A spatiotemporal evolution model of a short-circuit arc to a secondary arc based on the improved charge simulation method

The initial shape of the secondary arc considerably influences its subsequent shape.To establish the model for the arcing time of the secondary arc and modify the single-phase reclosing sequence,theoretical and experimental analysis of the evolution process of the short-circuit arc to the secondary arc is critical.In this study,an improved charge simulation method was used to develop the internal-space electric-field model of the short-circuit arc.The intensity of the electric field was used as an independent variable to describe the initial shape of the secondary arc.A secondary arc evolution model was developed based on this model.Moreover,the accuracy of the model was evaluated by comparison with physical experimental results.When the secondary arc current increased,the arcing time and dispersion increased.There is an overall trend of increasing arc length with increasing arcing time.Nevertheless,there is a reduction in arc length during arc ignition due to short circuits between the arc columns.Furthermore,the arcing time decreased in the range of 0°-90°as the angle between the wind direction and the x-axis increased.This work investigated the method by which short-circuit arcs evolve into secondary arcs.The results can be used to develop the secondary arc evolution model and to provide both a technical and theoretical basis for secondary arc suppression.

Optimization of short-circuit transition parameters of Q235B steel GMAW based on orthogonal gray relational analysis

In gas metal arc welding(GMAW)process,the short-circuit transition was the most typical transition observed in molten metal droplets.This paper used orthogonal tests to explore the coupling effect law of welding process parameters on the quality of weld forming under short-circuit transition,the design of 3 factors and 3 levels of a total of 9 groups of orthogonal tests,welding current,welding voltage,welding speed as input parameters:effective area ratio,humps,actual linear power density,aspect ratio,Vickers hardness as output paramet-ers(response targets).Using range analysis and trend charts,we can visually depict the relationship between input parameters and a single output parameter,ultimately determining the optimal process parameters that impact the single output index.Then combined with gray the-ory to transform the three response targets into a single gray relational grade(GRG)for analysis,the optimal combination of the weld mor-phology parameters as follows:welding current 100 A,welding voltage 25 V,welding speed 30 cm/min.Finally,validation experiments were conducted,and the results showed that the error between the gray relational grade and the predicted value was 2.74%.It was observed that the effective area ratio of the response target significantly improved,validating the reliability of the orthogonal gray relational method.

Partitioning Calculation Method of Short-Circuit Current for High Proportion DG Access to Distribution Network

Aiming at the problemthat the traditional short-circuit current calculationmethod is not applicable to Distributed Generation(DG)accessing the distribution network,the paper proposes a short-circuit current partitioning calculation method considering the degree of voltage drop at the grid-connected point of DG.Firstly,the output characteristics of DG in the process of low voltage ride through are analyzed,and the equivalent output model of DG in the fault state is obtained.Secondly,by studying the network voltage distribution law after fault in distribution networks under different DG penetration rates,the degree of voltage drop at the grid-connected point of DG is used as a partition index to partition the distribution network.Then,iterative computation is performed within each partition,and data are transferred between partitions through split nodes to realize the fast partition calculation of short-circuit current for high proportion DG access to distribution network,which solves the problems of long iteration time and large calculation error of traditional short-circuit current.Finally,a 62-node real distribution network model containing a high proportion of DG access is constructed onMATLAB/Simulink,and the simulation verifies the effectiveness of the short-circuit current partitioning calculation method proposed in the paper,and its calculation speed is improved by 48.35%compared with the global iteration method.

Determination of failure degree of 1.2 kV SiC MOSFETs after short-circuit test using an improved test setup

Analysis of the short-circuit characteristics of SiC metal-oxide-semiconductor field-effect transistors(MOSFETs)is very important for their practical application.This paper studies the SiC MOSFET short-circuit characteristics with an improved test setup under different conditions.A high-current Si insulated gate bipolar transistor is used as a circuit breaker in the test circuit rather than the usual short-circuit test conducted without a circuit breaker.The test platform with a circuit breaker does not influence the calculation results regarding the shortcircuitwithstand time and energy,but the SiCMOSFETwill switch off after failure in a very short time.In addition,the degree of failure will be limited and confined to a small area,such that the damage to the chip will be clearly observable,which is significant for short-circuit failure analysis.

