Large Eddy Simulation on Interaction Between in-Line and Cross-Flow Oscillation of A Circular Cylinder

This paper discusses numerical results from three-dimensional large eddy simulations of an oscillating cylinder under prescribed movements in uniform flow. Six cases, namely pure in-line, pure cross-flow and two groups of ＇Figure of Eight＇ oscillation patterns are under investigation at Reynolds number Re = 24000. The ＇ Figure of Eight＇ pattern in each group is with identical shape but oppusite orbital directions. The numerical results on hydrodynamic forces, higher order force components, and vortex shedding modes are extensively studied and compared with the measured experimental data. It is found that the fluid force in phase with the velocity, which represents the energy transfer between the fluid and the cylinder, has opposite sign and different magnitude due to the opposite orbital direction. Higher order force components in cross-flow direction are found to occur at odd nmnber times of the oscillating frequency, while even nmbers dominate the higher order force components in in-llne direction. The 2C and 2T vortex shedding modes are well reproduced due to the opposite orbital direction effect. Comparisons between numerical and experimental results indicate that the present numerical model could be a rational tool for the identification of hydrodynamic coefficients which are normally applied in empirical models to predict the vortex-induced vibrations of slender marine structures.

Investigation of an X-band magnetically insulated transmission line oscillator

An X-band magnetically insulated transmission line oscillator （MILO） is designed and investigated numerically and experimentally for the first time. The X-band MILO is optimized in detail with KARAT code. In simulation, the X-band MILO, driven by a 720 kV, 53 kA electron beam, comes to a nonlinear steady state in 4.0 ns. High-power microwaves （HPM） of TEM mode is generated with an average power of 4.1 GW, a frequency of 9.3 GHz, and power conversion efficiency of 10.870 in durations of 0-40 ns. The device is fabricated according to the simulation results. In experiments, when the voltage is 400 kV and the current is 50 kA, the radiated microwave power reaches about 110 MW and the dominating frequency is 9.7GHz. Because the surfaces of the cathode end and the beam dump are destroyed, the diode voltage cannot increase continuously. However, when the diode voltage is 400 kV, the average power output is obtained to be 700 MW in simulation. The impedance of the device is clearly smaller than the simulation prediction. Moreover, the duration of the microwave pulse is obviously shorter than that of the current pulse. The experimental results are greatly different from the simulation predictions. The preliminary analyses show that the generations of the anode plasma, the cathode flare and the anode flare are the essential cause for the remarkable deviation of the experimental results from the simulation predictions.

Magnetically insulated transmission line oscillator oscillated in a modified HEM_(11) mode

This paper puts forward a novel magnetically insulated transmission line oscillator （MILO） for the first time which takes a modified HEM11 mode as its main interaction mode. The excitation of the oscillation mode is made possible by carefully adjusting the arrangements of each resonant cavity in a two-dimensional （2-D） slow wave structure. The high frequency characteristics are analyzed and a PIC simulation is carried out; the detailed results are discussed to get a better understanding of this new MILO. Employing an electron beam of about 441 kV and 39.7 kA, it finds that the modified HEM11 mode MILO generates a high power microwave output of about 1.47 GW at 1.45 GHz. The power conversion efficiency is about 8.4% and the generated microwave is in a TEll-like circularly polarized mode; its polarization direction is decided by the rotation direction of the SWS.

HEM_(11) mode magnetically insulated transmission line oscillator:Simulation and experiment

A novel magnetically insulated transmission line oscillator （MILO） in which a modified HEM11 mode is taken as its main interaction mode （HEM11 mode MILO） is simulated and experimented in this paper. The excitation of the oscillation mode is made possible by carefully adjusting the arrangement of each resonant cavity in a two-dimensional slow wave structure. The special feature of such a device is that in the slow-wave-structure region, the interaction mode is HEM11 mode which is a TM-like one that could interact with electron beams effectively; and in the coaxial output region, the microwave mode is TE11 mode which has a favourable field density pattern to be directly radiated. Employing an electron beam of about 441 kV and 39.7 kA, the HEM11 mode MILO generates a high power microwave output of about 1.47 GW at 1.45 GHz in particle-in-cell simulation. The power conversion efficiency is about 8.4 % and the generated microwave is in a TEll-like circular polarization mode. In a preliminary experiment investigation, high power microwave is detected from the device with a frequency of 1.46 GHz, an output energy of 43 J 47 J, and a pulse duration of 44 ns-49 ns when the input voltage is 430 kV450 kV, and the diode current is 37 kA-39 kA.

