Correlation of work function and stacking fault energy through Kelvin probe force microscopy and nanohardness in diluteα-magnesium

Electronic interactions of the Group 2A elements with magnesium have been studied through the dilute solid solutions in binary Mg-Ca,Mg-Sr and Mg-Ba systems.This investigation incorporated the difference in the‘Work Function'(ΔWF)measured via Kelvin Probe Force Microscopy(KPFM),as a property directly affected by interatomic bond types,i.e.the electronic structure,nanoindentation measurements,and Stacking Fault Energy values reported in the literature.It was shown that the nano-hardness of the solid-solutionα-Mg phase changed in the order of Mg-Ca>Mg-Sr>Mg-Ba.Thus,it was shown,by also considering the nano-hardness levels,that SFE of a solid-solution is closely correlated with its‘Work Function'level.Nano-hardness measurements on the eutectics andΔWF difference between eutectic phases enabled an assessment of the relative bond strength and the pertinent electronic structures of the eutectics in the three alloys.Correlation withΔWF and at least qualitative verification of those computed SFE values with some experimental measurement techniques were considered important as those computational methods are based on zero Kelvin degree,relatively simple atomic models and a number of assumptions.As asserted by this investigation,if the results of measurement techniques can be qualitatively correlated with those of the computational methods,it can be possible to evaluate the electronic structures in alloys,starting from binary systems,going to ternary and then multi-elemental systems.Our investigation has shown that such a qualitative correlation is possible.After all,the SFE values are not treated as absolute values but rather become essential in comparative investigations when assessing the influences of alloying elements at a fundamental level,that is,free electron density distributions.Our study indicated that the principles of‘electronic metallurgy'in developing multi-elemental alloy systems can be followed via practical experimental methods,i.e.ΔWF measurements using KPFM and nanoindentation.

Fault Detection and Recovery for Full Range of Hydrogen Sensor Based on Relevance Vector Machine

In order to improve the reliability of hydrogen sensor,a novel strategy for full range of hydrogen sensor fault detection and recovery is proposed in this paper. Three kinds of sensors are integrated to realize the measurement for full range of hydrogen concentration based on relevance vector machine( RVM). Failure detection of hydrogen sensor is carried out by using the variance detection method. When a sensor fault is detected,the other fault-free sensors can recover the fault data in real-time by using RVM predictor accounting for the relevance of sensor data. Analysis,together with both simulated and experimental results,a full-range hydrogen detection and hydrogen sensor self-validating experiment is presented to demonstrate that the proposed strategy is superior at accuracy and runtime compared with the conventional methods. Results show that the proposed methodology provides a better solution to the full range of hydrogen detection and the reliability improvement of hydrogen sensor.

Research on Asymmetric Fault Location of Wind Farm Collection System Based on Compressed Sensing

Aiming at the problem that most of the cables in the power collection systemof offshore wind farms are buried deep in the seabed,whichmakes it difficult to detect faults,this paper proposes a two-step fault location method based on compressed sensing and ranging equation.The first step is to determine the fault zone through compressed sensing,and improve the datameasurement,dictionary design and algorithmreconstruction:Firstly,the phase-locked loop trigonometric functionmethod is used to suppress the spike phenomenon when extracting the fault voltage,so that the extracted voltage valuewillnot have a large error due to the voltage fluctuation.Secondly,theλ-NIM dictionary is designed by using the node impedancematrix and the fault location coefficient to further reduce the influence of pseudo-fault points.Finally,the CoSaMP algorithmis improved with the generalized Jaccard coefficient to improve the reconstruction accuracy.The second step is to use the ranging equation to accurately locate the asymmetric fault of the wind farm collection system on the basis of determining the fault interval.The simulation results show that the proposedmethod ismore accurate than the compressedsensingmethod andimpedancemethod in fault section location and fault location accuracy,the relative error is reduced from 0.75%to 0.4%,and has a certain anti-noise ability.

