TRANSIENT RESPONSE OF A VALVE CONTROL HYDRAULIC SYSTEM WITHLONG PIPES

The simulation model of a valve control hydraulic system with long pipe isestablished in Simulink4.0, and then the step responses of the systems with difference pipeparameters are investigated by simulation. Simulation results show that the long pipes will slowdown the step response of system and make it fluctuate periodically. The results of simulationconform to the results of experiment on the whole, which proves the mathematic model is correct.

GIANT MAGNETOSTRICTIVE ACTUATOR IN SERVO VALVE AND MICRO PIPE ROBOT

Performance of giant magnetostrictive material (GMM) is introduced. Principleof work, basic structure and key techniques of giant magnetostrictive actuator (GMA) are analyzed.Its dynamic models of magneto-mechanical coupling are established. The structure and principle ofthe pneumatic servo valve and the micro pipe robot with new homemade GMM are presented. Theexperiment is carried out under typical working conditions. The experiment results show that the GMMpneumatic servo valve has wide pressure control characteristics, good linearity, and fast responsespeed. The movement principles of the GMM robot system are reliably feasible and its maximal movingspeed is about 8 mm/s. It is preferable to the driving frequency of the robot within 100 approx 300Hz.

Simulation investigation on fluid characteristics of jet pipe water hydraulic servo valve based on CFD

Simulation investigation on fluid characteristics of the water hydraulic jet pipe servo valve （WHJPSV） is conducted through a commercial computational fluid dynamics （CFD） software package FLUENT. In particular, the factors to fluid characteristics of WHJPSV are addressed, which include diameter combination of jet pipe and receiver pipe, jet pipe nozzle clearance, angle between two jet receiver pipes and deflection angle of the jet pipe. It is concluded from the results that： （i） Structural parameters have great influences on fluid characteristics of WHJPSV, when d1 = d2 = 0.3 mm, α= 45 , b = 0.5 mm, and the simulation exhibits better fluid characteristics; （ii） The magnitude of the recovery pressure and flow velocity increase almost linearly with the deflection angle of jet pipe. The research work in this paper is important for determining and optimizing the structural parameters of the jet pipe and jet receiver. The relevant conclusions could be extended to the study of other water hydraulic servo control components.

Mathematical Model of Steady State Operation in Jet Pipe Electro-Hydraulic Servo Valve

Jet pipe electro-hydraulic servo valve is the heart of feedback control systems,and it is one of the mechatronic components used for precision flow control application.It consists of several precision and ddicate components.The performance of the jet pipe servo valve depends on many parameters.During the developmental stage,it is very difficult to ascertain the function parameters.The steady-state analysis of jet pipe electro-hydraulic servo valve has been made to simulate its fluid characteristics （flowin,flow-out,leakage flow,recovery or load pressure,etc.） by mathematical modeling.Theoretical model was conducted on various affecting parameters on the pressure,the main flow rate of fluid,or leakage flow through the receiver holes.The major parameters studied are jet pipe nozzle diameters,receiver hole diameters,angle between the two centre-lines of receiver hole,nozzle offset,and nozzle stand-of distance.In this paper the research is important to determine and optimize the structural parameters of jet pipe servo valve.Thus,equations of the pressure and flow characteristics are set up and the optimal structural parameters of jet pipe are established.

Formation of Necklace-Type Vortex System Upstream of a Gate Valve in Pipe Flow

A gate valve is one of the main elements of a circular pipeline, but the flow characteristics around the gate valve are hardly known. In this study, clarification of the flow field in front of the gate valve model in a pipe flow via flow visualization and PIV analysis was attempted. As a result, four kinds of steady necklace-type vortex systems, 2-vortex, 4-vortex, 6-vortex and 8-vortex systems, were clearly observed in a Reynolds number between 290 and 2130. In addition, the main vortex was observed in the Reynolds number range between 2130 and 4870 with difficulty. On this account, both the center position and vorticity in the main vortex are presented against Reynolds number.

