Results 21 to 30 of about 1,427,306 (165)
ABSTRACT Piezocatalytic technology utilizes mechanical strain or stress‐induced piezoelectric phenomena to produce robust internal electric fields, markedly improving the separation efficiency of e−‐h+ pairs. This method has emerged as a focal point in catalysis by removing reliance on conventional light or electrical energy via its mechanical‐to ...
Yue Zhou +5 more
wiley +1 more source
对复合绝缘子的电场和电位分布进行了研究,提出了优化复合绝缘子电场和电位分布的内电极和均压环配置法。该方法是在复合绝缘子的玻璃纤维芯棒两端内嵌细金属内电极;导线侧配置内电极和均压环,而杆塔侧仅配置内电极。在复合绝缘子的导线侧,内电极、金具和均压环之间形成低电场区,降低了该部分绝缘承担的电位分布。在杆塔侧,内电极与杆塔侧金具等电位,内电极所伸入、涵盖的绝缘处于内电极与杆塔侧金具形成的轴向低电场区,降低了该部分绝缘承担的电位;而内电极尖端及以下形成较高电场,抬升了内电极尖端以下的部分绝缘所承担的电压 ...
罗勇芬 +4 more
doaj
ABSTRACT Engineering the semiconductor/dielectric interface is crucial for advancing two‐dimensional (2D) nanoelectronics, where device performance is predominantly governed by interfacial defects and dielectric coupling. Optoelectronic doping based on carrier trapping at the h‐BN/SiO2 interface has enabled non‐volatile and reversible carrier ...
Zhe Zhang +6 more
wiley +1 more source
为了更好地对直流输电线路进行环境评估,得到详细的合成电场分布,文中针对直流输电线下合成电场的逆问题进行了研究。通过建立逆问题模型与方程,采用主元加权—修正Newton法对方程求解,得到输电线路的模拟场源参数,精确的计算出了直流输电线下合成电场值。结果表明:该方法有效的解决了逆问题的病态性、收敛速度问题,只需要均匀测量8个点左右即可获得一个准确的线下电场强度分布情况。在环评过程中,可以减少大量的测量工作。
宋艳, 秦澔澔, 李阳阳
doaj
ABSTRACT Piezocatalysis has garnered unprecedented research enthusiasm for applications in energy and environmental fields, as it can harvest the tiny vibration energy from the natural environment and convert it into electrical energy to drive catalytic reactions.
Feixue Gao +9 more
wiley +1 more source
由雷击产生的雷电过电压通常会对风-光混合发电系统中的电气设备造成严重损害,为了减少雷电过电压对风-光混合发电系统造成的危害,文中对雷电过电压进行了深入研究。在分析雷击对风-光混合发电系统暂态影响的基础上,利用PSCAD/EMTDC软件搭建了风-光混合发电系统仿真模型,通过仿真模拟雷电流侵入风-光混合发电系统的光伏发电场直流侧与风力发电场侧,研究风-光混合发电系统不同位置雷电过电压的变化情况,得到首次负雷击和后续负雷击的雷电过电压及雷电流波形。
王婉婷
doaj
为了研究伞裙破损对双串复合绝缘子电场分布的影响,以FXBW4-35/70型复合绝缘子组合成的双串复合绝缘子为研究对象,利用COMSOL软件建立双串复合绝缘子空间物理模型并进行仿真分析,通过改变伞裙破损位置、面积及数量分析其对双串复合绝缘子电场分布影响。结果表明:受相邻绝缘子电场的影响,伞裙完好时高压端和低压端处伞裙上表面电场强度衰减缓慢,边缘位置场强为10 kV左右;当高压端和低压端位置处伞裙破损时,破损位置场强明显增大比完好时增大40%;伞裙破损面积越大表面电场畸变越严重 ...
王刚, 张鹏程, 张辉
doaj
基于Deutsch假设法同塔高压/特高压直流输电线路地面合成场强研究 [PDF]
采用Deutsch假设法,研究了不同组合架设方式下同塔双回高压/特高压直流输电线路地面合成场强的分布特性。结果表明:Deutsch假设计算结果与实测结果较吻合,适用于双回直流线路的预测。高压/特高压直流线路同塔双回架设时,因空间离子流场的相互影响,地面合成场强分布与塔型和导线布置方式有较大关系。±800 kV特高压直流线路位于上层、极导线采取+-/-+方式布置时,地面合成场强最大值相比采取-+/-+方式布置增加了17%;±800 kV特高压直流双极线路位于杆塔同一侧、极导线采取++/--方式布置时 ...
吕建红 +5 more
doaj +1 more source
Fermi Surface Structure Revealed by Quantum Oscillations in Half‐Heusler Semimetal LuAuSn
ABSTRACT The Fermi surface structure in the half‐Heusler semimetallic compound LuAuSn was systematically investigated using quantum oscillation studies of high‐quality single crystals and first‐principles calculations. Clear bulk quantum oscillation signals were observed for multiple complementary physical properties, including magnetization, Hall ...
Yue Lu +12 more
wiley +1 more source
ABSTRACT The development of sodium‐ion batteries (SIBs) is limited by slow charge transfer kinetics and large material volume changes caused by the large radius of Na+. Leveraging the excellent physicochemical properties and unique heterostructures of metal selenides, ultrafine hetero‐CuFeSe2‐CoSe2 nanoparticles are in situ wrapped by ...
Ying Zhu +5 more
wiley +1 more source

