Safety and effectiveness of neuromuscular electrical stimulation in cardiac surgery:A systematic review

BACKGROUND Lack of mobilization and prolonged stay in the intensive care unit(ICU)are major factors resulting in the development of ICU-acquired muscle weakness(ICUAW).ICUAW is a type of skeletal muscle dysfunction and a common complication of patients after cardiac surgery,and may be a risk factor for prolonged duration of mechanical ventilation,associated with a higher risk of readmission and higher mortality.Early mobilization in the ICU after cardiac surgery has been found to be low with a significant trend to increase over ICU stay and is also associated with a reduced duration of mechanical ventilation and ICU length of stay.Neuromuscular electrical stimulation(NMES)is an alternative modality of exercise in patients with muscle weakness.A major advantage of NMES is that it can be applied even in sedated patients in the ICU,a fact that might enhance early mobilization in these patients.AIM To evaluate safety,feasibility and effectiveness of NMES on functional capacity and muscle strength in patients before and after cardiac surgery.METHODS We performed a search on Pubmed,Physiotherapy Evidence Database(PEDro),Embase and CINAHL databases,selecting papers published between December 2012 and April 2023 and identified published randomized controlled trials(RCTs)that included implementation of NMES in patients before after cardiac surgery.RCTs were assessed for methodological rigor and risk of bias via the PEDro.The primary outcomes were safety and functional capacity and the secondary outcomes were muscle strength and function.RESULTS Ten studies were included in our systematic review,resulting in 703 participants.Almost half of them performed NMES and the other half were included in the control group,treated with usual care.Nine studies investigated patients after cardiac surgery and 1 study before cardiac surgery.Functional capacity was assessed in 8 studies via 6MWT or other indices,and improved only in 1 study before and in 1 after cardiac surgery.Nine studies explored the effects of NMES on muscle strength and function and,most of them,found increase of muscle strength and improvement in muscle function after NMES.NMES was safe in all studies without any significant complication.CONCLUSION NMES is safe,feasible and has beneficial effects on muscle strength and function in patients after cardiac surgery,but has no significant effect on functional capacity.

Valves replacement operation in treatment of electrical storm induced by rheumatic valves disease

Objective： To present a case of electrical storm （ES） in a female patient with rheumatic valve disease. Methods： A female patient with severe rheumatic valve disease suffered an unexpected ES. She received more than 50 electrical shocks for repeated cardiac arrests due to ES over 16 hours. Then she received beta-blocking agent treatment and had an operation of double valves replacement. Results： ES was suppressed by sympathetic blockade with beta-receptor blocker and finally disappeared after the double pathological valves had been replaced. Conclusion： Increased sympathetic activity plays an important role in the genesis of electrical storm and sympathetic blockade may effectively suppress ES. However, the most important thing in the treatment of ES is to identify and eliminate the underlying cause of ES.

Research Progress of Electromagnetic Field and Electromagnetic Compatibility of UHVDC Converter Valves

特高压直流换流阀的电磁场和电磁兼容性是其研制过程中的关键问题,国内外学者对此进行了系统研究。中国电力科学研究院成功研制出中国首个具有完全自主知识产权的800 kV/4 750 A特高压直流（ultra high voltage directcurrent,UHVDC）换流阀。针对电磁场和电磁兼容问题,利用三维电场边界元法实现换流阀寄生参数的提取,通过理论计算、数值仿真及试验测试等多种手段,对瞬态电磁干扰等问题提出了解决方案,为换流阀的研制和工程应用提供了必要的技术支撑。总结了上述领域的研究成果,对未来特高压直流换流阀电磁兼容领域的研究课题与解决方案提出了一些建议和设想。

Adaptive friction compensation for large diameter electro-hydraulic proportional valve cores based on LuGre

This paper presents an adaptive friction compensation method based on LuGre model for large diameter electric-hydraulic proportional valves in which the valve core contains friction.A mathematic model of the electric-hydraulic proportional valve is established,and the friction characteristics are described based on the LuGre model.The global asymptotic stability of the control system with the adaptive friction compensation controller is guaranteed over Lyapunov theorem.The adaptive compensation of the friction on LuGre friction model is verified by simulation and experiment.The steady-state error is about [-4.23 × 10^(-5)m,5.91 × 10^(-5)m]and[-2.5 × 10^(-4)m,2.6 ×10^(-4) m] on simulation and experiment,the position tracking accuracy is higher,and the lag time of the main valve through the dead zone is shorter.The result proves that the adaptive friction compensation method can effectively compensate for the negative effects of nonlinear friction.

