Results 21 to 30 of about 7,959 (119)

Rapid construction of insect–plant interaction networks via multiplexed long‐fragment DNA metabarcoding and NGS

open access: yesMethods in Ecology and Evolution, Volume 17, Issue 6, Page 1896-1909, June 2026.
Abstract Molecular identification of insect food webs can accurately reveal complex trophic interactions and serve as a foundation for understanding ecosystem functioning and advancing biodiversity conservation. This process typically involves DNA library construction, high‐throughput sequencing and subsequent steps, including data assembly, annotation,
Xiao‐man Zhang   +9 more
wiley   +1 more source

基于人工智能的故障限流器EMTP建模

open access: yesGaoya dianqi, 2021
电网规模日趋扩大,电网短路水平不断攀升,安装限流器是一种经济可行的限流措施。文中基于大数据手段与行业通用的EMTP电磁暂态仿真方法,提出一种符合实际情况的快速开关型故障限流器电磁暂态仿真建模方法。给定时间步长,对快速开关式故障限流器内部元件的电磁暂态过程进行时域差分离散化,形成适用于EMTP电磁暂态仿真的伴随电路的形式。通过对大量的限流器的试验数据以及电力系统各种限流场景下的运行数据进行大数据特征分析,结合快速开关型故障限流器固有参数与结构特征,形成描述限流器电磁暂态过程的相关特征序列 ...
王俊生   +6 more
doaj  

A Dual‐Function Mitochondria‐Targeted Polyoxometalate Nanomicelle Boosts Pyroptosis‐Dependent Antitumor Immune Response in Triple‐Negative Breast Cancer

open access: yesRare Metals, Volume 45, Issue 5, May 2026.
ABSTRACT The efficacy of immunotherapy in triple‐negative breast cancer (TNBC) is often limited, whereas the immunotherapeutic potential of pyroptosis is frequently undermined by a compensatory surge in mitophagy. To address this challenge, this study developed a reactive oxygen species (ROS)‐responsive and mitochondria‐targeted nanomicelle (POM@CTT ...
Qingqing Dou   +6 more
wiley   +1 more source

快速接地开关操动机构驱动弹簧优化设计

open access: yesGaoya dianqi, 2018
快速接地开关作为高压开关电器设备的重要模块,通常采用弹簧操动机构作为其驱动装置,降低机构驱动弹簧操作功,能够有效地减小传动系统所受的冲击载荷,对提高快速接地开关稳定性和可靠性具有重要意义。笔者通过建立快速接地开关三维模型,开展动力学仿真计算,对仿真数据进行分析,发现了驱动弹簧关键参数与快速接地开关合闸速度之间的对应关系,提出了一种驱动弹簧的优化设计方法,并通过样机试验验证了该方法的可行性。试验结果表明,该方法设计的驱动弹簧,既能满足合闸速度要求,又可实现驱动弹簧操作功最小化。
郭良超, 杜迎乾, 雷琴, 宋超
doaj  

快速真空断路器分闸速度对短路电流开断燃弧时间窗口的影响

open access: yesGaoya dianqi, 2020
快速真空断路器由于其具有分闸时间短、分散性低等优势,便于电力系统短路故障选相快速开断的实现。然而,现阶段关于快速真空断路器短路电流可靠开断燃弧时间区间的研究仍属空白。文中目标旨在研究快速真空断路器分闸速度对其可靠开断的燃弧时间区间的影响。实验采用直径为58 mm、材料为CuCr50的平板触头。快速真空断路器分闸速度分别设置为2.5、3.5、4.5 m/s。实验依据国家标准GB/T 1984—2014关于40.5 kV T100s(b)试验方式进行。结果显示,随着快速真空断路器分闸速度的提升 ...
艾绍贵   +7 more
doaj  

快速真空开关电磁斥力机构瞬态动力学研究

open access: yesGaoya dianqi, 2022
电磁斥力机构由于其分闸速度快,分闸时间短和分闸时间分散性低等优势,配备于快速真空开关,可极大地压缩电网故障的切除时间,当前受到了众多研究者的关注。文中的目的是研究配于快速真空开关的电磁斥力机构的暂态动力学特性。文中提出了一种新型的全耦合仿真方法,该方法耦合了柔体动力学模块、外电路模块、运动方程、多体动力学模块、瞬变电磁场和疲劳分析模块的求解过程,可对电磁斥力机构的暂态动力学特性进行全面评估。通过仿真计算了各零部件在分合闸过程中的速度、行程曲线、放电电流、洛伦兹力和应力应变等动态特性 ...
王蕾   +7 more
doaj  

Progress and Prospects of Rare Metal‐Based Electrochemiluminescence Sensors for Detection of Water Environmental Pollutants

open access: yesRare Metals, Volume 45, Issue 5, May 2026.
ABSTRACT Water pollution is becoming increasingly severe, posing a serious hazard to human health and ecological security. Therefore, it is necessary to develop rapid, sensitive, and universal analytical methods to detect residual pollutants in actual water.
Yi Xing   +4 more
wiley   +1 more source

多断口真空快速隔离开关试验研究

open access: yesGaoya dianqi, 2018
快速隔离开关是混合式直流断路器的关键部件之一,其分合闸时间在数毫秒以内的,常规断路器难以提供如此快速的操作速度。文中在借鉴已有真空开关研制经验的基础上,从分析直流快速隔离开关的需求入手,重点对真空小间隙应用在直流隔离、无弧分断场合的情况进行有针对性的系列试验,同时借助试验和理论分析,解决了多断口均压问题,使中压真空开关得以扩展到高压直流隔离开关应用领域。研制出一台分闸速度小于3 ms的200 k V直流快速隔离开关,且该方案具有易于向高压扩充的优势,能满足混合式直流断路器的应用需求。
刘彬   +4 more
doaj  

基于最大奇异值能量熵和随机森林的真空快速开关机械故障诊断

open access: yesGaoya dianqi, 2023
针对电磁斥力机构真空快速开关的机械状态监测问题,提出了一种最大奇异值能量熵(energy entropy of maximum singular value,EEMSE)和随机森林的故障诊断方法。首先,在真空快速开关中采集振动信号,对振动信号进行改进S变换得到模矩阵,随后对该矩阵的子矩阵进行奇异值分解,再利用信息熵理论对最大奇异值求熵得到特征向量,最后将特征向量输入随机森林模型进行故障分类和诊断。与不同特征量和分类器比较后的结果表明,文中提出的真空快速开关机械故障诊断方法特征一致性好,模型诊断速度较快 ...
张宇   +6 more
doaj  

Multiobjective Optimization‐Driven Design of Novel Zn Alloys Exhibiting Synergistic Enhancement of Strength and Ductility via NSGA‐III

open access: yesRare Metals, Volume 45, Issue 5, May 2026.
ABSTRACT With excellent castability and dimensional stability, Zn alloys are widely used in the automotive and electronic industries. However, the inherent trade‐off between strength and ductility remains a key bottleneck limiting their application in high‐performance fields.
Jianxing Zhou   +11 more
wiley   +1 more source

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