Subjects
Condensed Matter - Superconductivity
Abstract

Caroli-de Gennes-Martricon (CdGM) states were predicted in 1964 as low energy excitations within vortex cores of type-II superconductors. In the quantum limit, namely $T/T_\mathrm{c} \ll \Delta/E_\mathrm{F}$, the energy levels of these states were predicted to be discrete with the basic levels at $E_\mu = \pm \mu \Delta^2/E_\mathrm{F}$ ($\mu = 1/2$, $3/2$, $5/2$, ...). However, due to the small ratio of $\Delta/E_\mathrm{F}$ in most type-II superconductors, it is very difficult to observe the discrete CdGM states, but rather a symmetric peak appears at zero-bias at the vortex center. Here we report the clear observation of these discrete energy levels of CdGM states in FeTe$_{0.55}$Se$_{0.45}$. The rather stable energies of these states versus space clearly validates our conclusion. Analysis based on the energies of these CdGM states indicates that the Fermi energy in the present system is very small., Comment: 26 pages, 9 figures

Published
2017
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21. Engineered extracellular vesicles enable high-efficient delivery of intracellular therapeutic proteins.

Author

Ma, Ding, Xie, An, Lv, Jiahui, Min, Xiaolin, Zhang, Xinye, Zhou, Qian, Gao, Daxing, Wang, Enyu, Gao, Lei, Cheng, Linzhao, and Liu, Senquan

Abstract

Developing an intracellular delivery system is of key importance in the expansion of protein-based therapeutics acting on cytosolic or nuclear targets. Recently, extracellular vesicles (EVs) have been exploited as next-generation delivery modalities due to their natural role in intercellular communication and biocompatibility. However, fusion of protein of interest to a scaffold represents a widely used strategy for cargo enrichment in EVs, which could compromise the stability and functionality of cargo. Herein, we report intracellular delivery via EV-based approach (IDEA) that efficiently packages and delivers native proteins both in vitro and in vivo without the use of a scaffold. As a proof-of-concept, we applied the IDEA to deliver cyclic GMP-AMP synthase (cGAS), an innate immune sensor. The results showed that cGAS-carrying EVs activated interferon signaling and elicited enhanced antitumor immunity in multiple syngeneic tumor models. Combining cGAS EVs with immune checkpoint inhibition further synergistically boosted antitumor efficacy in vivo. Mechanistically, scRNA-seq demonstrated that cGAS EVs mediated significant remodeling of intratumoral microenvironment, revealing a pivotal role of infiltrating neutrophils in the antitumor immune milieu. Collectively, IDEA, as a universal and facile strategy, can be applied to expand and advance the development of protein-based therapeutics. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Investigation of effective thermal conductivity of SiC foam ceramics with various pore densities

Author

Wang Enyu, Shi Zhongtian, Chen Miaomiao, Tang Shiqian, Zhang Xiangyu, and Zhang Wei

Subjects
effective thermal conductivity, foam ceramic, variable pore structure, Physics, QC1-999
Abstract

SiC foam ceramics are extensively used in numerous industrial applications that require high-temperature conditions. They can be used as thermal insulation, structural catalyst supports and energy storage materials. In this article, effective thermal conductivity of SiC foam ceramics at high temperature is studied by steady plane heat source method. This research aims to investigate the variations of effective thermal conductivity with pore density, stacking thickness, heat source temperature, and pore arrangement structure of foam ceramics. By a comparison of effective thermal conductivities of various pore density ceramic sheets, the experimental results show that the effective thermal conductivity of foam ceramics decreases with the increase of the pore density and stacking thickness. The effective thermal conductivity of the foam ceramics increases significantly when the heat source temperature is more than 200°C. For modular SiC foam ceramics, increasing the average pore density and sudden change of the pore density between ceramic sheets are not conducive to the increase of the effective thermal conductivity.