INVESTIGATION ON THE DYNAMIC RESPONSE PERFORMANCE OF A NOVEL THREE-WAY SOLENOID VALVE

Objective A novel high-speed three-way solenoid valve is developed, which is used for the common-rail injection system equipped on DME powered engine. In order to improve the dynamic response performance of the three-way solenoid. Methods Experimental studies have been conducted to investigate the effects of spool stroke, drive voltage, negative demagnetizing pulse and two drive schemes on the dynamic response performance of the three-way solenoid valve. Results The results show that the dynamic response performance of the three-way solenoid valve can be remarkably improved by shortening the spool stroke and increasing the drive voltage. Simultaneously, the difference between the response time of closing valve and that of opening valve decreases. At each different drive voltage, there exists an optimal negative demagnetizing pulse corresponding to the same positive exciting pulse. At this optimal pulse, the dynamic response performance of the three-way solenoid valve is the best. In addition, the high drive voltage can lead to the smaller optimal negative demagnetizing pulse. It is also indicated from the experiments that the dynamic response performance of the three-way solenoid valve is better when the NO.1 drive scheme is adopted. The lower drive voltage results in the larger difference between the dynamic response performances for the two drive schemes. Conclusion The dynamic response performance of a novel three-way solenoid valve is good.

基于小波包分析和优化KNN的电动开度阀故障检测方法

针对以微控制器MCU为控制核心的电动开度阀控制系统难以集成高效且计算量小的故障检测子系统的问题,基于小波包变换和优化K近邻(K-Nearest Neighbor,KNN)算法提出了一种电动开度阀故障检测方法。对阀门振动信号进行小波包变换,计算小波包节点的能量值与其重构信号的时域特征参数。根据Pearson系数筛选出两种与能量强相关的故障特征参数:峰峰值与均方根,并将两者作为KNN算法的样本评价指标;通过对评价指标进行加权优化了KNN算法的距离计算公式,分别在MATLAB和实验样机中进行故障检测测试,对应最高分类准确率分别为92.5%与86.7%。结果表明:实验测试与仿真分析具有较好的一致性,该故障检测方法的优势在于计算量小、故障识别率较高,并能有效地应用于以MCU为核心的电动开度阀控制系统。

华龙一号安注系统电动截止阀可靠性试验及评估研究

作为核反应堆系统中的关键设备,阀门在核反应堆系统中起着至关重要的作用,其可靠性直接决定着核反应堆安全以及人员安全。本文针对华龙一号安注系统电动截止阀,采用3个试验样机开展可靠性试验,通过模拟使用工况下的冷热态寿命试验,获得了该型阀门的典型失效——阀座内漏,并基于试验数据采用小子样试验的半经验评估方法完成了可靠性评估,确定该安注系统电动截止阀全寿期无故障动作360次的可靠度大于0.99。

基于滑模扰动观测器的阀门开度预测控制

针对电动阀门在运行过程中,由于外部干扰、系统参数变化、摩擦力等非重复干扰的影响而难以达到高精度控制的问题,提出一种基于滑模扰动观测器的预测控制方法。通过对阀门驱动原理进行深入研究,构建阀门的数学模型,根据模型中电机电流与总负载扰动的正相关性,以电机电流、阀门转速为输入量,采用滑模扰动观测器对系统总负载扰动进行估计。设计模型预测控制器,对扰动估计值进行补偿,实现对阀门开度控制的准确性,鲁棒性以及对总扰动值跟踪的快速性。理论分析、仿真和试验表明:观测器仅0.001 s便跟踪到了设定值,收敛速度快,阀门开度精度误差在0.2%以内,完全达到控制目标,开度控制效果良好。可充分验证该控制方法在不同的负载扰动下,依然能使电动阀门保持良好的开度控制精度以及抗扰动能力。

