几种常用风沙颗粒测速方法对比   总被引：4，自引：4，他引：0  

董治宝  钱广强  罗万银  王洪涛 《中国沙漠》2010,30(4):749-757

沙粒运动速度是风沙颗粒运动学和风沙流（一种特殊的气固两相流）研究中的一个重要参数,受到风沙物理学研究者们的长期关注。风沙颗粒运动速度研究遇到的关键问题是测量方面的困难,目前已经尝试应用了多种测量技术。对几种常用测试手段——光电管测速计、高速摄影、粒子动态分析仪（PDA）和粒子图像测速仪（PIV）的测量结果进行了对比分析。光电管测速计、高速摄影法、以及粒子动态分析仪在研究颗粒速度的分布方面比较有用,而粒子图像测速仪则是一种全场测速技术,是测量特定区域内平均速度场时空变化的有用工具。上述几种测试方法所得的结果既有相似之处,但也存在较大差别。根据这些测速手段所得到的沙粒速度的概率分布特征是相似的,但测量结果所反映的沙粒平均速度与风速、粒径以及其他可能影响因子间的关系存在明显差异。目前的测量技术均不能直接测量贴近层或沙床表面的沙粒速度,而这些数据在研究地表颗粒的起动机制时是相当重要的。虽然用不同的测量技术所得出的沙粒平均速度随高度的变化关系均为幂函数,但这些幂函数的估算结果差别很大。基于对比分析,我们认为,各种测速技术均有其独特的测量原理,各有其优劣,但对其测量结果的可靠性尚无定论。所以,为了充分运用不同的测速技术,需要做大量的工作对其进行验证标定,研发一种可靠的技术来测量风沙流中的沙粒速度仍然是目前风沙物理研究的重要任务。  相似文献   

Velocity profile of a sand cloud blowing over a gravel surface   总被引：2，自引：0，他引：2  

Zhibao Dong  Hongtao Wang  Xiaoping Liu  Fang Li  Aiguo Zhao 《Geomorphology》2002,45(3-4)

Particle dynamic analyzer (PDA) measurement technology was used to study the turbulent characteristics and the variation with height of the mean horizontal (in the downwind direction) and vertical (in the upward direction) particle velocity of a sand cloud blowing over a gravel surface. The results show that the mean horizontal particle velocity of the cloud increases with height, while the mean vertical velocity decreases with height. The variation of the mean horizontal velocity with height is, to some extent, similar to the wind profile that increases logarithmically with height in the turbulent boundary layer. The variation of the mean vertical velocity with height is much more complex than that of the mean horizontal velocity. The increase of the resultant mean velocity with height can be expressed by a modified power function. Particle turbulence in the downwind direction decreases with height, while that in the vertical direction is complex. For fine sands (0.2–0.3 mm and 0.3–0.4 mm), there is a tendency for the particle turbulence to increase with height. In the very near-surface layer (<4 mm), the movement of blown sand particles is very complex due to the rebound of particles on the bed and the interparticle collisions in the air. Wind starts to accelerate particle movement about 4 mm from the surface. The initial rebound on the bed and the interparticle collisions in the air have a profound effect on particle movement below that height, where particle concentration is very high and wind velocity is very low.  相似文献   

Height profile of the mean velocity of an aeolian saltating cloud: Wind tunnel measurements by Particle Image Velocimetry   总被引：3，自引：0，他引：3  

Ping Yang  Zhibao Dong  Guangqiang Qian  Wanyin Luo  Hongtao Wang 《Geomorphology》2007,89(3-4):320-334