某线震后轨道设计方案研究

2022年1月8日门源发生6.9级地震,造成某线隧道二衬坍塌、桥梁梁体移位、接触网脱落等基础、设备严重损坏,并伴随钢轨折断、扣件脱落、道床倾斜等轨道震害,是我国高速铁路首次遭遇的强震作用下严重受灾事件。结合震后预测余滑变形量水平150~300 mm,垂向100 mm条件下,在设防区段提出一种“三孔连体套管承轨台可调式WJ-8型扣件+长枕埋入式单层道床预留切割孔”新型大调整量无砟轨道结构方案。其中,三孔连体套管承轨台可调式WJ-8型扣件在既有WJ-8型扣件基础上通过增设铁承轨台、调距块和三联套管等部件可满足单股钢轨左右位置调整量达152 mm,长枕埋入式单层道床中预留切割孔,便于在基础变形超出扣件调整范围后切割纠偏;通过对余滑变形后线路拟合获得拨距包络图,确定了大调整量无砟轨道铺设范围。

断块油藏注采耦合提高采收率机理及矿场实践

针对渤海湾盆地济阳坳陷东营凹陷古近系断块油藏水驱开发后期流线固定导致注入水无效循环的问题,基于渗流力学和油藏工程原理,通过室内物模模拟和油藏数值模拟,提出了“细分开发层系、轮注轮采”的注采耦合开发调整技术,并验证了该技术可提高采收率的原理。研究结果表明:(1)利用注采耦合开发技术建立的“注入期间的高渗通道与低渗通道吸水量比模型”和“采油期间主流线和非主流线产油量比模型”均揭示了“改变压力场促进渗流场调整,实现均匀注入和均匀采出,扩大水驱波及系数和增加驱油效率”的注采耦合渗流力学机制。(2)注采耦合技术可以实现“扩大波及系数、增加驱油效率”,起到类似“调剖”的作用,高含水期通过此项技术可将低渗透岩心的分流率由1.0%提到18.6%,模型驱替更均衡;经过2个轮次的注采耦合调整,高、低渗透岩心的原油采收率分别提高了10.3%和16.1%。(3)研究区D断块古近系沙河街组沙二段Es236含油小层油藏注采耦合开发数值模拟结果显示,主流线和非主流线驱替更均匀,两者压力梯度极差由2.3下降至1.4。经过3个轮次注采耦合开发调整,沙二段3—6砂层组油藏平均综合含水率下降了3.2%,累计增油1 760 t,提高原油采收率2.1%,增油降水效果显著。

基于最小二乘法的变电站故障录波测距系统设计

当前,变电站故障区域受录波器性能的影响,阻抗值获取难度较大,导致故障区域测距效率较低。为提高变电站故障区域的测距效率、确保变电站的供电稳定,设计了基于最小二乘法的变电站故障录波测距系统。在系统硬件部分,采用分布式的电力故障录波器装置,收集变电站电力数据,利用以太网后台机完成数据传输。在系统软件部分,凭借最小二乘法计算模拟量通道的变比参数,校正电力录波装置通道间的相位误差,以提高录波器模拟量的测量精度。通过故障相电流差与相电压差获得阻抗值结果,计算出变电站故障录波的准确距离。试验结果表明:所设计系统的步角误差与测距误差均较小,故障录波测距误差降到了1%以内。该系统可以有效完成变电站故障点的精准定位,具有较高的参考价值。

网压故障下光储系统安全域及控制策略研究

电网侧电压发生不对称跌落时,为保证光储系统的并网安全,基于逆变器运行约束构建安全运行域,并提出输出控制策略。阐述正、负序分离的控制原理,在满足并网标准规定的无功电流基础上,以相电流幅值、相电压幅值和有功波动幅值为约束,构建各工况下的安全运行域;提出正、负序有功电流固定比例控制和最大化输出有功控制策略,满足并网要求且提升系统的稳定性。基于Matlab/Simulink仿真平台,构建光储系统仿真模型,验证所提策略的有效性。

输电网故障时新能源并网点电压跌落及影响范围计算方法

为了应对当前电网安全稳定分析无法评估输电网故障对新能源影响的问题,提出一种输电网故障时新能源并网点电压跌落及影响范围计算方法。以220 kV节点为界,考虑新能源电流输出特性的影响,完善故障计算模型,并计算220 kV节点故障电压。基于计算结果,提取新能源接入中低压电网的典型场景,并细化分析计算故障时刻新能源并网点电压及其与故障点的电气距离。最后,基于修正的39节点标准测试系统,通过与传统故障计算和时域仿真结果对比分析对所提方法进行验证,研究结果表明:采用所提方法的故障电压计算偏差范围为-4.82%~0.6%,能够准确地评估输电网故障对新能源的影响,可以进一步为新能源运行规划和控制策略优化提供指导。