Simulational Investigation of a High-Efficiency X-Band Magnetically Insulated Line Oscillator

Abstract The magnetically insulated line oscillator （MILO） is a gigawatt-class, coaxial crossed-field microwave tube, which is at present a major hotspot in the field of high-power mi- crowaves （HPM） research. In order to improve the power conversion efficiency and eliminate or at least minimize anode plasma formation in the load region and radio frequency （RF） breakdown in the slow wave structure （SWS） section, an X-band MILO is presented and inyestigated nu- merically with KARAT code. The design idea is briefly presented and the simulation results are given and discussed. In the simulation, HPM is generated with peak power of 3.4 GW, maximum electric field of about 1 MV/cm, and peak power conversion efficiency of 14.0%, when the voltage is 559.1 kV and the current is 43.2 kA. The microwave frequency is pure and falls in the X-band of 9.0 GHz. The theoretical investigation and the simulation results are given to prove that the anode plasma formation and the RF breakdown can be effectively avoided or at least minimized, respectively.

A tunable magnetically insulated transmission line oscillator

A tunable magnetically insulated transmission line oscillator（MILO） is put forward and simulated. When the MILO is driven by a 430 k V, 40.6 k A electron beam, high-power microwave is generated with a peak output power of 3.0 GW and frequency of 1.51 GHz, and the relevant power conversion efficiency is 17.2%. The 3-d B tunable frequency range（the relative output power is above half of the peak output power） is 2.25–0.825 GHz when the outer radius of the slow-wave structure（SWS） vanes ranges from 77 mm to 155 mm, and the 3-d B tuning bandwidth is 92%, which is sufficient for the aim of large-scale tuning and high power output.

Wave Motion in an Ice Covered Ocean Due to Small Oscillations of a Submerged Thin Vertical Plate

在我们学习的这份报纸，一个薄垂直盘子的小摆动生产的表面波浪的产生的问题在深冰沉没了盖住的海洋。二个特别问题这里被认为 viz，波浪产生的问题由于一) 板和 b 滚动) 在一个固定垂直盘子前面的线来源的存在。全体的散发的波浪的振幅为两个问题，从板的距离被草地的合适的应用获得积分定理。这些然后为冰盖子参数的各种各样的值图形地被学习。

CMOS Phase and Quadrature Pulsed Differential Oscillators Coupled through Microstrip Delay-Lines

An innovative solution to design phase and quadrature pulsed coupled oscillators systems through electromagnetic waveguides is described in this paper. Each oscillator is constituted by an LC differential resonator refilled through a couple of current pulse generator circuits. The phase and quadrature coupling between the two differential oscillators is achieved using delayed replicas of generated fundamentals from a resonator as driving signal of pulse generator injecting in the other resonator. The delayed replicas are obtained by microstrip-based delay-lines. A 2.4 - 2.5 GHz VCO has been implemented in a 150 nm RF CMOS process. Simulations showed at 1 MHz offset a phase noise of -139.9 dBc/Hz and a FOM of -189.1 dB.