A STUDY ON HEAT PIPE RADIATOR USED FOR THE COOLING OF THE HIGH-POWER THYRISTOR IN EXPLOSION-PROOF SHELL

The cooling of the high-power thyristor (HPT) in explosion-proof sbcll (EPS) used inmining pit has been a difficult problem for a long time. It has some spectal demands. According toheat pipe’s working principle, this paper introduced a kind of newly devcloped beat pipe radiatorSeveral HPT in EPS can be cooled by one beat pipe. In order to obtain the cooling and forced convection cooling , two dimensionless equations were obtained. This paper also studicd the refation between the surface temperature of HPT and the working electric current. The corresponding curvewas given out. Experiments shown that the beat pipe radistor introdued in this paper could effectively cool the HPT in EPS. It becomes a practical and valuable new technique.

基于厚壁圆筒理论的袖阀管注浆开环压力计算方法及影响因素分析

目的袖阀管注浆技术已广泛应用于地层加固、路基病害治理、地铁站渗漏水处治等众多工程领域,然而袖阀管注浆的关键技术—开环压力的确定问题目前尚未有效解决。为解决此问题,方法基于厚壁圆筒理论模型,提出任意倾斜状态下袖阀管出浆口地层应力计算方法,结合第四强度准则,建立考虑多因素综合影响的袖阀管注浆开环压力理论计算公式,并进行开环压力影响因素分析。结果结果表明,袖阀管注浆开环压力随套壳料抗压强度、套壳料与土体泊松比比值、注浆深度、地层最小与最大水平主应力比值的增大而增大,随着套壳料内外半径比、套壳料与土体弹性模量比的增大而减小。套壳料抗压强度、套壳料内外半径比、注浆深度和注浆钻孔方向对开环压力的影响较显著。注浆钻孔方向对开环压力影响较大,α一定时,开环压力随β增大而减小;β一定时,开环压力随α增大而增大。将本文建立的袖阀管注浆开环压力计算公式应用于新建大冶北至阳新铁路DK107+105框架顶进涵工程,并与现有开环压力计算方法进行对比,利用本文方法计算得到的开环压力值更接近现场实测范围,并优于现有计算方法。结论研究结果可为袖阀管注浆理论发展和现场应用提供支持。

高压油泵阻尼孔对燃油系统压力特性的影响研究

为实现更高的热效率和更优的排放,柴油机的喷射压力不断提高。阻尼孔作为高压油泵等压出油阀的关键结构,对燃油系统的压力特性有重要影响。本文研究了阻尼孔大小对喷油器的喷射特性以及高压油管压力波动特性的影响,结果表明:随着阻尼孔由0.1 mm增大至2.0 mm,喷油器喷油持续期相对缩短,循环喷油量减小,这是不同阻尼孔对应的高压油管残余压力大小不同,以及不同阻尼孔大小对系统压力调节的速度不同的结果;此外,阻尼孔较小(0.1 mm)时,燃油系统存在二次喷射现象,而阻尼孔过大(3 mm)时,系统内还会存在零压区,即存在穴蚀的风险;对高压油管残余压力的频谱分析发现,阻尼孔较小时,高压油管内压力脉动与出油阀的运动存在较强的相关性,而阻尼孔较大时,压力脉动与回油阀的运动相关,即供油系统中多种阀件的运动是高压油管压力脉动的主要原因。

汽轮机蒸汽管道与阀门及汽缸外缸外表面传热系数的计算模型和计算方法

构建了汽轮机蒸汽管道、主汽调节阀与汽缸外缸的外表面传热系数计算模型与计算方法。给出了汽轮机蒸汽管道、主汽调节阀、高压外缸、中压外缸与低压外缸的内表面传热系数以及保温结构外表面与低压外缸外表面的复合传热系数计算公式。建立了汽轮机蒸汽管道、高压外缸与中压外缸的金属内层壁与保温结构外层壁的双层圆筒壁、主汽调节阀金属内层壁与保温结构外层壁的双层球壁以及低压外缸单层圆筒壁的传热过程计算模型。考虑到金属内层壁内表面温度与外表面温度和保温结构外层壁外表面温度均为待定温度,采用迭代法确定这些汽轮机部件的表面温度、传热过程的传热系数与热流密度。完成了汽轮机蒸汽管道、主汽调节阀、高压外缸、中压外缸与低压外缸的外表面传热系数计算分析的应用实例,得出了这些汽轮机部件传热过程金属内层壁外表面的传热系数、热流密度与等效表面传热系数的计算结果,为这些汽轮机部件温度场与应力场的有限元数值计算提供了传热边界条件。

