用超声技术测量河流含沙量的研究

本文介绍了一种应用超声在液固两相介质中传播衰减的原理监测河流含沙量的仪器,该仪器结构简单,操作方便,测量迅速,不需采样分析。经实验室模拟试验和现场实际测量,基本能满足水文测试的要求,可以根据需要测量任一瞬间,任一位置的河流含沙量,并能连续记录沙量变化的全过程,为泥沙的自动化观测创造了条件,是泥沙测量技术的一种新途径。     

用于测量流量和含沙量的超声波液位测定系统

本文介绍了实验室内用于测量流量和含沙量的超声波液位测定系统，此系统采用气介式方案，选用复合材料高频换能器作为超声波发射／接收器件，结构简单，静态测量时测量误差在１５０ｍｍ范围内不超过１ｍｍ，并可与微机进行远距离通讯。     

基于Wigner-Ville分布用超声回波测量随机介质的特征

生物组织微结构具有随机介质的特性,文中构建了生物组织超声散射的一维随机介质模型,提出用Ｗｉｇｎｅｒ－Ｖｉｌｌｅ分布函数方法估计该随机仙擀的空间分布特征,仿真和实验结果表明这一方法具有良好的空间分辨率,能较好地检测出随机介质微小散射元的个数和空间分布同时能精确地保估出散射元平均间距,研究结果表明该方法还具有良好的抗噪声性等优良特性。     

基于无线通信的激光超声测量系统

激光超声测量技术是一种重要和先进的非接触式超声测量技术.为了减少测量系统各构成部分间的电缆连接,将无线通信技术与激光测量技术的特点相结合,研究了一种激光超声无损测量系统,分析了该测量系统的原理及构成.系统用掺钕钇铝石榴石固体激光器在材料中激励超声波,压电换能器接收超声信号.该信号经系统级芯片MSP430F2274单片机放大、模数转换成数字信号,然后由单片机控制nRF905芯片进行信号的无线传输.接收部分的单片机采用RS-232-C接口标准实现与计算机的串行通信,把信号送入计算机显示记录存储和处理.结果表明该系统实现了激光超声的近程无线测量, 简化了系统的结构,传输性能稳定,对周围电子仪器干扰小,显示了很好的应用前景.     

利用超声测量动态力

振动机器作用在底座上的动态力由于种种原因测量往往是困难的或不可能的。本文提出一种利用超声测量这种动态力的新方法。超声方法已广泛用于测量结构材料的应力状态或弹性常数等。本方法最显著的特点是测量底座和振动机器间相互作用区所产生力的积分动态分量,其原理是基于固体中弹性波的非共振参量相互作用,它是在高频波被一低频形变场相位调制时出现的一种效应。利用机器在底座上力作用的一个模型,可以获得一些方程,方程给出了探测底座的弹性波的相位变化作为作用力动态分量的函数。     

利用彩虹强度角谱分布对圆柱直径的测量

采用ＣＣＤ线阵的散射光强角分布测量系统,测量了水、酒精液柱、光纤的彩虹角分布。根据严格米氏理论,数值研究了大尺寸参数圆柱的彩虹现象,获得与实验相吻合的数值结果。讨论了几何光学和艾里理论局限性,将米氏理论和几何光学结合,对彩虹现象给予了更为合理的解释。利用第一级彩虹角反演折射率,以及将彩虹强度导数角分布进行快速傅里叶变换获得了角谱反演圆柱粒子的直径。并讨论了利用角谱反演粒子折射率和直径的精度。     

超声衰减和速度谱测量亚微米乳液的粒径

研究了超声衰减谱法和相速度测量高浓度多分散脂肪两相乳浊液的粒径分布问题.在理论分析基础上,实验测量了多个浓度(2%～20%)脂肪乳试样在2～13 MHz频带下超声衰减和相速度谱,结合反演算法由实验数据计算出乳浊液颗粒的粒径分布,并讨论了相速度法的意义和特点.将原始浓度(20%)下测得粒径分布与消光法在稀释条件下相同试样测量结果作对比,二者比较吻合,表明超声谱法可在无稀释的高浓度条件下作乳浊液粒径分布的表征.     