S Zorb装置反应器接收器脱气线和再生器取热盘管改造

某公司对S Zorb装置首个运行周期内出现的反应器接收器脱气线泄漏、再生器取热盘管泄漏等运行问题开展了技术攻关,提出了工艺优化调整、工程技术改造建议。2019年大检修时对反应器脱气线进行扩径,由DN100扩径为DN150,控制气提量小于670 m^(3)/h,对再生系统取热蒸汽和再生风流控阀等进行了工程技术改造。第二运行周期未出现脱气线减薄泄漏和再生器取热盘管泄漏问题。2023年6月大检修时对上次大检修改造部位进行检查以验证工程改造的有效性,经全面检查,确认脱气线内部未发现冲刷痕迹,再生器取热盘管打压合格,外观正常,证明改造措施有效,可以满足“四年一修”目标要求。

基于差模开关振荡的变频电机绕组相端绝缘状态特征提取与解耦

变频电机相端绝缘受脉冲宽度调制高频开关暂态过电压冲击易发生劣化。利用开关振荡谐振效应可望灵敏感知相端绝缘状态的微弱变化,但绝缘状态特征存在多因素高频耦合的问题。为此,该文提出一种基于差模开关振荡的相端绝缘状态特征提取与解耦方法。首先,通过分析变频电机系统开关振荡主导模态,选择高频差模开关振荡作为敏感模态,解耦逆变器功率器件分布电容的影响;然后,通过变分模态分解算法提取多模态开关振荡中的差模频率特征,解耦暂态运行工况下功率器件动态开关时间的影响。最后,利用逆变器侧和电机侧差模开关振荡电流幅值比特征,解耦电缆高频分布参数的影响。在380V/3kW永磁电机变频驱动系统中验证所提方法的有效性,结果表明,所提方法能够灵敏反映电机相端绝缘状态的微弱变化,可以有效解耦逆变器、电缆、运行工况等因素的影响。

Dynamics of Low-Viscosity Liquids Interface in an Unevenly Rotating Vertical Layer

The behavior of two immiscible low-viscosity liquids differing in density and viscosity in a vertical flat layer undergoing modulated rotation is experimentally studied.The layer has a circular axisymmetric boundary.In the absence of modulation of the rotation speed,the interphase boundary has the shape of a short axisymmetric cylinder.A new effect has been discovered,under the influence of rotation speed modulation,the interface takes on a new dynamic equilibrium state.A more viscous liquid covers the end boundaries of the layer in the form of thin films,which have the shape of round spots of almost constant radius;with increasing amplitude of the velocity modulation,the wetting boundary expands.It is found that upon reaching the critical amplitude of oscillations,the film of a viscous liquid loses stability,and the outer edge of the wetting spot collapses and takes on a feathery structure.It is shown that this threshold is caused by the development of the Kelvin-Helmholtz oscillatory instability of the film.The spreading radius of a spot of light viscous liquid and its stability are studied depending on the rotation rate,amplitude,and frequency of rotation speed modulation.The discovered averaged effects are determined by different oscillatory interaction of fluids with the end-walls of the cell,due to different viscosities.The effect of films forming can find application in technological processes to intensify mass transfer at interphase boundaries.

直流受端馈入站与近区风电场系统振荡特性分析

随着高压直流输电工程的不断投产,以及风电项目的增多,越来越多的风电场出现在电网换相换流器高压直流输电(line-commutated-converter based high voltage direct current,LCC-HVDC)受端换流站近区,两者构成的系统存在振荡风险。为此,该文针对直流受端馈入站与近区风电场系统的振荡特性展开研究。首先,建立并验证系统的状态空间模型,基于该模型计算出系统特征值,确定LCC-HVDC与风电场共同参与的振荡主导模式并进行参与因子分析。进一步地,通过对比是否接入LCC-HVDC的主导模式,得到LCC-HVDC的接入会削弱系统阻尼的结论。最后,从系统额定容量、交流系统短路比、风电场并网线路长度等方面探究系统稳定性的影响因素,并分析系统的不同短路比、潮流比对风机网侧换流器(grid-side converter,GSC)外环控制和换流站定电流控制器性能的影响。