The velocity of saltating particles is an important parameter in studying the aeolian sand movement. We used Particle Image Velocimetry to measure the variation with height of the mean particle velocity of a saltating cloud over a loose sand surface in a wind tunnel. The results suggest that both the horizontal and vertical particle velocities fit the Gaussian distribution well, and that the mean particle velocity of a saltating cloud varies with wind velocity, particle size and the height above bed. The mean horizontal velocity is mainly the result of acceleration by the wind and increases with an increase in friction wind velocity but decreases with an increase in grain size because greater wind velocity causes more acceleration and finer particles are more easily accelerated at a given wind velocity. It also increases with an increase in height by a power function, in agreement with previous results obtained by other methods such as the high-speed multi-flash photographic method and Particle Dynamics Analyzer (PDA), reflecting, first, the increase in wind velocity with height through the boundary layer, and second, the longer trajectory-particle path length increases with height and affords a longer time for acceleration by the wind. An empirical model relating the mean horizontal particle velocity and height, friction wind velocity as well as particle size is developed. The ratio of the mean horizontal particle velocity to the clean wind velocity at the same height increases with height but decreases with grain size. The magnitude of mean vertical velocity is much less (one or two orders less) compared with the mean horizontal velocity. The average movement in the vertical direction of a saltating cloud is upward (the mean vertical velocity is positive). Although the upward velocity of a saltating particle should decrease with height due to gravity the mean vertical (upward) velocity (the average of both ascending and descending particles) generally shows a tendency to increase with height. It seems that at higher elevations the data are more and more dominated by the ‘high-flyers’. The underlying mechanism for the mean vertical velocity distribution patterns needs to be clarified by further study.  相似文献   

稳态风沙流中瞬态输沙特征   总被引：1，自引：0，他引：1  

亢力强  高咏晴  张文  邹学勇 《中国沙漠》2020,40(1):166-172

风沙流中沙粒运动在来流风速不变时也会表现出非稳态特征。在风洞内利用粒子图像测速系统（PIV）测量了风沙运动的时间序列,并基于PIV测量技术提出风沙流中沙粒平均直径、数密度、平均水平速度和输沙通量等参数在某一时刻的计算方法,其中输沙通量的计算考虑沙粒大小垂向分布的影响。结果表明：来流风速不变时,沙粒平均直径、数密度、平均水平速度和输沙通量随时间具有明显的波动性;沙粒平均直径和平均水平速度的标准偏差一般随高度增加而增加,沙粒数密度和输沙通量标准偏差随高度增大而减小;这些参数的相对标准偏差均随高度增加而增大。  相似文献   

粒子图像测速(PIV)技术在风沙环境风洞中的应用     

钱广强  董治宝  王洪涛  罗万银 《中国沙漠》2006,26(6):890-893

粒子图像测速技术是一种全新的非接触、瞬时、全场流速测量方法,广泛应用于流体力学实验中。笔者将其引入风沙运动研究是一个尝试,旨在为风沙物理和防沙工程研究提供新的测量手段。通过分析一系列的风洞实验结果,我们认为,在风沙流中颗粒速度分布、浓度分布、风沙地貌形成演化、防沙工程原理及应用方面,粒子图像测速技术具有一定优势,可以克服传统测量手段的某些不足。  相似文献   

PIV技术及其在风沙边界层研究中的应用   总被引：2，自引：2，他引：0  

罗万银  董治宝  钱广强 《中国沙漠》2007,27(5):733-737

为了考察粒子图像测速度技术在风沙环境风洞中的测量精度及在风沙边界层研究中的应用潜力,通过筛选适当的示踪颗粒,借助PIV测量系统重新测量了风沙环境风洞中的风廓线,并获得了风沙边界层内跃移沙粒的速度和浓度分布规律。实验结果表明：PIV测得的风速廓线与标准风速廓线仪所测结果相当吻合(R2≥0.99);沙粒跃移的平均水平速度和相对浓度（灰度）沿距离沙面高度分别呈幂函数和负指数分布,沙粒速度随高度和自由风速的增加而增大,相对浓度随高度的增加而快速衰减,风速越小衰减越快,风速越大衰减越慢,这一结果与前人的结论一致。PIV系统为将来能够进行更加精确的风沙运动微观机理研究提供了技术保证。  相似文献   