山丘区自压输水管道水锤计算与模拟方法

为了准确预测和防护山丘区自压输水管道的水锤破坏,提高管道输水的安全性和可靠性,针对山丘区自压输水管道落差大、距离长和地势起伏的特点,提出将输水管道划分为弯曲段和带倾斜角度的直管段,利用极限思想将弯曲管段基于切线的曲线拟合矢量化方法,拟合为沿管道中心线具有相同过流断面的多段等效短管;采用拟合等效短管和倾斜直管相结合的方法进行水锤计算,建立了自压输水管道的数值计算模型.以陕西省千阳县一自压管道输水工程为例进行了验证分析,通过模拟管道末端阀门不同关阀时间的水锤压力变化规律,得出最优关阀时间为50 s≤T≤120 s,提出了相应的水锤防护方案.结果表明该方法的计算和模拟精度高,可为山丘区长距离自压管道输水工程建设与管理提供参考.

水下油管挂送入管柱系统液控球阀技术研究

水下油管挂送入管柱系统为完井作业期间的主要井控安全屏障,在出现井下安全风险时可通过控制液控球阀实现水下管柱的应急关断,也可实现剪断连续油管、电缆和钢丝等柔性措施管串后实现紧急关断,提高井控反应的时间。球阀本体总成的设计与加工制造工艺是实现液控球阀剪断柔性措施管串后密封的关键技术。针对球阀本体总成的设计结构、选材和表面措施处理的工艺,阐述液控球阀实现剪切后密封关键技术,提供了一种可行的球阀总成结构及其制造工艺方案。研究成果对水下油管挂送入管柱技术国产化研究和现场应用具有指导意义。

特斯拉阀型脉动热管传热特性数值研究

基于VOF模型,将D型特斯拉阀分别设置于脉动热管的蒸发段、冷凝段、绝热段位置,对单回路特斯拉阀型脉动热管的传热特性进行数值模拟,研究特斯拉阀的位置对启动时间、运行温度、传热热阻的影响规律。结果表明:特斯拉阀的单向导通性能够有效促进工质流动循环,特斯拉阀位于蒸发段及绝热段的启动时间优于普通脉动热管,在加热功率为2 W时,特斯拉阀位于蒸发段的脉动热管启动时间最短,加热功率>2 W时,特斯拉阀位于绝热段的脉动热管启动时间最短。相较普通脉动热管,特斯拉阀位于绝热段与蒸发段的脉动热管的热阻降低10%—18%。研究可为新型管路结构脉动热管内的气液两相流动及传热机理提供理论支持。

一起典型的雨污分流改造诱发的排污事故研究

某地突发一起雨水干管排污事故,调查后,发现事故雨污管道在设计、施工与运行维护等方面均存在缺陷,并因雨污分流改造工作诱发本次事故.对雨污互渗管段的日常状态及危害进行了分析,并从设计、施工和运维角度提出雨污互渗防范措施.同时,对本次事故管段采取雨水干管改道迁建与污水干管非开挖修复等措施,彻底阻断渗漏通道.经过2年运行,修复后的雨污管网工况良好.

高层建筑桩基岩溶处理施工技术研究

针对高层建筑地基岩溶面广而深的特点,依托实际工程提出了先分区分块,后点-面相结合的岩溶处理方法。具体为先将整个场地划分为岩溶发育区、岩溶较发育区和岩溶弱发育区,对高密度发育区采用点-面结合的方法处理。其中面处理采用岩面注浆法加固岩面以上地层,以形成封闭。岩面以下则依据溶洞填充情况采用了袖阀管注浆或泵送水泥砂浆进行点处理,使洞内充填物与洞外介质固结成一个整体。后续地基处理及桩基检测结果均表明该岩溶处理施工技术能够满足高层建筑岩溶处理要求,值得进一步推广应用。