一种测量功率超声振动系统振速比的简单方法

本文提出了一种测量功率超声振动系统中振动速度比的简单方法。与传统的测量方法相比,本方法将力学量转变为电学量的测量,将绝对测量变成了相对测量,降低了对实验设备的要求,有利于提高测试精度。     

检测超声换能器的校准与性能测量

检测超声换能器的性能是设计制造者和使用者都十分关心的问题。本文就超声换能器的几个主要整体性能——灵敏度、时间响应(传输函数)、空间响应(指向性和声场分布)以及等效电阻抗的测量与校准技术作了简要的综述。其中以灵敏度和时间响应的测量和校准为重点介绍了各种方法的原理和适用范围,并对其特点和局限性作了分析。     

一种测量p-GaN载流子浓度的方法

提出了一种测量p-GaN载流子浓度的方法,其主要思想是利用p-n⁺结构GaN探测器长波和短波量子效率的差值随反向偏压的变化关系,找到p-GaN层刚好完全耗尽时的偏压,从而求出p-GaN层载流子浓度.模拟计算表明,该方法能够准确测量出p-GaN层的载流子浓度,而且受表面复合、欧姆接触影响很小.进一步研究了实际测量中如何选择p-GaN层厚度,计算结果表明,p-GaN层的优化厚度值随着p-GaN层的浓度增加而减小. 关键词： p-GaN 载流子浓度测量 紫外探测器     

The use of ultrasound to reduce internal concentration polarization in forward osmosis

Unlike reverse osmosis (RO) that is dominated by the hydraulic pressure differential, forward osmosis (FO) uses the osmotic pressure gradient as the driving force between a dilute feed solution and a concentrated draw solution across a membrane. High pressure is not required in FO, which means that FO can be used as an alternative to RO as an energy-saving separation process in desalination technology. However, a major limiting factor of the FO process is the internal concentration polarization (ICP). Because of the stagnant environment inside the porous supporting layer of a FO membrane, it is difficult to mitigate the ICP by simply increasing the shear stress or promoting turbulence. In this study, the ICP is reduced by ultrasound. The effect of the ultrasound frequency and output power on the ICP coefficient is investigated in a flat-sheet FO membrane module with counter-current flow. The ultrasound frequency and output power are varied between 25, 45, and 72 kHz and over the range of 10–70 W, respectively. NaCl solution is used as both the feed and draw solution. The results illustrate that moderate ultrasonic irradiation is effective for reducing the ICP in a FO process. A modified solution–diffusion model based on film theory is used to assess the effect of ultrasound on the ICP in a FO process. The ICP coefficient is estimated using this model.     

Effects of an implant on temperature distribution in tissue during ultrasound diathermy

The effects of an implant on temperature distribution in a tissue-mimicking hydrogel phantom during the application of therapeutic ultrasound were investigated. In vitro experiments were conducted to compare the influences of plastic and metal implants on ultrasound diathermy and to calibrate parameters in finite element simulation models. The temperature histories and characteristics of the opaque (denatured) areas in the hydrogel phantoms predicted by the numerical simulations show good correlation with those observed in the in vitro experiments. This study provides an insight into the temperature profile in the vicinity of an implant by therapeutic ultrasound heating typically used for physiotherapy. A parametric study was conducted through numerical simulations to investigate the effects of several factors, such as implant material type, ultrasound operation frequency, implant thickness and tissue thickness on the temperature distribution in the hydrogel phantom. The results indicate that the implant material type and implant thickness are the main parameters influencing the temperature distribution. In addition, once the implant material and ultrasound operation frequency are chosen, an optimal implant thickness can be obtained so as to avoid overheating injuries in tissue.     