Published
2022
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24. Pressure induced superconductivity in Bi single crystals

Author

Li, Yufeng, Wang, Enyu, Zhu, Xiyu, and Wen, Hai-Hu

Subjects
Condensed Matter - Superconductivity
Abstract

Measurements on resistivity and magnetic susceptibility have been carried out for Bi single crystals under pressures up to 10.5GPa. The temperature dependent resistivity shows a semimetallic behavior at ambient and low pressures (below about 1.6GPa). This is followed by an upturn of resistivity in low temperature region when the pressure is increased, which is explained as a semiconductor behavior. This feature gradually gets enhanced up to a pressure of about 2.52GPa. Then a non-monotonic temperature dependent resistivity appears upon further increasing pressure, which is accompanied by a strong suppression to the low temperature resistivity upturn. Simultaneously, a superconducting transition occurs at about 3.92K under a pressure of about 2.63GPa. With further increasing pressure, a second superconducting transition emerges at about 7K under about 2.8GPa. For these two superconducting states, the superconductivity induced magnetic screening volumes are quite large. As the pressure further increased to 8.1GPa, we observe the third superconducting transition at about 8.2K. The resistivity measurements under magnetic field allow us to determine the upper critical fields $\mu_0 H_{c2}$ of the superconducting phases. The upper critical field for the phase with $T_c=3.92$K is extremely low. Based on the Werthamer-Helfand-Hohenberg (WHH) theory, the estimated value of $\mu_0 H_{c2}$ for this phase is about 0.103T. While the upper critical field for the phase with $T_c$=7K is very high with a value of about 4.56T. Finally, we present a pressure dependent phase diagram of Bi single crystals. Our results reveal the interesting and rich physics in bismuth single crystals under high pressure., Comment: 5 pages 6 figures

Published
2016
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25. Merging Dirac electrons and correlation effect in the heterostructured Bi2Te3/Fe1+dTe

Author

Du, Guan, Du, Zengyi, Yang, Xiong, Wang, Enyu, Fang, Delong, Yang, Huan, and Wen, Hai-Hu

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity
Abstract

The topological insulator and strong electronic correlation effect are two important subjects in the frontier studies of modern condensed matter physics. A topological insulator exhibits a unique pair of surface conduction bands with the Dirac dispersion albeit the bulk insulating behaviour. These surface states are protected by the topological order, and thus the spin and momentum of these surface electrons are locked together demonstrating the feature of time reversal invariance. On the other hand, the electronic correlation effect becomes the very base of many novel electronic states, such as high temperature superconductivity, giant magnetoresistance etc. Here we report the discovery of merging the two important components: Dirac electrons and the correlation effect in heterostructured Bi2Te3/Fe1+dTe. By measuring the scanning tunneling spectroscopy on Bi2Te3 thin films (a typical topological insulator) thicker than 6 quintuple layers on top of the Fe1+dTe single crystal (a parent phase of the iron based superconductors FeSe1-xTex), we observed the quantum oscillation of Landau levels of the Dirac electrons and the gapped feature at the Fermi energy due to the correlation effect of Fe1+dTe. Our observation challenges the ordinary understandings and must demonstrate some unexplored territory concerning the combination of topological insulator and strong correlation effect., Comment: 20 pages, 4 figures

Published
2015

26. Energy equilibrium analysis in the effervescent atomization

Author

Duan Runze, Feng Ziwei, Duan Hongbin, Qu Huiru, Tian Liting, Jia Wenqi, Baleta Jakov, Wang Enyu, Liu Liansheng, and Tian Liang

Subjects
effervescent atomization, energy dissipation analysis, sauter mean diameter, swirl atomizer, droplets velocity, phase doppler analyzer, Physics, QC1-999
Abstract

In this paper, the flow characteristics and energy equilibrium analysis of the effervescent atomization had been investigated theoretically and experimentally. The effect of the gas–liquid rate (GLR from 0.04 to 0.15) on the atomization stability was revealed. When the GLR was small, the atomization was unstable. The atomization was gradually stable with an increase in the GLR. The optimal atomization region can be obtained. The Sauter mean diameter (SMD) of the droplets was measured by the phase Doppler analyzer. The SMD decreases with an increase in the GLR. The energy equilibrium analysis was investigated for the swirl atomizer theoretically and experimentally. The results show that the energy dissipation terms are mainly compressed gas expansion, liquid viscosity dissipation, and resistance losses. However, the ratio of the spray kinetic energy and the surface tension energy to the total energy is small.

Published
2020
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33. Numerical Study on Heat Transfer and Performance of Seasonal Borehole Thermal Energy Storage.