穿越断层破碎带隧道超前注浆加固效果分析

为研究断层破碎带超前注浆加固机理,以阳宗隧道穿越多条断层破碎带实际工程为依托,运用FLAC3D软件建立穿越断层破碎带三维数值模型,研究不同厚度、不同注浆范围的超前小导管注浆加固对断层破碎带围岩的控制效果。研究结果表明:1)注浆加固层厚度的增大对隧道竖向位移,尤其是对隧道拱顶沉降的控制效果明显,对隧道围岩水平位移的控制亦有效果,但效果稍差。当采用1.5 m注浆加固层厚度时,隧道拱顶最大沉降和围岩最大水平位移分别降低了26.96%、16.03%。2)随着超前小导管注浆范围的扩大,隧道围岩水平位移的控制效果明显变得更好,竖向位移的控制效果变化不大。当采用150°的注浆范围时,隧道拱顶最大沉降和围岩最大水平位移分别降低了26.62%、22.80%。3)采用超前小导管注浆加固,增强了断层破碎带围岩的强度,控制了软弱围岩的变形量,使围岩整体稳定性得到有效提高。该研究成果为隧道现场施工提供了依据,对类似隧道施工具有一定的借鉴意义。

基于小波分析的10 kV配网线路单端故障定位方法

为准确定位10 kV配网线路单端故障,研究了基于小波分析的10 kV配网线路单端故障定位方法。求解小波基向量,联合DTW选线表达式,完善小波变换机制;定义电量波动方程,完成10 kV配网线路的行波过程分析。按照单端测距参数的取值范围,计算模故障分量与定位选相指标的具体数值,实现基于小波分析的10 kV配网线路单端故障定位方法的设计。测试结果表明,该方法的应用可使相电压检测数值始终保持在端电压的数值范围之内,且不会出现检测电压与端电压极为接近的情况,解决了10 kV配网线路故障准确定位的问题。

基于数据中台的输电线路故障状态自动检测方法

为实现对输电线路故障的及时感知,引进数据中台,设计了一种针对输电线路的故障状态自动检测方法。首先,自动巡检与在线监控输电线路;然后,利用数据中台中的空间向量模型进行集成数据的向量化处理,以实现输电线路巡检采样数据的分类;最后,计算线路输电过程中的多端暂态行波,以此为依据,完成输电线路故障状态的辨识与故障点测距。结果表明,该设计方法可精准检测输电线路存在的故障点,实现对线路故障状态的自动检测。

基于某车型组合仪表黑屏分析及改进

为深入剖析某车型组合仪表黑屏问题的根源,提升组合仪表品质提供解决方案。文章针对某车型组合仪表黑屏问题展开分析,通过对问题现象、原因进行排查,快速定位问题,提升产品品质。针对改进方案软件进行实车验证,最终达到预期效果,证明改进方案有效可行。为其他车型平台同类问题的技术攻关提供了思路与借鉴,也为后续新车型组合仪表的开发提供经验教训,避免重复问题再次发生。

电子战有源相控阵适度降级分析

电子战有源相控阵通常由数十至数百阵元构成,这意味着需要同样数量的有源通道来支撑有源相控阵的正常工作,因此故障阵元必然会影响有源相控阵性能。通过合理可靠性设计可以使相控阵在存在故障阵元的情况下依然保证高效工作,即适度降级。首先,讨论了有源相控阵可靠性建模方法;随后,基于阵列理论分析了不同故障率及故障分布下相控阵性能降级情况;最后,讨论了阵元故障与干扰作用距离及侦察作用距离的定量关系。通过上述分析,一方面,可以依据适度降级标准快速评估可靠性要求,使有源相控阵在系统允许的适度降级条件下仍能正常工作且最终寿命不受影响;另一方面,在实际使用中可通过阵列自检信息,快速评估效能降级情况,具有较好的现实意义。

一种宽输入范围高侧保护控制器电路设计

为满足复杂应用环境下对负载提出的严苛要求,设计一种具有宽输入范围的高侧保护控制器电路,可在正常开/关转换和故障条件下实现对高侧NMOSFET的智能控制。电路采用0.18μm 120 V BCD工艺设计,输入电压工作范围为5.5 V至65 V。在电路芯片中加入保护电路,对上电复位、过压、欠压等进行保护;以振荡器、电荷泵、故障比较器等构成控制电路;为防止芯片误触发关断外部NMOSFET,设计加入故障触发延迟时间电路。仿真结果表明,该电路芯片能够在标准输入电压范围内正常工作,栅源电压大于10.5 V,达到预期设计要求。

弱电设备远距离供电探讨

针对离电源点较远的弱电设备取电较难、供电距离较长的问题,结合宽电压输入范围直流电源的实际电压输入需求、规范要求的电压降范围,在满足接地故障保护、短路保护等要求的前提下,进行计算和分析,提出远距离场所弱电设备低压供电距离的观点。