Stability analysis of CO_(2)gas shielded welding short-circuit transition process based on GMAW dynamic model

Base on the arc phase and short-circuit phase and their relationship, the paper considers the changes of the extension of wire, the arc length, liquid bridge resistance and mass of liquid bridge, combines the improved “mass-spring” model with the loop model of welding power system, puts forward the critical judgment condition of droplet transition, and establishes a more accurate dynamic model for describing the short-circuit transition process. The dynamic changes of short-circuit transfer frequency, welding current and voltage, contact droplet and residual droplet equivalent radius and droplet equivalent radius at different wire feeding speeds were calculated and analyzed, and compared with the experimental results. It shows that the fluctuation of droplet displacement, velocity and wire extension length at the optimal arc starting point is the smallest. The smaller the initial liquid bridge curvature radius is, the better the stability of short-circuit transfer is.

Research on Inter-turn Short-circuit Fault Diagnosis Method Based on High Frequency Voltage Residual for PMSM

Inter-turn fault is a serious stator winding short-circuit fault of permanent magnet synchronous machine(PMSM). Once it occurs, it produces a huge short-circuit current that poses a great risk to the safe operation of PMSM. Thus, an inter-turn short-circuit fault(ITSCF) diagnosis method based on high frequency(HF) voltage residual is proposed in this paper with proper HF signal injection. First, the analytical models of PMSM after the ITSCF are deduced. Based on the model, the voltage residual at low frequency(LF) and HF can be obtained. It is revealed that the HF voltage residual has a stronger ITSCF detection capability compared to the LF voltage residual. To obtain optimal fault signature, a 3-phase symmetrical HF voltage is injected into the machine drive system, and the HF voltage residuals are extracted. The fault indicator is defined as the standard deviation of the 3-phase HF voltage residuals. The effectiveness of the proposed ITSCF diagnosis method is verified by experiments on a triple 3-phase PMSM. It is worth noting that no extra hardware equipment is required to implement the proposed method.

工科院校大学生挂科现象解析及对策——以农业水利工程专业为例

工科院校大学生挂科现象广泛存在,不仅影响高校教育质量,也影响学生发展前景,是当前高校管理面临的重要问题之一。以农业水利工程专业为例,结合工程教育专业认证需求,从工科的学科特点、课程体系特征、学习环境变化、学生学情分析、学生管理制度等角度分析工科大学生挂科现象及原因,并基于以上影响因素结合教学实践经验提出相关对策和建议,可为相关教学改革和防止挂科等学生管理工作提供参考,以利于工科院校和大学生从不同角度采取相应的措施来防止挂科。

失效航天器接管控制技术发展综述

失效航天器接管控制对于实现航天器的在轨延寿、避免有效载荷的浪费、实现有限轨道资源的占位再生和维护太空安全意义重大。本文在系统分析各类失效航天器接管控制手段特征的基础上,按照接管控制过程中是否发生接触现象,将接管控制分为接触式和非接触式两类。随后介绍了各类接管控制手段的特点,归纳了航天器接管控制任务中涉及的关键技术,给出了未来航天器接管控制的智能化和自主化发展方向。本文有望为未来开展失效航天器接管控制任务提供技术参考和依据。

压水堆破口事故下裂变产物源项释放及衰变热分析

反应堆严重事故时堆芯发生熔化现象,导致部分放射性源项不再留存于燃料中,将会通过各种途径释入环境,对周围造成严重的放射性污染。为了研究不同模型下裂变产物在压力容器内外释放量及其衰变热分布,分析喷淋系统对控制源项释放及热量的影响。基于典型的百万千瓦级压水堆核电站模型,利用一体化安全分析程序MAAP建模,分析计算CORSOR-M、CORSOR-O和ORNL-BOOTH三种源项释放模型反应堆一回路热管段破口叠加高、低压安注失效的事故序列和后果。结果表明:裂变产物源项主要在压力容器内释放,释放量远多于压力容器外的释放量。CORSOR-O模型下压力容器最晚融穿,安全壳失效最早;ORNL-BOOTH中压力容器虽最先融穿,但安全壳失效远晚于其他两种模型。源项释放差异导致不同模型衰变热现象不同,主要热源皆为挥发性裂变产物。开启喷淋不仅可以使悬浮碘化物充分控制在安全壳内,还能有效带走源项产生的衰变热,降低安全壳压力,保证安全壳完整性。

基于条件生成对抗网络的无线传感网络多节点失效修复研究

当前主流的传感节点失效修复主要通过纠删码完成,修复后节点具有更高的空间利用率,但无法有效提升网络寿命。为此,提出基于条件生成对抗网络的无线传感网络多节点数据重构方法,完成失效修复。感知无线传感网络节点,对失效节点展开裁决,确定失效节点位置,并重构节点内数据;将获取的失效节点用于条件生成对抗网络(CGAN)框架中生成器与节点替换网络的训练,通过训练好的生成器,以失效节点为条件,生成未失效节点;为提升修复性能,使用粒子群算法寻优节点替换网络参数,完成节点重构数据置换,实现失效节点的有效修复。结果表明:利用所提方法进行修复时,能耗最高仅为17 J,剩余寿命最低可达到300 h,连通度最高可达到99.2%,具有较好的修复效果。