Author

Shen, Haixiao, Cao, Zhen, Klemeš, Jiří Jaromír, Wang, Jin, and Wang, Enyu

Subjects
HEAT storage, HEAT transfer, ENERGY storage, THERMAL conductivity, ENERGY consumption
Abstract

Design of the borehole thermal energy storage (BTES) is very important for the seasonal solar thermal storage system. The BTES designed based on the empirical method could lead to some unsatisfied effects in actual operations. This paper simulated the BTES operation in one year to study the effects of soil thermal conductivity, soil volume-specific heat, initial soil temperature and relative surface area of storage on energy efficiency of the BTES. The results show that energy efficiency of the BTES reaches the maximum when soil thermal conductivity is 1.8 W/(m·K). According to the results, soil thermal conductivity has more significant effects on the heat extraction per soil volume but has the most negligible impact on energy efficiency of the BTES. At the same time, relative surface area of storage is the most influential factor on energy efficiency of the BTES. Finally, a new BTES design method was proposed which is suitable for the studied parameter range. It is worth noting that the present study focuses on the continuous operation of the system and fixed buried pipe spacing, while the intermittent operation and other buried pipe spacing will be studied in future work. [ABSTRACT FROM AUTHOR]

Published
2023
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45. Numerical modelling of retaining structure displacements in multi-bench retained excavations

Author

He Xiaopei, Gang Zheng, Dong-qing Nie, Shao-kun Ma, Guo Zhiyi, Haizuo Zhou, and Wang Enyu

Subjects
Multivariate adaptive regression splines, Coupling effect, business.industry, Solid mechanics, Earth and Planetary Sciences (miscellaneous), Hardening (metallurgy), Excavation, Structural engineering, Geotechnical Engineering and Engineering Geology, business, Small strain, Row, Mathematics
Abstract

This investigation aims to analyse the influencing factors on performance and the optimal retaining layout of multi-bench retained excavations in clay. A numerical model incorporating the hardening soil small strain model, capable of reasonably estimating the retaining structure displacement and ground settlements, is first validated with a case history in Tianjin, China. Subsequently, the geometric parameters, including the bench width (B), the second row of retaining piles length (L2), the first row of retaining piles length (L1), and the second excavation depth (H2), on the retaining structure displacement (δh1,max) are analysed. Furthermore, a sensitivity analysis is performed, and the optimal layout of a multi-bench retaining system is estimated through a multivariate adaptive regression splines procedure. The results indicate that the influencing parameters have a coupling effect on the retaining structure performance. The B value is the most sensitive factor on the δh1, max value, followed by the L1, the H2, and L2 values. A large bench width weakens the interaction effect between two rows of retaining piles, but it significantly reduces the δh1, max value and provides a cost-effective solution for engineering practice. An optimal H2 value of 0.5 He (He is the excavation depth) is found.

Published
2020

48. Co-hydrothermal carbonization of oil shale and rice husk: Combustion, pyrolysis characteristics, and synergistic effect.

Author

Liu, Yaoxin, Wang, Enyu, Kan, Ze, Liu, Baotong, Bai, Ling, Wang, Qiang, and Zhang, Xiaohui

Subjects
OIL shales, SHALE oils, RICE hulls, RICE oil, ORGANIC waste recycling, ORGANIC wastes, CARBONIZATION
Abstract

Countries all over the world are looking for fuel to replace fossil energy due to environmental concerns and a scarcity of fossil fuels. Oil shale (OS) and rice husk (RH) are both viable fuels, although they both have issues like high ash content and poor calorific value. OS and RH were used as feedstock for high-quality fuel in this study, which uses a hydrothermal technique to provide a novel way to utilize OS and rice. At different hydrothermal temperatures (150, 200 and 250 °C), including combustion and pyrolysis processes, the thermogravimetric analyzer (TGA) was used to analyse thermal transformation characteristics of co-hydrothermal carbonization (co-HTC) of OS and RH, as well as the synergistic effects. Results showed that the co-HTC pretreatment had a significant effect on the thermal transformation behaviour of OS and RH. On the one hand, the co-HTC has higher volatile content than its calculated value. On the other hand, a synergistic effect was found in combustion processes, and this effect was the most obvious when the hydrothermal temperature was around 200 °C, and the characteristic peak of functional groups vibration was strong. Therefore, the co-HTC was considered suitable for combustion. The combination of co-HTC modification with subsequent thermochemical processes has positive implications for the energy production and utilization of organic waste. [ABSTRACT FROM AUTHOR]

Published
2023
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