DETECTION OF LONGITUDINAL DEFECT IN PIPES USING TORSIONAL MODES

The multi-modes and disperse characteristics of torsional modes in pipes are investigated theoretically and experimentally. At all frequencies, both phase velocity and group velocity of the lowest torsional mode T（0,1） are constant and equal to shear wave velocity. T（0,1） mode at all frequencies is the fastest torsional mode. In the experiments, T（0,1） mode is excited and received in pipes using 9 thickness shear vibration mode piezoelectric ceramic elements. Furthermore, an artificial longitudinal defect of a 4 m long pipe is detected using T（0,1） mode at 50 kHz. Experimental results show that it is feasible for longitudinal defect detection in pipes using T（0,1） mode of ultrasonic guided waves.

Mode Transitions in Vortex-induced Vibrations of a Flexible Pipe near Plane Boundary

A pipe model with a mass ratio（mass/displaced mass） of 4.30 was tested to investigate the vortex-induced vibrations of submarine pipeline spans near the seabed.The pipe model was designed as a bending stiffness-dominated beam.The gap ratios（gap to diameter ratio） at the pipe ends were 4.0,6.0,and 8.0.The flow velocity was systematically varied in the 0-16.71 nondimensional velocity range based on the first natural frequency.The mode transition between the first and the second mode as the flow velocity increases was investigated.At various transition flow velocities,the research indicates that the peak frequencies with respect to displacement are not identical along the pipe,nor the frequencies associated with the peak of the amplitude spectra for the first four modes as well.The mode transition is associated with a continuous change in the amplitude,but there＇s a jump in frequency,and a gradual process along the pipe length.

ANALYSIS OF COUPLED-MODE FLUTTER OF PIPES CONVEYING FLUID ON THE ELASTIC FOUNDATION

The governing equation of solid-liquid couple vibration of pipe conveying fluid on the elastic foundation was derived. The critical velocity and complex frequency of pipe conveying fluid on Winkler elastic foundation and two-parameter foundation were calculated by po,ver series method. Compared,with pipe without considering elastic foundation, the numerical results show that elastic foundation can increase the critical flow velocity of static instability and dynamic instability of pipe. And the increase of foundation parameters may increase the critical flow velocity of static instability and dynamic instability of pipe, thereby delays the occurrence of divergence and flutter instability of pipe. For higher mass ratio beta, in the combination of certain foundation parameters, pipe behaves the phenomenon of restabilization and redivergence after the occurrence of static instability, and then coupled-mode flutter takes place.

Guided Waves Mode Discrimination in Pipes NDT Based on the Matching Pursuit Method

Ultrasonic guided wave have the multi-modes and dispersive characteristics, and its modes are easy to be converted at boundary or when running into defects in pipes, which makes the discrimination of different guided waves modes of the reflection signals in pipes NDT very hard. In this work, firstly, the experiments are carried out to test two kinds of stainless steel pipes by applying guided waves NDT, one is integrated pipe and another is non-integrated pipe with a small hole defect, and the detected guided waves echo signals are respectively obtained. Secondly, the measured signals are processed by matching pursuit method and the Chirplet matching atom parameters are calculated. By calculating the time-frequency distributions spectrum of detected guided waves echo signals, torsional, flexural and longitudinal guided waves modes are identified from the intact pipe, and the two wave-packets with torsional and flexural guided waves modes are also identified from the pipe with hole defect. The results showed that the matching pursuit method has a tremendous advantage to identify different guided waves modes in pipes nondestructive testing.

A Pipe Inspection Using a Circumferential SH-Mode Plate Wave Generated in a Pipe by an Electromagnetic Acoustic Transducer (EMAT)

Inspection of a pipeline is essential for the safe use of such facilities. A trial sensor using an electromagnetic acoustic transducer (EMAT), which can generate the SH-mode plate wave propagating in the circumferential direction, has been developed to realize this objective. It consists of a circulating electromagnetic induction coil around the pipe and many permanent magnets arranged on the surface of the pipe in the circumferential direction. It is postulated that the intensity of the SH-mode plate wave propagating in the circumferential direction is dependent on any defects in the circumferential direction. A resonance method was then utilized to obtain a stronger received signal. As a result, it was confirmed that the resonance status can be detected. The relationship between the signal intensity and the pipe thickness was then evaluated. It was confirmed that the wall thickness of about 20% can be detected under a static condition. Finally, a moving test has been executed by using an axially traveling device manufactured by trial. The test pipes with different sizes of drilled holes were prepared. The change in the received signal intensity according to different sizes of the drilled holes was successfully detected.