混合双馈入直流输电系统的高频振荡特征及机理研究

在混合双馈入直流输电系统中,由于电网换相换流器型高压直流输电(line commutated converter based high voltage direct current,LCC-HVDC)的存在,系统在不同的联络线长度下呈现出不同的高频振荡特征。为研究混合双馈入直流输电系统的高频振荡特征及机理,首先建立系统的状态空间模型,基于此研究系统的高频振荡特征,结果表明,由于LCC子系统的存在,在不同的联络线长度下混合双馈入直流输电系统呈现出不同的高频振荡特征。然后,建立混合双馈入直流系统的高频阻抗模型,研究LCC子系统、联络线长度、模块化多电平换流器(modular multilevel converter,MMC)控制链路延时、交流线路长度等对系统高频阻抗的影响。结果表明,对于无电气距离的混合双馈入系统,LCC滤波器的存在使其无高频振荡风险;对于有电气距离的混合双馈入系统,当LCC和MMC子系统之间的电气距离较近时,LCC交流滤波器对系统高频振荡的抑制效果随着联络线长度的增大而减弱。最后,提出混合双馈入系统无高频振荡风险的联络线临界长度确定方法,并通过理论分析和电磁暂态仿真进行有效性验证。

新能源基地经LCC-HVDC送出系统振荡机理分析与抑制策略(二):阻抗特性与振荡机理分析

该文基于系列文章1建立的电网换相换流器型高压直流(line commutated converter-based high voltage direct current,LCC-HVDC)阻抗模型,开展新能源基地经LCC-HVDC送出系统阻抗特性和振荡机理分析。首先,研究LCC-HVDC送端交流端口阻抗与阀本体交流阻抗、交流滤波器阻抗间的构成关系,分析直流线路、受端换流站、受端电网强度对送端换流站阀本体交流阻抗的主导影响;然后,研究送端换流站直流电流环对阀本体交流阻抗的重叠效应,分析送端换流站交流端口阻抗次/超同步频段负阻尼特性形成机理,并论述受端换流站和受端电网强度对送端交流端口阻抗特性的交互影响;接下来,建立新能源基地经LCC-HVDC送出系统等值模型,研究送端系统振荡边界条件,阐明LCC-HVDC对新能源并网点阻抗特性影响的变化规律,揭示直驱风机(permanent magnet synchronous generator,PMSG)、双馈风机(doubly-fed induction generator,DFIG)、光伏(photovoltaic,PV)不同类型新能源基地经LCC-HVDC送出系统次/超同步振荡机理;最后,不同类型新能源基地经LCC-HVDC送出系统仿真结果验证了该文提出的次/超同步振荡机理的正确性和通用性。

分网接入方式下LCC-HVDC系统运动方程模型及交互振荡模式的阻尼特征(二):交互振荡模式研究

为研究分网接入方式下电网换相换流器高压直流输电(line commutated converter based high voltage direct current,LCC-HVDC)系统的交互振荡模式及阻尼特征,基于系统的状态空间模型及系列文章(一)建立的运动方程模型,提取了表征逆变侧电气与控制环节强耦合特性的多个弱阻尼交互振荡模式,研究了不同短路比工况下交互振荡模式的变化特征。在此基础上,通过复转矩系数法量化评估了整流侧/逆变侧内部自稳性路径及双极交互作用致稳性路径对主导交互振荡模式阻尼特性的贡献度。结果表明:1)不同短路比工况下交互振荡模式的阻尼比会进行重新分配;2)当逆变侧正负极短路比相差较大时,双极交互作用较弱,正负极系统的稳定性由2个交互振荡模式各自主导,且稳定性特征有所差异;3)当逆变侧正负极短路比相近时,双极间动态交互加强,交互振荡模式会同时主导参与系统两极的稳定性,正负极稳定性特征相似。

某汽油发动机气缸垫失效分析

某发动机在进行冷热冲击工况耐久试验时发生了多处漏油并且有开裂的现象,为了研究瞬态工况气缸垫发生的变化,本文基于有限元的方法,根据发动机试验循环数据,分析在冷热冲击试验中气缸垫密封发生的变化。研究结果表面,此方法可以得到密封筋在整个工作循环下的压线历程,在升温阶段更容易发生渗漏问题,分析结果与试验结果基本一致。通过对缸垫层数的优化,可以解决漏油及开裂问题。