基于高速摄影技术的风沙流输沙通量剖面的风洞实验测量     

蒋缠文  董治宝  王晓艳 《中国沙漠》2016,36(5):1230-1237

风沙研究者非常重视对输沙通量随高度变化特征的研究,并为寻找可靠的测量手段付出了不懈的努力。基于高速摄影技术获得的沙粒平均水平速度与沙粒数的垂直剖面,推导了较低风速下环境风洞内输沙通量的垂直剖面。结果表明：沙粒平均水平速度随高度呈幂函数增加,颗粒浓度随高度的算数平方根呈指数衰减。由颗粒平均水平速度剖面与浓度剖面的乘积可获得输沙通量剖面。所获得的输沙通量随高度变化曲线在距床面1~3 mm处均有一个明显的拐点,拐点上方输沙通量随高度呈指数衰减。在床面与拐点之间输沙通量没有明显的变化趋势,这可能是由于气流中颗粒间的碰撞以及颗粒与床面碰撞的影响。平均跃移高度和相对衰减系数是描述输沙通量随高度变化的两个重要参数,两者有着很好的相关性,表明了随着风速增加和沙粒粒径减小跃移颗粒可以达到更大的高度,随着风速减小与粒径增大,输沙通量迅速衰减。  相似文献   

Wind tunnel experimental investigation of sand velocity in aeolian sand transport   总被引：4，自引：0，他引：4  

Liqiang Kang  Liejin Guo  Zhengmeng Gu  Dayou Liu 《Geomorphology》2008,97(3-4):438-450

Sand velocity in aeolian sand transport was measured using the laser Doppler technique of PDPA (Phase Doppler Particle Analyzer) in a wind tunnel. The sand velocity profile, probability distribution of particle velocity, particle velocity fluctuation and particle turbulence were analyzed in detail. The experimental results verified that the sand horizontal velocity profile can be expressed by a logarithmic function above 0.01 m, while a deviation occurs below 0.01 m. The mean vertical velocity of grains generally ranges from − 0.2 m/s to 0.2 m/s, and is downward at the lower height, upward at the higher height. The probability distributions of the horizontal velocity of ascending and descending particles have a typical peak and are right-skewed at a height of 4 mm in the lower part of saltation layer. The vertical profile of the horizontal RMS velocity fluctuation of particles shows a single peak. The horizontal RMS velocity fluctuation of sand particles is generally larger than the vertical RMS velocity fluctuation. The RMS velocity fluctuations of grains in both horizontal and vertical directions increase with wind velocity. The particle turbulence intensity decreases with height. The present investigation is helpful in understanding the sand movement mechanism in windblown sand transport and also provides a reference for the study of blowing sand velocity.  相似文献   

风沙流中沙粒起跳初速度分布的探讨   总被引：3，自引：3，他引：0  

谢莉  郑晓静 《中国沙漠》2003,23(6):637-641

风沙流结构中起跃沙粒的初速度分布,是连接微观研究和宏观研究的桥梁。笔者分析了已有的实验数据,就沙质地表起跃沙粒的速度分布、角度分布进行了计算;并运用碰撞理论建立了一个二维碰撞模型。考虑边界条件的影响,运用概率论统计的思想计算了风沙流结构中起跃沙粒初速度的概率分布,并和实验值进行了对比,得到了较好的结果,对风沙流中起跃沙粒的速度分布有了一个定性的认识。  相似文献   

非均匀沙的跃移计算     

樊莉  武生智 《中国沙漠》2011,30(3):583-587

 为研究更加接近实际情况的风沙运动,并为实验研究提供一些理论分析和数值资料,本研究用数值计算的方法模拟了几种不同粒径分布方式相应的风沙跃移运动。分别计算了沙粒为单一粒径,以及粒径数学期望为该值时的伪随机分布和均匀分布共7种情况下的风沙跃移运动。计算结果表明,对于相同风速,气流对单一粒径组成的均匀沙的携带能力较弱,而对由多粒径组成的非均匀沙的携带能力较强。同时,因沙粒粒径组成的改变导致当跃移运动达到饱和时,风沙流饱和层的高度和沙粒的跃移长度、高度均有所变化。  相似文献   