基于“脾气散精”理论探讨慢性肝病的中医治疗

慢性肝病的发病与脾密切相关,“脾气散精”是《黄帝内经》对脾功能的高度概括,脾气散精功能障碍贯穿慢性肝病始终,脾失运化,生湿生痰,瘀血阻络为慢性肝病进展的关键因素。治疗时应将健脾作为慢性肝病的基本治法之一,并根据脾运的不同状态,配合运脾、醒脾、温脾等不同治法,以复脾气散精之能,病程中尤应抓住瘀血络阻这一关键病机,活血化瘀通络,防止慢性肝病进一步向肝积、鼓胀发展,使脾运得复,瘀阻得除,标本兼治。

经导管二尖瓣置换术与二次手术二尖瓣置换术疗效对比的荟萃分析

目的比较经导管二尖瓣置换术(TMVR)与二次手术二尖瓣置换术(redo SMVR)对二尖瓣生物瓣衰败或成形环失效患者的疗效。方法计算机检索PubMed、The Cochrane Library、Web of Science、Embase、中国知网(CNKI)、维普(VIP)、万方和中国生物医学文献数据库(CBM),检索时限为建库至2023年8月,检索有关TMVR对比redo SMVR对二尖瓣生物瓣衰败或成形环失效患者临床疗效的随机对照试验和队列研究。按照纳入与排除标准筛选文献、提取资料和评价纳入研究质量,采用RevMan 5.3和Stata 14.0软件进行荟萃分析。结果最终纳入13项队列研究,共计14226例患者,其中TMVR患者3379例,redo SMVR患者10847例。荟萃分析结果显示,TMVR患者的术后院内死亡率(OR=0.76,95%CI:0.63~0.90,P=0.002)、院内脑血管事件(OR=0.48,95%CI:0.36~0.63,P<0.001)、院内出血事件(OR=0.24,95%CI:0.18~0.32,P<0.001)、院内急性肾损伤(OR=0.52,95%CI:0.45~0.60,P<0.001)、永久起搏器植入(OR=0.25,95%CI:0.18~0.35,P<0.001)、院内心原性休克(OR=0.49,95%CI:0.34~0.72,P<0.001)、主动脉内球囊反搏(OR=0.41,95%CI:0.19~0.91,P=0.030)、新发心房颤动(OR=0.22,95%CI:0.07~0.74,P=0.010)、手术时间(WMD=-225.88,95%CI:-283.56~-168.19,P<0.001)、重症监护室时间(WMD=-2.02,95%CI:-2.32~-1.72,P<0.001)、住院时间(WMD=-5.97,95%CI:-7.87~-4.06,P<0.001)均小于redo SMVR患者,而TMVR患者的1年二尖瓣平均跨瓣压(WMD=1.30,95%CI:0.76~1.84,P<0.001)高于redo SMVR患者,且TMVR和redo SMVR患者术后1年死亡率(OR=1.06,95%CI:0.70~1.61,P=0.770)、2年死亡率(OR=1.90,95%CI:0.98~3.66,P=0.060)比较,差异均无统计学意义。结论TMVR与redo SMVR相比,短期安全性更高,早期并发症较少,术后恢复更快,但术后1、2年死亡率无明显差异。