核级典型电动截止阀FMECA及试验验证

作为核反应堆系统中的关键能动设备,阀门在核反应堆系统中起着至关重要的作用,其安全性直接决定着核反应堆安全及人员安全。本文针对安注系统电动截止阀,基于使用特点对其开展故障模式、影响及危害性分析(FMECA),找出其结构中潜在的故障模式及其原因与影响,并根据失效分析结果有针对性地开展寿命试验,以激发潜在的故障,验证分析结果并获得该阀最为典型的失效模式。

加料泵旁通阀PID自动控制系统

作为烟丝生产工艺中的重要环节,添加香糖料可对烟丝质量起到关键性作用。为了保证生产中香糖料的流量控制精度,在加料管路中使用旁通阀PID自动控制。通过实际生产跟踪,加料泵旁通阀PID自动控制系统与电动调节针形阀的配合调控,使料液流量具有更快速、灵敏的调控反应,提高了对加料环节的流量控制。

基于水润滑的屏蔽式阀门电驱动装置传动效率计算与实验研究

对基于水润滑的屏蔽式阀门电驱动装置齿轮传动效率进行了计算与实验研究。计算了齿轮啮合功率损失、轴承功率损失、搅水功率损失。发现在电驱动装置正常工作的情况下,轴承功率损失约占总损失的70%,是造成功率损失的主要部件,随着齿轮转速的逐渐提高,轴承的功率损失也在逐渐增加;在低转速下齿轮的损失差距不大,随着速度的提高,轴承功率损失变化最大,是造成电驱动功率损失的主要因素。搭建了齿轮传动效率测试试验台,测得1000~9000 r/min电传装置的实际功率损失,与计算的结果进行了对比,可以看出计算结果与实验结果基本一致,说明计算方法合理可行。

单叶风阀调节性能试验研究

文章主要研究了不同规格的单叶风阀在不同开度或风量下的调节性能。本文在保持风量不变的情况下,通过改变风阀的开度,测试了风管内部压力、风速、阻力等参数,以及在开度不变的情况下改变风量,测试了不同开度下风管内部压力、风速、阻力等参数。找到了不同工况下,风管内部气流从距离阀门6倍管径处开始稳定,以及风阀阻力、风速随风阀开度变化的规律基本呈“指数型”,风阀阻力随风量变化的规律基本呈“线性”,风阀调节对管路影响的不敏感区处于0°~45°,敏感区域处于45°~80°。以上结论在200×200 mm与300×300 mm规格的方形风管与阀门中均成立。

浅水受限区水下油气田开发方案

针对国内浅水油气资源开发环境影响及空间受限等问题,本文提出了国产浅水水下生产系统的总体设计方案。通过对浅水水下生产系统关键设备结构进行分析,提出了一种满足受限区海域开发要求的环境友好型设计思路。结果表明:通过系统和总体布置的设计,国产浅水水下生产系统与深水相比在单体重量、作业方式、维护检修方面更加经济。

±500 kV直流换流阀用饱和电抗器温度场与电场仿真研究

高压直流换流阀饱和电抗器在工作过程中发热量大、电场分布不均匀,使其成为阀厅的安全隐患。为改善饱和电抗器的温升效应,文中以实际±500 kV直流换流阀用饱和电抗器为研究对象,建立了改进的流体场与温度场耦合模型,该仿真模型综合考虑流体传热、空气对流散热、绕组焦耳热和铁心涡流热损耗等实际因素,仿真计算电抗器各部件的温度场分布及其影响因素。现场验证表明该模型计算结果更接近实际工作状况。还建立静电场仿真模型,仿真计算电场畸变情况。温度场结果表明:饱和电抗器的铁心温度最高、环氧树脂次之、冷却水管路温度最低;铁心最高温度可达342 K。提高冷却水入口流速是降低饱和电抗器温度的有效方法,阀塔冷却系统的入水流速设置为1 m/s时可达最佳的冷却效果。环氧树脂、铁心和冷却水管的最高温度均与冷却水入口温度呈线性递增关系,实际工作中应使冷却水的初始温度越低越好。电场结果表明:环氧树脂与铁心交界面处出现明显的电场畸变现象,最大电场强度可达1.26×105 V/m。应在此处采取均压措施以防止电场集中而导致的局部温度过高。文中所得结论可为直流换流阀用饱和电抗器的设计提供参考。