基于起跳初速度分布的沙颗粒浓度廓线的数值模拟   总被引：1，自引：1，他引：0  

黄新成  刘博  王旭峰  熊英 《中国沙漠》2015,35(3):534-541

跃移层内沙颗粒浓度分布是风沙两相流相互作用的结果,准确的沙颗粒浓度分布有助于弄清风沙互馈机制及沙颗粒间相互作用机制。由于沙颗粒浓度分布与沙颗粒起跳初速度分布以及气流运动密切相关,本文基于特定的沙颗粒起跳初速度分布函数,通过构建的沙颗粒在气流中运动的物理模型,并利用四阶精度的Adams-Bashforth-Moulton方法对所构建运动模型进行求解,统计分析稳定状态下两相流中沙颗粒运动轨迹的分布,分析其浓度廓线的垂向分布规律。计算结果表明跃移层内沙颗粒浓度分布廓线与高程呈负指数或伽马分布关系;高度一定时沙颗粒浓度廓线随摩阻风速的增大而减小,随颗粒直径的增大而增大。  相似文献   

Experimental investigation of the concentration profile of a blowing sand cloud   总被引：3，自引：0，他引：3  

Xiaoping Liu  Zhibao Dong 《Geomorphology》2004,60(3-4):371-381

Detailed wind tunnel tests were carried out to establish the mean downwind velocity and transport rate of different-sized loose dry sand at different free-stream wind velocities and heights, as well as to investigate the vertical variation in the concentration of blowing sand in a cloud. Particle dynamic analyzer (PDA) technology was used to measure the vertical variation in mean downwind velocity of a sand cloud in a wind tunnel. The results reveal that within the near-surface layer, the decay of blown sand flux with height can be expressed using an exponential function. In general, the mean downwind velocity increases with height and free-stream wind velocity, but decreases with grain size. The vertical variation in mean downwind velocity can be expressed by a power function. The concentration profile of sand within the saltation layer, calculated according to its flux profile and mean downwind profile, can be expressed using the exponential function: c_z=ae^−bz, where c_z is the blown sand concentration at height z, and a and bare parameters changing regularly with wind velocity and sand size. The concentration profiles are converted to rays of straight lines by plotting logarithmic concentration values against height. The slope of the straight lines, representing the relative decay rate of concentration with height, decreases with an increase in free-stream wind velocity and grain size, implying that more blown sand is transported to greater heights as grain size and wind speed increase.  相似文献   

中国风沙物理研究五十年(Ⅰ)   总被引：60，自引：33，他引：27  

董治宝 《中国沙漠》2005,25(3):293-305

2005年中国沙漠研究已经走过了50a的历程,作为沙漠科学重要组成部分的风沙物理学研究在中国亦有50a的历史了。本文较为详细地全面回顾了20世纪50年代中后期至90年代后期中国科学院知识创新工程实施之前我国风沙物理研究所做的主要工作和取得的成就,以期对相关的研究者有所帮助。这一时期的工作可以分为两个阶段。20世纪50年代中后期至60年代中期为理论准备和野外观测积累阶段,引进西方和前苏联在风沙物理学方面的研究成果,配合我国防沙治沙实践的需要开展野外观测研究。研究手段以大面积考察、半定位试验观测和定位试验为主。研究成果体现在风沙移动规律的初步认识、沙丘移动规律、中国沙丘活动的总体规律、防沙措施的布设原则和风沙运动理论的初步探讨等几个方面。1967年我国第一个风沙环境风洞建成使用,使风沙物理学的实验研究成为可能。自20世纪80年代开始同时向微观领域深入和向宏观领域扩展,风沙颗粒运动学、风沙流、风沙地貌动力、土壤风蚀和防沙原理等风沙物理学的主要领域得到了全面发展,在一些前沿探索领域亦有重要成就。  相似文献   