基于流固耦合共轨高压油管振动特性研究

为了研究流固耦合作用下共轨系统高压油管的振动特性,建立了高压油管的有限元模型。首先根据输液管道动力学方程,利用ANSYS软件分析管道附加流体质量下的湿模态特性;然后以均方根(root-mean-square)量化时程内的振动能量,研究流固耦合作用下管道不同弯头的振动响应,不同燃油脉动率、压力及激励频率对管道流致振动的影响,最后对比了共振频率下管道增设管夹前后的振动特性。结果表明:流固耦合下管道固有频率下降,在高阶模态下降率较明显,附加质量系数超0.13;不同弯头振动差异较大;振动能量与燃油脉动率呈正相关,与压力大小并无直接关系;接近自振频率下管道发生共振,振幅会急剧增大至超标;并且增设管夹后共振现象消失,振动能量下降率超90%。

基于VMD的广义三次互相关管道泄漏定位检测

针对天然气管道泄漏检测声波定位技术中,二次互相关时延估计算法存在较大误差的问题,提出了一种基于变分模态分解(VMD)结合广义三次互相关的时延估计算法。该方法首先利用VMD算法对两路信号进行分解并重构信号;其次,在二次互相关的基础上再进行一次相关,并在互相关算法的峰值检测阶段引入希尔伯特变换(HT),对峰值进行尖锐化处理,成为一种新型的广义三次互相关时延估计算法。通过对平台搭建的油气管道泄漏检测系统采集数据进行模拟试验,分析了各算法的精度。试验表明,相较于二次互相关,改进广义三次互相关时延估计算法定位平均精度有明显的提升,有着更高的精度和更好的抗噪性能,在天然气管道泄漏定位方面有着更广泛的应用前景。

室内地埋供热管道泄漏的声学监测及其信号去噪方法研究

为了更精确地对室内地埋供热管道泄漏声学监测信号进行主要特征频率提取和分析,需先对测量信号去噪。本文采用变分模态分解(variational mode decomposition,VMD),对距离漏水点5 cm和40 cm测量点的原始声信号分别进行模态分解,计算出各模态分量的排列熵并将其作为噪声信号剔除的依据,最后对信号进行重构,并与经验模态分解(empirical mode decomposition,EMD)、集合经验模态分解(ensemble empirical mode decomposition,EEMD)的处理结果进行对比。发现相比于其他两种分解降噪方法,VMD能够更好地解决模态混叠问题,能更为精确地将噪声信号去除,达到更好的去噪效果。

间断焊接包管加固圆钢管构件轴压极限承载力研究

为研究间断焊接包管加固杆件的轴心受压性能,设计了13组试件进行单调加载静力试验。对试件极限承载力、破坏模式、荷载-位移曲线和截面应变发展规律进行分析,对比了负载加固与非负载加固对试件极限承载力的影响。结果表明:包管构件的破坏模式可分为整体失稳破坏和内管外伸段强度破坏;包管构件内外管协同工作、共同受力,内管和外管都在屈服后发生整体失稳破坏;负载加固与非负载加固试件的极限承载力基本一致,相差2.2%,非负载加固试件与未加固试件相比,极限承载力最大提高了479.9%。根据试验结果对包管构件的ABAQUS有限元模型进行修正,并用该模型分析了各主要影响因素对包管构件极限承载力的影响规律。提出了包管构件极限承载力经验计算公式,且公式计算结果与试验结果吻合较好。