船舶压载水处理系统中的遥控蝶阀概述

船舶压载水处理系统的遥控蝶阀,需要具有调节或开关功能;通过总结电动、气动、液压和电液式等遥控蝶阀的各自特点,如工作原理、优缺点等,为压载水处理系统遥控蝶阀选择提供建议。基于蝶阀频繁动作、高调节精度、低故障率、低成本、安装简便等方面考虑,建议选用气动调节蝶阀;若只要求具备开关功能,可根据船舶实际情况选择气动开关阀门或液压开关阀门。

发动机限压阀开启故障原因分析及解决措施探究

针对某款发动机在运行时出现限压阀开启,导致发动机限扭,无法正常运行故障,本文分析了限压阀与电动输油泵工作原理、喷油泵内部结构与低压燃油管路布置,并结合试验测试结果,确定电动输油泵工作产生的正压供油是造成限压阀开启的原因。试验结果表明,通过增加继电器,实现电控单元对电动输油泵的控制,可有效解决限压阀开启问题;除此之外,通过分析可知,更改低压燃油管路的布置也是很好的解决思路。上述解决措施的研究,对燃油低压管路的布置设计及电动输油泵的匹配具有重要的指导意义。

智能阀门电动执行机构控制系统建模及总体方案设计

本文主要探究了适用于智能阀门的电动执行机构控制系统的建模方法和设计方案。该系统由控制模块、通信模块、电机驱动模块等组成,利用传感器获取当前位置信息,与给定位置信息对比后,利用控制算法求出信号误差并生成控制指令,驱动电机运行从而实现对阀门开度的控制。该系统的控制模块采用闭环控制,执行模块采用电流、速度、位置三环控制,确保在高压力、大流量工作环境下,也能实现精确控制、实时响应,在满足实用性的基础上对延长智能阀门的使用寿命有积极帮助。

电动旋挖钻机液压平衡阀流量异常故障智能检测

电动旋挖钻机液压系统朝着高压、大流量和大功率的方向发展,平衡回路的最大流量已经超过1000 L/min,最大压力已经超过50 MPa。过高的阀口流速和复杂的紊流流场,更容易导致平衡阀流量异常引起气穴现象,同步产生严重的阀芯振动和噪声,给单纯考虑单一阈值特征的故障检测方法带来困难。设计一种针对电动旋挖钻机的液压平衡阀流量特性异常故障检测方法。建立电动旋挖钻机液压平衡阀流量动力学模型,建立平衡阀的流量-压差异常的关联特征,避免多个单一特征缺陷;结合压力与振动传感器采集的关联特征数据,结合智能算法提取液压平衡阀流量信号的特征,通过将提取到的特征输入到贝叶斯分类器中,可以根据异常特征对液压平衡阀进行流量异常故障智能检测。实验结果表明:所提方法的电动旋挖钻机液压平衡阀预测流量故障检测准确度更好、时间更短、实际应用效果更佳。

电动耐腐蚀截止阀的选型设计与试验研究

为了选择某系列精细化学品生产装置进口电动耐腐蚀截止阀的国产替代品,分析了电动截止阀的操作特性,计算并确定了阀门操作转矩、电动装置输出转矩。选用国产DZY5型阀门电动装置,分析了其行程限制机构和转矩限制机构的工作情况,测试了其机电性能,并与进口电动阀作了性能比较。性能比较结果表明,两者的机电性能接近。将DZY5型阀门电动装置与J41W-25R截止阀配合构成电动截止阀,进行了气密性和流通性试验。试验结果表明,密封性和流通性均满足要求。选用C4不锈钢和115^(#)不锈钢进行阀门材质耐工艺介质腐蚀性试验,验证了115^(#)不锈钢具有更好的耐腐蚀性。经过选型和试验研究,提出了采用DZY5型阀门电动装置配用115^(#)不锈钢截止阀的电动耐腐蚀截止阀国产化技术方案。该方案为生产装置遥控阀门的重新选型设计提供了技术依据,对研制新型小口径电动耐腐蚀截止阀具有技术参考价值。