Nonlinear Coupled in-Line and Cross-Flow Vortex-Induced Vibration Analysis of Top Tensioned Riser

The fluctuating furces of the fluid exerted on the top terrsioned riser （＇FIR） in the in-line and cross-flow directions are both modeled by van del Pol wake oscillator model and the nonlinear coupled dynamics of the in-line and cross-flow vortex-induced vibrations （VIV） of the riser are analyzed in time domain in this papar. The numencal shnulation results of the riser＇s in-line and cross-flow displacements and curvatures are compared with experimental measurements and the comparison shows the validity of this method in modeling some main features of the riser＇s VIV. Finally, the effects of the riser＇s top tensions and internal flow velocities on the coupled vibrations of the riser are investigated.

Interactions between two in-line drops rising in pure glycerin

The behaviors of time-dependent interaction between two buoyancy-driven in-line deformable drops rising in pure glycerin at Re b 1 were studied,where the diameter for the leading drops ranged from 9.51 mm to12.6 mm and for trailing drops from 12.7 mm to 15.8 mm.The situation while a larger drop chasing a smaller one was specifically considered which typically led to the smaller drop "coating" the larger one.Two approaches,the geometric feature approach and the energy change one,were used to judge the starting and ending times of the interaction between two drops.Based on a conical wake model,the drag coefficient of two approaching drops was calculated.Due to the approaching effect of the trailing drop,the leading drop was accelerated and the average drag coefficient was smaller than that for a free rising single drop.The frequency spectrums of the lateral oscillation of two drops during the interaction were obtained by using Fourier analysis.The oscillation frequency of the interactional drops was also different from that for a free rising single drop because of the wake effect produced by the leading drop.Due to a superposition of the drop shape oscillation and the drop internal circulation,the transverse oscillation frequencies of two drops have the same trend during the approaching process.

一种抑制输电线路次档距振荡的新型阻尼间隔棒及其减振效果分析

次档距振荡是风的尾流效应引起多分裂导线在次档距范围内振动现象,成为危害输电线路安全稳定运行的一种主要灾害。为了减轻输电线路次档距振荡,提出并设计一种新型阻尼间隔棒。首先通过建立振动平衡方程分析新型阻尼间隔棒的吸振和减振机理,详细探究阻尼比、固有频率比和质量比的变化对其减振性能的影响规律,同时利用数值方法建立新型阻尼间隔棒–分裂导线体系的有限元模型,研究新型阻尼间隔棒对次档距振荡的减振效果,通过与普通间隔棒的减振效果对比发现,安装新型阻尼间隔棒的中间档距导线中点水平和竖向位移大幅减小,新型阻尼间隔棒对输电线路次档距振荡具有明显的减振作用。最后对新型阻尼间隔棒的结构参数和安装位置进行优化和设计,给出新型阻尼间隔棒的重球质量、弹簧刚度和阻尼系数的取值以及阻尼间隔棒的不等间距安装布置方案。

声振荡作用下推进剂铝颗粒团聚特性实验研究

为获得压强振荡对推进剂燃烧表面铝颗粒团聚特性的影响,建立了声振荡作用下铝颗粒团聚特性实验测量装置和方法,采用高速显微成像技术和激光全息技术同步测量的方法,对HTPB四组元推进剂在有、无声振荡作用下的铝颗粒团聚特性进行了实验研究。研究结果表明,在340 Hz声振荡作用下,铝颗粒火焰呈现与声振荡频率相一致的周期性摆动,颗粒微观形貌发生明显的形变;受声场力的作用,小尺度颗粒(40~80μm)团聚作用减弱,中等尺度颗粒(100~260μm)团聚作用加强,且更容易发生融合等现象,从而改变了推进剂燃烧表面及近表面铝团聚颗粒粒度分布(0~3 mm),团聚粒度及团聚分数均增加。所建立的实验方法可为研究压强振荡作用下推进剂铝团聚特性提供有效的实验技术和数据参考。