层间摩擦系数对非黏结柔性管抗拉铠装层轴压屈曲失效模式的影响研究

在柔性管运输、铺设安装和服役过程中,由于其抗拉铠装层钢带为柔性细长螺旋结构,当外部载荷超过临界值时,抗拉铠装层钢带容易发生屈曲失效。考虑非线性材料、几何大变形、层间接触和摩擦等非线性效应的影响,运用ABAQUS有限元软件建立了63.5mm典型非黏结柔性管8层完整结构模型,研究了在抗拉铠装层不同层间摩擦系数的情况下,非黏结柔性管在轴向压缩载荷作用下的力学性能和屈曲失效模式。研究结果表明,层间摩擦系数对非黏结柔性管的抗压刚度和抗拉铠装层屈曲失效模式有较大影响,层间摩擦系数以0.1和0.2为分界点,抗压刚度和屈曲失效模式均呈现出“三段式”变化规律。研究成果可为海洋非黏结柔性管的结构设计和屈曲失效评估提供技术参考。

电磁流量计结构与干扰抑制发展与趋势

电磁流量计量程宽、结构简单、应用广泛。以电磁流量计的结构演变与干扰抑制技术为线索,介绍了两个大方向下的各个重点研究方向的电磁流量计最新技术,并分析了其未来研究发展方向和趋势,在电子技术不断发展与流量计量方法呈现多样化基础上,未来电磁流量计仍以提高线圈励磁精度来抑制噪声干扰为主,同时又不断改变自身结构和组合方法测量,以适应越来越复杂的流体测量环境。

南京江北新区综合管廊建设管理模式及其应用

建设管理模式是影响综合管廊建设效率、投资效益的关键因素,如何选择科学的建设管理模式是一个亟待解决的问题。首先,以南京江北新区综合管廊为例,开展了江北新区综合管廊建设管理模式选择的研究。分析了引入工程总承包EPC模式的适用性和综合管廊建设管理引入BIM+3S技术的优越性。其次,开展了江北新区综合管廊建设管理模式应用的研究。应用内容包括建设管理体制、合同管理、目标控制、安全管理等。最后,凝练了江北新区综合管廊建设管理创新效果。

基于超声导波的钢管杆件损伤探测模拟

为研究网架结构中钢管杆件损伤缺陷检测的问题,选择在杆端施加位移的方式进行有限元分析。考虑超声导波需要具有在特定频率范围内不发生频散的特征,选择L(0,2)模态超声导波开展无损检测。分析了适用于钢管无损检测的导波信号频率和信号周期特征,利用L(0,2)模态超声导波进行了不同圆周夹角的周向缺陷和不同长度轴向缺陷的导波检测。有限元分析结果表明,考虑多模态叠加和最大反射率的影响,频率为70 kHz周期为10的Hanning正弦信号激励的超声导波适用于钢管杆件的缺陷检测;当钢管缺陷宽度与深度不变时,周向损伤占圆周的比值与信号平均反射率成线性正比关系。对于杆件的轴向裂纹检测,可以利用信号反射率与裂纹宽度的关系进行对比判断。

地下工程咬合型管幕构件抗弯承载力研究

基于咬合型管幕试件的抗弯性能试验,研究了咬合型管幕试件的力学性能及破坏形态。为进一步研究关键结构参数对咬合型管幕试件抗弯性能的影响,运用ABAQUS建立了咬合型管幕试件的有限元模型,并通过室内试验验证了模型的正确性;进而分析了钢管咬合程度、钢管壁厚及钢筋直径对咬合型管幕试件抗弯性能的影响。结果表明:咬合型管幕试件抗弯性能良好,试件最终发生延性破坏;钢管咬合程度、钢管壁厚对试件的抗弯承载力影响显著,钢筋直径对试件的抗弯承载力影响不明显。最后,给出了钢管咬合程度、钢管壁厚及钢筋直径与抗弯承载力的关系式;并通过多元线性回归得到了咬合型管幕试件抗弯承载力简化计算公式。