高速摄影技术在风沙颗粒测速中的应用研究     

蒋缠文  王晓艳  董治宝 《干旱区地理》2017,40(4):746-753

通过相邻图像减法获得了清晰的沙粒运动图像。在此基础上,分别提出了通过人工目视解译与计算机追踪相结合进行跃移颗粒数字轨迹追踪的多帧图像匹配算法以及更适用于计算跃移沙粒群运动瞬时速度场的两帧图像匹配算法。结果表明：与前人研究采用的单纯的人工匹配计算相比,多帧图像匹配算法在保证数据准确性的同时,极大的提高了工作效率。两帧图像匹配算法克服了传统的PTV匹配算法对流场内粒子群运动特征的要求,更加适宜于跃移沙粒群的速度测量,不仅拥有较高的匹配率,而且全过程实现全自动计算,具有较高的计算速度,能够为跃移相整体运动特性研究提供具有代表性的数据。因此,此方法有助于高速摄影技术在研究跃移沙粒运动中的优势更加明显。  相似文献   

人工卵石床面风沙流粒度特征   总被引：1，自引：0，他引：1  

张正偲  董治宝 《中国沙漠》2014,34(3):639-644

沉积物粒径分布对风沙沉积物的起动、输送和沉降过程十分重要。不同粒径的风沙沉积物空气动力学特征不同,从而导致其起动机理、输送过程和沉降模式不同。因此,粒度可以作为风沙沉积过程的指示器。戈壁是西北地区的一种重要地貌景观,戈壁风沙流是风沙物理研究的内容之一,但目前研究较少,特别是对戈壁风沙流粒度分布的研究,几乎没有报道。本文利用人工卵石床面模拟戈壁地表,对0.25、0.5、1 m和2 m高度的风沙流粒度特征进行观测,结果表明：沙源、地表状况、风程效应等影响沙粒粒径随高度的变化。沙源近,平均粒径随高度先减小后增加;沙源远,平均粒径随高度增加减小。戈壁表面的不同区域,沙粒粒径级配不同：随高度增加,粗砂,中砂含量降低,细砂、极细砂和粉砂含量增加;随距离增加,中砂含量降低,细砂、极细砂和粉砂含量增加。平均粒径越大,分选越好,偏度越趋于正偏,峰度越趋于变宽。偏度、峰度随分选系数增加而增加。峰度随偏度增加而增加。  相似文献   

基于MATLAB图像处理算法的风沙两相流PIV图像的分割方法   总被引：2，自引：0，他引：2  

蒋缠文  梅凡民  王晓艳 《中国沙漠》2011,31(2):367-371

为了深入理解沙粒起动的力学机制,需要从风洞实验中同步地获得风沙边界层中沙粒群和气流的瞬时速度信息。基于MATLAB平台的风沙两相流PIV图像分割的方法,利用沙粒群和气流示踪粒子特征粒径的显著差异,对风沙两相流PIV图像中的气固两相流进行图像分割,可分别获得沙粒群和气流示踪粒子的图像,并进一步对分离后的两相粒子按粒径进行分级分离,得到各级粒径粒子PIV图像,为进一步恢复气固两相流的流场奠定了基础。  相似文献   

A Wind Tunnel Investigation of the Shear Stress with A Blowing Sand Cloud     

Zhibao Dong  Hongtao Wang  Guangqiang Qian  Wanyin Luo 《寒旱区科学》2008,(1):0042-0058

In a blowing sand system,the wind provides the driving forces for the particle movement while the moving particles exert the opposite forces to the wind by extracting its momentum.The wind-sand interaction that can be characterized by shear stress and force exerted on the wind by moving particles results in the modification of wind profiles.Detailed wind pro-files re-adapted to blown sand movement are measured in a wind tunnel for different grain size populations and at differ-ent free-stream wind velocities.The shear stress with a blowing sand cloud and force exerted on the wind by moving par-ticles are calculated from the measured wind velocity profiles.The results suggest that the wind profiles with presence of blowing sand cloud assume convex-upward curves on the u(z)-ln(z) plot compared with the straight lines characterizing the velocity profiles of clean wind,and they can be better fitted by power function than log-linear function.The exponent of the power function ranging from 0.1 to 0.17 tends to increase with an increase in wind velocity but decrease with an increase in particle size.The force per unit volume exerted on the wind by blown sand drift that is calculated based on the empirical power functions for the wind velocity profiles is found to decrease with height.The particle-induced force makes the total shear stress with blowing sand cloud partitioned into air-borne stress that results from the wind velocity gradient and grain-borne stress that results from the upward or downward movement of particles.The air-borne stress in-creases with an increase in height,while the grain-borne stress decreases with an increase in height.The air-borne shear stress at the top of sand cloud layer increases with both wind velocity and grain size,implying that it increases with sand transport rate for a given grain size.The shear stress with a blowing sand cloud is also closely related to the sand transport rate.Both the total shear stress and grain-borne stress on the grain top is directly proportional to the squ  相似文献   

