简谈普适气体常量R——贯穿普化教育的重要常量

The universal gas constant R is an important constant in physics, and one of the vital fundamental constant throughout the teaching of general chemistry. This article aims to present a general review about the universal gas constant to the science and engineering majored students, including its history, determination, physical meaning and applications in chemical education. The choice of R values under various conditions is also provided to help students better understand and master basic concepts.     

考虑任意阻抗壁面条件管腔结构声场特性分析

针对任意阻抗壁面条件一维管腔声学系统建模,对系统动力学特性进行预报。为了满足阻抗边界条件对声压一阶导数连续性要求,管腔声压函数通过在标准傅里叶级数端点位置引入边界光滑辅助多项式进行构建。结合壁面阻抗声学边界和管腔声学Helmholtz控制微分方程得到强形式标准特征值问题,获得相应的声学模态信息。在数值仿真中,通过算例给出各种边界条件下管腔声学模态频率、声压振型、声压和质点振速频率响应曲线,与现有文献中相关结果进行对比,充分验证了本文求解方法的正确性和有效性,证明该方法可对任意阻抗壁面条件管腔系统声学特性进行准确预报。     

空气耦合电容式微超声换能器设计

建立了空气耦合电容式微超声换能器(CMUT)的理论方法,分析CMUT各个结构参数对其性能参数的影响。根据理论分析结果结合无损检测应用背景设计了一个由16个阵元构成的CMUT阵列,并采用SOI晶圆键合工艺制作。该阵列每个阵元包含16个圆形CMUT敏感单元,敏感单元的半径400μm,中心频率230 kHz。建立CMUT发射和接收瞬态仿真模型分别得到CMUT发射声压和接收灵敏度与激励电压的关系,并通过实验测试验证该仿真模型的准确性。最后通过实验对CMUT与商用压电空耦超声换能器的性能进行对比,实验结果表明CMUT的发射声压和接收灵敏度与商用换能器达到相同数量级,并且能够成功激发和接收铝合金板中A_0模态Lamb波。     

Investigation on Rijke pipe＇s acoustic characteristics by numerical simulation： modeling the pulsing flow field coupled the inner of pipe with its outer space

Based on the results of fluid dynamics, heat transfer and acoustics, a Computational Fluid Dynamics （CFD） method was utilized to study the acoustic characteristics and self-excited pulsation mechanism inside a Rijke pipe. To avoid settling the irrational boundary conditions of the finite-amplitude standing wave in the Rijke thermo-acoustic system, the simulation modeling in the flow field, which coupled the inner of pipe with its outer space, was carried out to replace the traditional way in form of internal flow field numerical investigations. A hypothesis for heat source in energy equation including the relationship on unsteady heat of air around heat source, oscillation pressure and oscillation velocity was presented. To reflect the essence of Rijke pipe, simulation on self-excited oscillation was conducted by means of its own pulsation of pressure, velocity and temperature. This method can make the convergence process steady and effectively avoid divergence. The physical phenomenon of the self-excited Rijke pipe was analyzed. Moreover, the mechanisms on the Rijke pipe＇s self-excited oscillation were explained. Based on this method, comparative researches on the acoustic characteristic of the Rijke pipe with different size and different shape of nozzle were performed. The simulation results agreed with the experimental data satisfactorily. The results show that this numerical simulation can be used to study the sound pressure of nozzle for the engineering application of Rijke pipes.     

Synergistic effects on iodine release in potassium iodide solution by combination of ultrasound and visible light irradiations

Iodine release in potassium iodide solution has been investigated under the irradiations of ultrasound and visible light respectively and simultaneously. We have observed that the amount of iodine liberated under the combined irradiation of ultrasound and visible light is larger than the sum of that under the respective irradiations of ultrasound and visible light, indicating a synergistic effect of ultrasound and visible light irradiations. Based on the investigation of the reaction kinetics of iodine liberated, we have ascribed the synergistic effect to the perfect stirring of the photochemical reactor induced by the applying simultaneous ultrasound. The ideal stirring can result in the homogenization of the primary light effect in the whole reaction medium, which induces the acceleration of the photochemical reaction. On behavior of our knowledge, there are few reports on the investigations of utilizing the combination of ultrasonic energy and light energy to accelerate the reaction yield and rate as well as the kinetics of the reaction.     

Directivity calculation with experimental verification for a conformal array of underwater acoustic transducers

The radiation directivity of a complicated conformal array of underwater acoustic transducers is presented based on the boundary ＂element method. It includes the element directivity of each transducer, the natural beam pattern and the controlled beam pattern of the transducer array. At first, the boundary element model of the conformal array is built up, and then the boundary condition is exerted on the model according to the design and environment in which the transducer array is used, and the radiation directivity of the conformal array is calculated. An experiment has been done to measure the directivity in an anechoic water tank. The calculated and the experimental results are compared and analyzed. They are consistent to each other. It is shown that the boundary element method together with the detailed calculations is successful to simulate and predict the radiation directivity of an underwater acoustic transducer array.     