乌头碱配伍甘草次酸前后对衰竭心肌细胞影响的比较研究

目的比较乌头碱配伍甘草次酸前后对衰竭心肌细胞的影响。方法将H9c2细胞随机分为9组,即空白组,模型组,甘草次酸组,30、120、480μmol·L^(-1)乌头碱组,30μmol·L^(-1)联用组(30μmol·L^(-1)乌头碱+30μmol·L^(-1)甘草次酸)、120μmol·L^(-1)联用组(120μmol·L^(-1)乌头碱+30μmol·L^(-1)甘草次酸)、480μmol·L^(-1)联用组(480μmol·L^(-1)乌头碱+30μmol·L^(-1)甘草次酸)。除空白组外,各组均以阿霉素法构建衰竭H9c2心肌细胞模型。造模成功后,空白组和模型组给予DMEM,其余各组给予相应药物干预24 h。显微镜观察细胞形态和线粒体微观结构,CCK-8法测定细胞存活率,ELISA检测乳酸脱氢酶(lactate dehydrogenase,LDH)、Na+-K+-ATP酶、Ca^(2+)-ATP酶、Ca^(2+)-Mg^(2+)-ATP酶、超氧化物歧化酶(superoxide dismutase,SOD)、丙二醛(malondialdehyde,MDA)、过氧化氢酶(catalase,CAT)、谷胱甘肽(glutathione,GSH)、ATP,荧光探针法测定活性氧(reactive oxygen species,ROS)、膜电位、胞内及线粒体内Ca^(2+)浓度。蛋白免疫印迹法(western blot,WB)检测AMPK通路和CaMKⅡ通路蛋白。结果与模型组比较,120、480μmol·L^(-1)乌头碱降低细胞存活率,升高MDA含量(P<0.01);480μmol·L^(-1)乌头碱破坏线粒体结构;30、120、480μmol·L^(-1)乌头碱升高ROS含量,降低SOD、CAT、GSH酶活性,降低线粒体膜电位和ATP生成,升高胞内及线粒体内钙离子浓度,降低Na+-K+-ATP酶、Ca^(2+)-ATP酶、Ca^(2+)-Mg^(2+)-ATP酶活性(P<0.05或P<0.01);480μmol·L^(-1)乌头碱抑制AMPK磷酸化,降低SERCA2a和PGC-1α蛋白表达,促进RyR2蛋白表达(P<0.05或P<0.01)。与单用乌头碱比较,配伍甘草次酸改善其线粒体结构损伤,降低ROS含量,升高SOD、CAT、Na+-K+-ATP酶、Ca^(2+)-Mg^(2+)-ATP酶活性,降低胞内及线粒体内的钙离子浓度(P<0.05或P<0.01);30、120μmol·L^(-1)联用组升高线粒体膜电位(P<0.05或P<0.01);120、480μmol·L^(-1)联用组降低MDA含量,提高GSH、Ca^(2+)-ATP酶活性,升高ATP含量(P<0.05或P<0.01);480μmol·L^(-1)联用组可抑制CaMKⅡ磷酸化,升高PGC-1α蛋白表达(P<0.05或P<0.01)。结论甘草次酸可拮抗乌头碱对衰竭心肌细胞的线粒体毒性,作用环节可能与缓解氧化应激和钙超载,增加线粒体产能有关。

肥胖孕妇阴道试产失败中转剖宫产预测模型的建立

目的筛选肥胖孕妇阴道试产失败中转剖宫产(简称“中转剖”)的影响因素,构建预测模型。方法回顾性分析厦门大学附属妇女儿童医院2020年1月至2021年12月收治的164例肥胖孕妇为研究对象。采用单因素分析、多因素logistic回归分析筛选中转剖的影响因素,建立预测模型。利用受试者工作特征(ROC)曲线和Hosmer-Lemeshow检验模型预测性能。结果20.12%肥胖产妇发生中转剖。单因素分析表明,妊娠前身体质量指数(BMI)、临产前BMI、孕次、产次、缩宫素引产、胎儿宫内窘迫、巨大儿与中转剖有关(P<0.05)。多因素logistic回归分析表明临产前BMI、胎儿宫内窘迫是中转剖的独立危险因素(P<0.05),产次是保护因素(P<0.05)。曲线下面积(AUC)为0.797,95%CI为(0.760~0.888),有良好预测价值。通过HosmerLemeshow拟合优度检验结果显示模型的拟合程度较好(P>0.05)。结论本研究构建的预测模型具有一定的临床实用性,可为临床医护人员指导产妇选择恰当的分娩方式提供依据。

构网型储能与调相机的暂态过电压抑制能力对比研究

高压直流输电系统出现闭锁、换相失败等故障时,会引起送端换流站附近新能源电站的瞬时电压波动并易导致其脱网。首先,分析了构网型储能开环控制策略的运行原理、响应特性和关键参数影响。然后,分析了调相机的无功响应特性,并将构网型储能无功控制模型与调相机的励磁调节控制模型进行对比。最后,搭建了包含特高压直流、光伏、调相机、构网型储能的半实物仿真系统,进行了直流换相失败故障下的交流暂态过电压抑制效果对比试验。结果表明,容量相同的构网型储能和分布式调相机在无功瞬时响应速度、抑制交流暂态过电压能力方面可以实现相近的效果。