基于声信号的航空发动机风扇叶盘共振特征识别

航空发动机风扇叶盘模态密集,激励源丰富,使得风扇叶片容易共振出现裂纹、掉块等故障。针对振动应力、叶尖振幅和传声器阵列等测试方法复杂、成本高、周期长等特点,在风扇进气管道口布置单个传声器测量进口声信号,并对声信号进行时频分析,能够清晰识别出风扇叶盘的同步、非同步共振特征,结合计算结果分析获得共振转速和固有频率,与叶尖振幅测量结果相比最大误差分别为0.22%和0.42%,验证了该结果的准确性,为航空发动机风扇叶片盘设计和故障诊断提供了简单、有效的监测手段。

竖进平出型地埋管群换热器结构与控制优化

【目的】为提高浅层地热能利用效率,亟须对影响地源热泵系统性能的地埋管换热器结构和控制开展优化设计。【方法】建立了一种竖进平出型地埋管群换热器模型,研究其换热系统性能,探究其最佳结构及运行方式。【结果】管群布置横纵比越低,单位面积换热量越大,横纵比超过0.15后对系统影响较小;换热器间距越小,土壤利用率越高,但热短路损失越大;双列双出型埋管每延米换热量相较于双列单出型结构提升7%以上;负荷较大工况下叉排布置结构的换热效果更好;整个夏季优化结构的平均出口温度下降2.28℃,换热器周围土壤温度下降1℃以上;实际运行过程中应优先考虑采用流速随负荷变化控制模式。【结论】研究结果可为地源热泵换热器的设计、制造提供理论依据。

臭氧生物活性炭工艺中余臭氧浓度控制分析与优化

随着臭氧生物活性炭工艺在水厂的广泛应用,如何控制后臭氧出水余臭氧浓度,保证进入生物活性炭滤池的水体,溶解氧、可生化性、杀菌能力等指标相对稳定成为一个亟待解决的问题。本文根据某水厂近1年实际运行数据,详细分析水中余臭氧浓度稳定性较差的原因,并提出增加反冲洗联通管、改变提升泵运行模式等针对性的优化方案。

西南欠发达地区市政道路与综合管廊共建问题分析

市政道路与综合管廊实行共同建设,不仅节约土地资源,还能降低工程造价。文中对已有的市政道路与综合管廊共建案例进行归纳分析,介绍4种共建模式。我国各地区市政道路和综合管廊共建模式具有一定差异,贵州省作为西南欠发达地区,鉴于地质地貌、经济状况,市政道路与综合管廊共建模式选择有别于发达地区。文中对贵州省市政道路与综合管廊共建特点进行总结,并以贵阳市某区市政道路与综合管廊共建模式为研究对象进行剖析,得出了能够很好适应西南欠发达地区的共建模式。研究成果对类似地区市政道路与综合管廊共建模式的选择具有一定的参考价值。

基于多尺度模型的平面管桁架稳定性分析

平面管桁架在大跨度屋盖结构、幕墙结构中应用较广,由于其腹杆与弦杆相贯节点的半刚性,其平面外的稳定性难以进行准确的分析,而往往通过设置次桁架或支撑的方式予以保证,对建筑效果造成影响。以某体育馆平面管桁架结构屋盖为例,在设计过程中取消了大部分次桁架,在下弦平面外未设支撑。基于MIDAS GEN及MIDAS FEA NX建立了多尺度模型,并通过与刚接和铰接模型的对比,对结构在风吸力作用下的整体稳定性进行了分析。结果表明:节点刚度对结构平面外稳定影响显著,简单地采用刚接或者铰接假定进行稳定性分析,将导致较大的误差。多尺度计算模型可以真实地反映节点的刚度,本例钢结构屋盖在风吸力作用下的结构稳定性可以满足要求。

市政给排水输水方式及管网分区设计研究

文章通过探讨不同输水方式及其对市政给排水系统性能的影响,通过水力模型计算,提出了管网分区设计的原则,并研究了设计方法,如确定阶层数、合理划分供水规模、设计分区边界和隔断设施等。研究结果表明,选择适合的输水方式和科学的管网分区设计,能显著提高给排水系统的运行效率和经济性。