密集颗粒体系的颗粒运动及结构测量技术

颗粒材料由大量粗颗粒堆积形成, 是复杂的多体相互作用体系, 呈现出颗粒尺度的结构不均匀和动力学不均匀性的基本特征, 这决定了颗粒材料具有很多独特的宏观性质. 借鉴学科历史的发展途径, 基于统计力学, 从颗粒结构和动力学开始建立颗粒材料体系的宏观连续介质力学理论框架是必然途径.但是, 颗粒材料的基本特征决定了从基本理论到实验手段上, 表征与建立颗粒材料结构与性能的相关性都极其困难.这是由于现有测试分析手段所描述的颗粒系统组织结构过于简单化, 缺乏对颗粒结构和动力学的真正认识, 从而制约了颗粒物质研究的发展.因此, 开展颗粒体系结构和动力学性质的测量, 是理解和认识颗粒材料重要物理和力学问题的基础和依据.笔者来自不同的科研院所, 近十年来开展了颗粒体系结构和动力学性质的测量研究, 主要集中于以下两个方向: (1)数字图像测速法、散斑能见度光谱法和X射线- CT等非侵入式测量技术在颗粒运动方面的应用; (2)体积响应谱、力学谱(有效质量和内耗等)和声速测量技术等直接或间接测量颗粒接触力和颗粒结构技术.本文综述了这些实验手段的基本原理及其特点、取得的主要成果, 以及国际最新进展和困难. 最后是对全文的总结, 结合笔者开展测量的经验和教训, 提出了自己的看法, 并试图展望颗粒材料测量技术研究的前景.      

结合并行策略与距离减缩法的搜索算法及其在CAA中的应用

为提高流场与声场信息传递效率,建立了一种耦合MPI并行策略与改进距离减缩法的搜索算法。在完成点搜索后,采用一种适合于结构和非结构网格的形函数插值算法进行流场插值,实现了流场信息从流场网格到声场网格的快速传递。针对网格点搜索算法效率的验证,选用二维30P30N三段翼为研究对象,在不同的子进程数下进行对比分析。结果表明,相对于传统的距离减缩算法,本文提出的改进算法能有效提高CAA网格点的搜索效率,并且效率随着子进程数的增加而提高。在此基础上,将建立的流场与声场信息传递技术模块应用于CAA方法中,并对二维NACA0012翼型的后缘噪声问题进行计算分析,计算结果反映基于流场与声场信息快速传递算法的CAA方法能有效模拟宽频气动噪声问题。     

径向极化压电陶瓷长圆管复合超声换能器的径向振动

提出了一种圆管式径向复合压电陶瓷换能器,并对其径向振动特性进行了分析。该换能器由径向极化的压电陶瓷圆管以及金属外圆管组成。利用解析法得出了金属圆管以及具有任意壁厚的径向极化压电陶瓷圆管径向振动的机电等效电路。基于金属圆管与压电圆管的机械边界条件,得出了换能器的六端机电等效电路。在此基础上得出了换能器共振及反共振频率方程的解析表达式,给出了换能器的共振及反共振频率与其几何尺寸之间的依赖关系。利用数值方法对换能器的径向振动特性进行了模拟及仿真,并与解析结果进行了比较。最后,设计并加工了一些径向复合管式压电陶瓷换能器,利用精密阻抗分析仪对其共振及反共振频率进行了实验测试。研究结果表明,利用解析理论得出的换能器共振及反共振频率与数值模拟结果以及实验测试结果符合很好。      

成年口吃者流畅朗读中塞音的声学分析

研究对成年口吃者在流畅朗读过程中的塞音进行了声学分析,测量了嗓音起始时间并且计算了塞音爆破时刻的频谱矩,并将口吃者在言语矫治前后与非口吃者进行了对比。多因素方差分析结果显示,口吃者嗓音起始时间虽稍长于非口吃者但未达到统计意义上的显著性差异水平,而且受发音部位和韵母的影响程度较大。同时还观察到矫治前口吃者和非口吃者在塞音爆破段的频谱均值呈现出显著性差异,口吃者频谱均值低于非口吃者可能是由于口吃者舌与齿龈或软硬腭形成阻塞的部位在声道中偏后所导致,还发现口吃者韵母对塞音爆破段频谱的影响较小,此结果表明口吃者表现出相对较弱的协同发音现象。口吃者经过言语矫治后塞音的嗓音起始时间和爆破段频谱有向非口吃者逼近的趋势。