电场对空气分子浓度分布的影响

被极化的空气分子受到电场的作用具有向场强大的地方运动的趋势,另一方面,由于分子热运动的作用将破坏这种趋势,最终结果导致场强大的地方分子浓度高,场强弱的地方分子浓度低．但高压输电线附近的空气分子浓度比别处高吗？本文由玻尔兹曼分布律推导出电场中气体分子浓度随场强变化的公式,发现电场对空气分子浓度分布的影响非常微弱．     

U型光纤传感器液体浓度测量系统的研究

为了测量液体的浓度,设计制作了一个U型光纤传感系统.在固定光源波长以及恒温的条件下,激光光源发出的光信号在U型光纤传感区域发生全反射,并且得到被测液体参数的调制,通过测量光接收端电信号的大小,可以得到被测液体的浓度.整个实验装置结构简单,主要由激光光源、U型光纤传感探头和光接收器件组成.实验以食盐溶液和蔗糖溶液为测量对...     

基于超声相位差法的乙醇汽油浓度测量仪的研制

提出了超声相位差法测定乙醇汽油溶液浓度的新方法,根据该方法设计并制作了超声在线测定仪.利用该仪器建立了温度在290 K时乙醇体积浓度在3％ ～24％的乙醇汽油溶液浓度与相位差之间的关系式.实验结果表明,该超声测定仪能够实时和精确地测定乙醇汽油溶液中乙醇体积浓度,该仪器为精确测量车用乙醇汽油和其他二元溶液开辟了新途径.     

Potential uses of ultrasound in the biological decontamination of water

In the past there was a prevailing feeling in industry that power ultrasound would be too expensive to use for water treatment on an industrial scale. This was based on calculations involving the direct scale up of power consumption in small-scale (generally batch) laboratory experiments. In recent times this attitude has changed somewhat as a result of the installation of a number of ultrasonic devices in operational water or sewage treatment plants. In our laboratories we have investigated the decontamination of water under the influence of ultrasound alone and in conjunction with other treatments. The results, particularly when applied to flowing systems, indicate a real future for sonochemistry in water treatment.     

岛礁海域海洋环境噪声垂直分布和垂直指向性

依据岛礁海域复杂海底地形、海试期间航船分布和实测风速数据,应用射线声传播理论,建立岛礁海域海洋环境噪声三维模型。在海试岛礁海域深海声道条件下,采用射线3D算法,仿真计算了32元垂直测量阵所处265~885 m负声速梯度深度范围内1 kHz风关和50 Hz远处航船海洋环境噪声级垂直分布,以及50 Hz航船海洋环境噪声垂直指向性,并与实测分析进行比较。结果表明,仿真结果与海试实测数据一致性良好。在本例海底起伏、接收点周边存在众多岛礁和海底山的三维环境中,1 kHz风关海洋环境噪声级随深度分布较近于均匀;西南方向较远处航道区海域海底较平坦,航道区至接收阵为缓斜坡海底,50 Hz远处航船海洋环境噪声级随深度有所增加,其噪声垂直指向性无明显水平凹槽。文中建立的岛礁海域海洋环境噪声三维模型,可较好地表征本例岛礁复杂地形海底起伏海域的风关和航船海洋环境噪声级的垂直分布、及航船环境噪声的垂直指向性,实测和仿真的岛礁海域海洋环境噪声相关数据,可供实际应用及相关研究参考。     

Effects of powder concentration distribution on fabrication of thin-wall parts in coaxial laser cladding

In this paper, model of effects of powder concentration distribution on fabrication of thin-wall parts in coaxial laser cladding was developed. There exists relationship between powder concentration distribution and power density distribution, which affects fabrication of thin-wall parts in coaxial laser cladding. Changes in powder concentration distribution lead to changes in wall thickness and wall growing rate. Fluctuation of powder feed rate deteriorates the growing wall in laser cladding. Deviation of the powder flow stream makes the powder concentration distribution, the thermal flux density and consequently the molten pool not symmetrical against the x-axis, resulting in irregular upper faces of the formed wall. This was verified by the results of experiment.     

The use of thermistor probes to measure energy distribution in ultrasound fields

The use of small thermistors coated with absorbing material for the measurement of ultrasound fields is discussed. Equilibrium temperature rise gives a rough measure of intensity, but is affected by convective cooling due to streaming. The initial rate of temperature rise provides an accurate parameter for use in assessing energy density in all types of ultrasound field. Measurements made in standing wave fields show that the thermistor response is related to the pressure component of the sound wave, and is determined by absorption throughout the coating material.