7m顶装焦炉集气管压力调节技术优化与应用

介绍了唐山佳华煤化工有限公司原集气管压力调控和鼓风机前吸力调控的原理及存在的问题。根据公司实际生产情况,结合传统集气管压力调节技术,优化设计了无单管调节技术的焦炉集气管压力调节方案并投入改造应用。优化后的方案,充分利用工艺翻板阀、机前翻板阀、大循环翻板阀协调调节,并引入装煤信号,消除装煤操作对集气管总管压力的影响,实现了焦炉集气管压力的长周期稳定。

上软下硬地层袖阀管注浆对盾构下穿民房扰动控制分析

为了探究深圳上软下硬地层中袖阀管注浆对盾构下穿民房的扰动控制效果,依托深圳轨道交通11号线二期某区间盾构穿越节点,实施了四环节一体的袖阀管注浆加固穿越扰动控制方案,包括穿越前加固必要性模拟验证、加固效果模拟评估、穿越期间施工扰动监测、穿越后加固效果分析。建立了未加固和加固两种工况下盾构穿越的三维有限元数值模型,基于实测数据检验了模型计算结果的可靠性,结果表明在未加固工况下民房沉降极易超越警戒值,验证了袖阀管注浆加固的必要性。而后基于加固模型评估了袖阀管注浆加固效果,计算表明袖阀管注浆加固至少将民房测点的沉降降低了40%,可有效控制盾构穿越对民房造成的施工扰动,实际监测数据与数值模拟吻合较好。此外,实测和模拟表明注浆加固将改变地表沉降槽形状,加固范围内的地表沉降将显著减小,沉降槽呈不对称分布。

自研单向阀在大口径矿山排水钻孔工程中的应用

鉴于目前大口径钻井固管工艺容易造成固管不密实,管道壁后空洞等问题,在某矿山排水钻孔的施工过程中,通过研制的单向阀完成了排水管的安装和固管,解决固管不密实及固管后残留物较多的问题。本文主要介绍了单向阀的结构及作用,总结了一项利用单向阀完成大口径排水管的安装和固管工艺,可为今后类似工程施工提供经验和参考。

通风系统不同阀门调节对固化线房间负压和风量的影响研究

在核设施中,为了保证设备室、热室释放的气载放射性物质不向周围房间扩散,需要使房间维持一定的负压。通过调节进、排风管道上的阀门,可以使进、排风量保持一定的差值,从而满足房间的负压要求。本文以某核化工项目固化线房间通风系统为例,利用FLoMASTER软件建立了通风管网模型。通过调研得到了系统中风机的特性曲线及过滤器的阻力特性曲线,模拟分析了调节不同阀门对固化线房间负压和风量变化的影响。

袖阀管劈裂注浆在铁路路基深层加固中的应用

近年来,随着高速铁路快速建设及开通运营,路基工程的病害时有发生,铁路路基基底若存在高压缩性软土或其他不利软弱夹层,勘察、设计、施工阶段未发现,铁路建成联调联试或运营阶段,在列车动荷载作用下,会造成路基整体不均匀沉降的病害发生。该文以东南沿海某铁路软土路基沉降病害整治为例,介绍袖阀管劈裂注浆施工工艺及轨道变形控制方法,对铁路运营线路地基进行深层加固,该注浆工艺有效地控制注浆压力和注浆区域,具有可多次注浆,注浆成本较低等特点,并取得显著的加固效果。

袖阀管注浆用套壳料配合比优化

套壳料质量的好坏是决定袖阀管注浆成功与否的关键。为确定适用于袖阀管注浆用套壳料的最优配合比,开展了水、水泥、膨润土、水玻璃等材料不同占比下的室内试验并进行套壳料微观结构分析。水灰比对套壳料抗压强度影响最显著,水灰比越大,套壳料抗压强度越小;膨润土和砂在一定程度上可以提高套壳料前期抗压强度,但对后期强度基本不产生影响;水灰比越小,套壳料初、终凝时间越短,水玻璃对缩短套壳料终凝时间更显著;膨润土含量以及砂的存在对套壳料凝结时间基本不产生影响。