硬膜外粘连闭合松解器治疗腰椎手术失败综合征疗效及安全性评价

目的 观察计算机断层扫描(computed tomography,CT)引导下硬膜外粘连闭合松解器治疗腰椎手术失败综合征(failed back surgery syndrome,FBSS)的临床疗效及安全性。方法 选取解放军总医院第三医学中心骨科和康复医学科就诊的FBSS患者80例,根据随机数字表法分为治疗组和对照组,各40例。治疗组采用硬膜外粘连闭合松解器治疗,1次/周,第2次治疗在第1次治疗2周后进行,共治疗2次;对照组予低频治疗,每次30 min,3次/周,共治疗2周,治疗结束后对比两组疗效。治疗前和治疗后1个月、3个月、6个月采用视觉模拟评分法(visual analogue scale,VAS)、改良Oswestry功能障碍指数(Oswestry disability index,ODI)和健康调查简表(the MOS item short from health survey,SF-36)进行评定,同时填写不良事件表进行安全性研究。结果 治疗6个月后,两组患者VAS评分及ODI评分均较治疗前降低(P<0.01),且治疗组显著优于对照组(P<0.01);对于SF-36评分,治疗6个月后,除对照组情感职能维度外,两组各维度均较治疗前显著改善(P<0.01),且在生理功能维度治疗组改善优于对照组(P<0.05),其余各维度治疗组改善显著优于对照组(P<0.01)。研究过程中仅治疗组发生晕针1例,两组均无严重不良反应发生(P>0.05)。结论 CT引导下硬膜外粘连闭合松解器治疗FBSS疗效确切,不良事件发生率低,可显著减轻FBSS患者疼痛程度,改善功能障碍。

一种设计Fail-Stop协议的新方法

如何设计出满足安全需求的安全协议是一项非常重要的课题,目前尚无有效的方法。Fail-Stop协议在遭遇干扰其正常运行的主动攻击时完全停止。本文提出了一种设计Fail-Stop协议的新方法,分析了这种方法的正确性;分析了SSL协议早期版本的安全缺陷,并使用本方法对其进行了改进。

从脾肾关系探讨糖尿病肾病防治思路

糖尿病肾病是临床常见糖尿病并发症,为终末期肾病的主要病因。糖尿病肾病归属于中医学消渴病继发的水肿、尿浊等范畴,其病因为禀赋不足、饮食不节等,以多食、多饮、多尿和体质量减少、尿浊为主要表现,病机虚实错杂。基于脾肾相关理论探讨糖尿病肾病发生之病因病机,认为脾肾虚损、水津失制是该病发生的根本病机,多伴随脾肾两虚,或有水液代谢失常、血脉瘀滞。从健脾制水、温土制水、固本培元三个角度系统总结脾肾二脏在糖尿病临床辨治过程中的具体应用,以期为中医防治糖尿病肾病提供新的思路和借鉴。

基于GB 18401要求的进口纺织服装产品风险评价模型研究

本文基于国家强制性标准规定的纺织产品的基本质量安全指标,研究建立了对进口纺织服装产品质量安全风险进行量化分析的数学模型。通过实验室数据计算结果分析表明,单项目不合格因子(SIF)和综合质量安全风险值(CRV)两个指标,能够从产品本身质量方面比较客观准确地反映产品的质量安全风险问题,为国家相关部门开展对进口纺织服装产品的监管和风险监测提供可靠的决策参考数据。

Thermal runaway evolution of a 280 Ah lithium-ion battery with LiFePO_(4) as the cathode for different heat transfer modes constructed by mechanical abuse

Lithium iron phosphate batteries have been increasingly utilized in recent years because their higher safety performance can improve the increasing trend of recurring thermal runaway accidents.However,the safety performance and mechanism of high-capacity lithium iron phosphate batteries under internal short-circuit challenges remain to be explored.This work analyzes the thermal runaway evolution of high-capacity LiFePO_(4) batteries under different internal heat transfer modes,which are controlled by different penetration modes.Two penetration cases involving complete penetration and incomplete penetration were detected during the test,and two modes were performed incorporating nails that either remained or were removed after penetration to comprehensively reveal the thermal runaway mechanism.A theoretical model of microcircuits and internal heat conduction is also established.The results indicated three thermal runaway evolution processes for high-capacity batteries,which corresponded to the experimental results of thermal equilibrium,single thermal runaway,and two thermal runaway events.The difference in heat distribution in the three phenomena is determined based on the microstructure and material structure near the pinhole.By controlling the heat dissipation conditions,the time interval between two thermal runaway events can be delayed from 558 to 1417 s,accompanied by a decrease in the concentration of in-situ gas production during the second thermal runaway event.