Slip Rate of Yema River–Daxue Mountain Fault since the Late Pleistocene and Its Implications on the Deformation of the Northeastern Margin of the Tibetan Plateau

The slip rate of Yema River-Daxue Mountain fault in the western segment of Qilian Mountains was determined by the dated offset of river risers or gullies. Results indicate that the left-lateral fault slip rate is 2.82± 0.20 mm/a at Dazangdele site, 2.00 ± 0.24 mm/a at Shibandun site, and 0.50± 0.36 and 2.80±0.33 mm/a at two sites in Zhazihu. The ideal average slip rate of the whole fault is 2.81 ± 0.32 mm/a. The lower slip rate confirms part of the displacement of Altyn Tagh fault was transformed into an uplifting of the strap mountains in the western segment of Qilian Mountains, whereas another part transformed into sinistral displacement of Haiyuan fault. This study illustrates that the slip of large strike-slip faults in the northeastern margin of the plateau transforms into crust thickening at the tip of the fault without large-scale propagation to the outer parts of the plateau.

基于改进层次极差熵和WOA-ELM的滚动轴承故障识别

由于传统的多尺度熵特征提取方法无法提取信号的高频故障特征,造成特征的提取不够完整,故障识别准确率也较低。为此,提出了一种基于改进层次极差熵(IHRE)和鲸鱼算法(WOA)优化极限学习机(ELM)的滚动轴承故障诊断策略。首先,基于改进的层次分析和极差熵,提出了可以同时分析滚动轴承振动信号低频和高频成分的IHRE时间序列复杂性测量方法,并将其用于提取滚动轴承振动信号的深层次故障特征;然后,采用鲸鱼算法对极限学习机的核心参数进行了优化,构建了网络结构最优的鲸鱼算法—极限学习机(WOA-ELM)分类器;最后,将所构建的IHRE故障特征输入至WOA-ELM分类器,进行了故障分类,对滚动轴承进行了故障识别;基于滚动轴承的实验数据进行了算法的有效性分析,并从多个维度进行了对比,进行了算法优越性分析。研究结果表明:IHRE方法的故障识别准确率最高,达到了100%,而多次实验的平均识别准确率也达到了99.82%,优于改进层次样本熵、层次极差熵和多尺度极差熵方法;在分类时间和分类准确率方面,WOA-ELM分类模型要优于PSO-ELM和GA-ELM分类器。该结果证明,基于IHRE和WOA-ELM的故障诊断策略能够快速且有效地识别滚动轴承的故障类型,具有应用的潜力。

西藏阿里阿鲁错地堑系的第四纪活动性、最新同震地表破裂及其地震地质意义

藏北高原非常薄弱的活断层调查程度和不完整的历史地震资料等,限制了对青藏高原内部活动构造的变形机制及强震活动特征等问题的深入认识。文中通过综合地质、遥感和地震等资料对阿里北部进行详细的活断层解译,重点对阿鲁错地堑系南段昆楚克错地堑西侧边界正断层的第四纪活动性、新发现的最新同震地表破裂及其震级与形成时间等进行了深入分析。研究结果表明,阿里北部第四纪期间以近EW向伸展变形为主,发育了以近SN向正断层和由NW向与NE向走滑断层构成的共轭走滑断层为主的高密度活断层系统。沿昆楚克错地堑西缘主边界正断层新发现的最新同震地表破裂整体沿NNW向雁列展布,总长约400m,最大垂直位移约0.8m,平均垂直位移为0.3~0.4m。结合历史地震记录和经典的“地表破裂位移与震级”统计关系式推断,该破裂应是震源深度为35km的1955年革吉县纳屋错东M_(W)6.5强震事件的结果。综合该地表破裂的发育特点推断,震源深度对地表破裂参数存在显著影响,震源偏深时的地表破裂长度可远小于震源破裂的最大长度,表明在活断层的地震复发模式研究中应注意随机性较强的断层局部破裂行为或小位移破裂事件。

应用于环形电网故障定位的新型双端行波测距法

对环形电网的故障进行快速准确定位是电网稳定运行的重要保障。对环形电网故障行波特征进行分析,通过小波变换结合新型行波双端测距法,对故障行波进行定位分析。采用仿真分析软件搭建环形电网模型,利用故障时三相电流行波的模值特征判别故障类型,确定故障最终位置。仿真结果显示,新型行波双端测距法相较于传统故障行波分析法降低了对波速的依赖,且不受线路参数变化的影响,减小了故障测距的误差,提高了环形电网中故障点定位的准确性。