沙粒起跃的动态模拟   总被引：3，自引：3，他引：0  

孙其诚  王光谦 《中国沙漠》2001,21(Z1):17-21

沙粒起跃规律是风沙运动微观机理研究和宏观工程应用相联系的纽带,目前进展缓慢且不成熟。本文建立了简洁的沙粒碰撞模型,构造了单颗沙粒以11.5°的碰撞角高速撞击由9000个沙粒组成的沙床的计算机实验,以10^-6秒为时间步长精细模拟了被碰沙粒起跃的全过程,对起跃沙粒的空间分布、速度大小和方向以及入射沙粒速度的影响进行了细致研究,其中起跳速度大小符合指数分布,与已知观测结果符合较好。  相似文献   

风沙流起动阶段沙粒输运特征     

亢力强  张军杰  邹学勇  张春来  程宏 《中国沙漠》2017,37(6):1051-1058

为了探究风沙流起动过程中沙粒输运特征,利用PTV测量技术在风洞中对风沙流起动过程进行了测量,分析了沙粒空间分布、沙粒平均水平速度、输沙率、沙粒数密度和输沙通量随时间的变化规律。结果表明：风沙流起动时间大约为1.5 s。起动过程中,输沙率随时间迅速增加,气流中沙粒总数目随时间的变化可表示为指数函数,沙粒数密度和输沙通量随高度的变化均可近似表示为负指数衰减函数。在t=1.0 s时刻的沙粒平均水平速度大于相同高度处以后时刻的沙粒平均水平速度,同一高度处t=1.5 s以后的沙粒数密度大于t=0.5 s、1.0 s时刻的沙粒数密度,同一高度处t=1.5 s以后的输沙通量大于t=1.0 s时刻的输沙通量。沙粒数密度随高度的衰减率一般随时间的增加而减小,并在t=1.5 s后逐渐接近稳定值。  相似文献   

Grain size and transport characteristics of non-uniform sand in aeolian saltation   总被引：1，自引：0，他引：1  

Z.S. Li  D.J. Feng  S.L. Wu  A.G.L. Borthwick  J.R. Ni   《Geomorphology》2008,100(3-4):484-493

Size frequency distributions of sediment particles in a wind tunnel containing a bed of non-uniform sand are investigated by re-interpreting existing experimental data using particle-size analysis. Each particle sample is classified into one of eight groups according to its size grading. The analysis reveals that the modal shape of the particle-size frequency distributions of the saltating sand at different elevations or longitudinal distances is similar to that of the mixed sand in the bed once the boundary layer is fully developed. The standard deviation of the grain-size frequency distribution increases with increasing elevation above the bed then stays constant, whereas its skewness decreases. The mean grain size decays exponentially with elevation. The aeolian sand mass flux is determined for each size grading at different vertical and horizontal measurement locations. The vertical profile of aeolian horizontal mass flux depends on the size grading. The distribution of the sand transport rate according to the mean grain size in each grading fits the normal distribution. A parameter w_i is defined to reflect the likelihood of saltation for sand particles of the i-th size grading, and the mean sand size corresponding to the maximum value of w_i is found to be 0.2 mm. In addition, wind velocity strongly influences the magnitudes of the particle-size distribution and the sand mass flux distribution in both vertical and longitudinal directions.  相似文献