水科学进展 第15卷（2004年） 单位索引

安徽建筑工程学院　·拟序结构下空泡近壁区运动规律研究 (第 15卷　第 3期　 2 0 0 4年 5月 )安徽省环境保护局　·酸雨研究进展与问题探讨 (第 15卷　第 4期　 2 0 0 4年 7月 )安徽省环境保护科学研究所　·枯水研究进展 (第 15卷　第 2期　 2 0 0 4年 3月 )澳大利亚墨尔本大     

明渠湍流涡运动尺度分布特性

为了解明渠湍流涡运动尺度沿水深的分布特征,使用高精度粒子图像测速法水槽试验系统测量充分发展的明渠湍流,利用改进后的功率谱分析方法,对明渠湍流涡运动尺度沿水深分布、上升流、下扫流和平均涡量等进行了分析。结果表明:明渠湍流涡运动尺度大小沿水深增加呈先增大后减小;沿水深增加下扫流比上升流更容易发生;各自水深的顺向涡涡量大于逆向涡涡量,在近壁区平均涡量最大;明渠湍流近壁区产生涡量大、尺度小的涡结构,沿水深增加,涡尺度发展变大,但受水面区下扫流抑制,涡尺度又变小。     

弯曲槽道边壁振动情况下湍流特性的大涡模拟

为了更好地理解透平机械流道内能量耗散的机理和湍流结构变化,利用大涡数值模拟方法,数值试验了时、空做正弦振动的壁面所围成的弯曲槽道内的湍流流动。研究了6种不同的振动参数下,槽道内压力分布、近壁涡量以及其它相关湍流统计量的分布特性。计算结果表明,受展向壁面振动的影响,近壁区速度梯度增加,粘性底层变薄,湍流强度增加,能量耗散加大。该研究还发现壁面展向振动而引起的能量耗散主要依赖于近壁区粘性底层的展向涡量大小。     

固液两相流体中的空泡振荡计算

本文导出了固液两相流体中球空泡的振荡方程,并用数值方法讨论了固体颗粒对它泡运动及泡壁压强的影响,得到了固相浓度、颗粒尺寸等因素与空泡运动之间的定性关系。在分析过程中,考虑了液体与颗粒之间力的双向耦合作用。     

钱塘江江心排污的数值模拟

从立面二维非恒定流体动力学方程出发,应用κ-ε湍流模式计算流场,再用准三维的浓度对流-扩散方程,即考虑了侧向扩散的立面二维浓度控制方程,模拟了钱塘江江心6个竖管排污在潮流作用下近区浓度场,其结果和实际观测值基本吻合。     

应用基于RNG方法的湍流模型数值模拟钝体绕流的湍流流动

首次采用基于RNG方法的湍流模型对绕流钝体后尾流流场进行了数值模拟。计算在任意非正交曲线坐标系下,采用非交错网格的有限体积法求解二维不可压N-S方程,计算结果与实验数据以及与采用标准的κ-ε两方程湍流模型计算的结果进行比较,结果表明基于RNG方法的湍流模型对于与时间相关的大尺度运动——旋涡脱落的尾流的详细结构,能够给出真实的模拟。     

滑源区粒序分布及颗粒粒径对碎屑流冲击作用的影响研究

滑体的运动速度、堆积形态、冲击力等因素决定了碎屑流的致灾程度。滑源区不同岩性特征和结构分布的差异导致了滑体粒序分布和颗粒粒径的差异。在运动过程中产生的碰撞、摩擦、跳跃,影响着滑坡碎屑流的致灾程度。在物理模型试验的基础上,运用三维离散元软件PFC3D,探究滑源区粒序分布及颗粒粒径对滑体运动速度、堆积形态、冲击力的影响。研究结果表明:碎屑流中各粒径颗粒的平均速度受颗粒粒径及滑源区初始粒序的共同影响,且初始粒序对各颗粒平均速度影响更大;在堆积形态方面,粒径大小对厚度方向上的粒序排布影响较大,而滑源区粒序分布对单种颗粒的堆积形态影响较大;在颗粒分选作用下,颗粒粒径成为控制峰值冲击力的主要因素,而滑源区粒序分布则通过决定滑体堆积形态控制了准静态堆积阶段碎屑流的冲击力。     

基于高速摄像技术的推移质运动特征试验

在明渠中开展不同水流条件下低强度均匀沙平衡输沙试验,基于灰度相减方法分析整个床面推移质运动特征,以探寻紊流结构与推移质运动之间的作用机理。结果表明:①受水槽横向方向水流强度分布特征影响,推移质运动概率从水槽中线到两侧壁逐渐变小,且基本呈对称分布;②在紊流相干结构作用下,推移质床面在紊流低速条带区形成凸槽,高速条带区形成凹槽,推移质运动概率沿水槽横向方向存在高低相间的带状分区;③随摩阻雷诺数增大,相邻两推移质运动高概率区域的间距值变化范围为0.13~0.24倍水槽宽度,其值随摩阻雷诺数增大而增大;④不同水流条件下,推移质运动高概率区域间距值约为水深的2倍,这与流向涡模型吻合,表明流向涡是诱导床面出现凹凸相间形态的重要因素。     

基于构造应力场数值模拟的复杂断块油藏低级序断层预测——以南堡凹陷M区为例

针对低级序断层地震资料的多解性,通过构造解析,在确定低级序断层发育时期和构造背景的基础上,对南堡凹陷M区馆陶期构造应力场进行了数值模拟;并以岩石破裂准则为依据,用最小主应力解释了低级序断层的优势发育地区,用平面剪应力解释了低级序断层的优势走向,用剖面剪应力解释了低级序断层的优势视倾向,预测了低级序断层的发育规律。研究结果表明,南堡凹陷M区三级断层活动具有明显的分段性和分期性特点;在区域性南北向拉张和火山喷发造成的局部拱升的共同作用下,研究区中部为东一段低级序断层发育的优势区,发育近北西走向和近北东走向两组低级序断层,东部主要发育一组近北东走向的低级序断层,西部主要发育一组近北西走向低级序断层,断层视倾向以北倾为主。      

泥石流流变参数敏感性分析

合理的流变参数选取对准确刻画泥石流、高速远程滑坡运动过程和动力行为至关重要。本研究基于三维连续介质动态数值模型,构建Voellmy流变模型,结合方差分析方法,比较了不同流变参数对泥石流运动行为的影响程度。结果表明:动力底摩擦角和湍流系数均会对泥石流与高速远程滑坡的动力特征产生一定的影响,但影响程度各异。较大的动力底摩擦角会产生更大、更快的能量耗散过程,使得运动过程整体滞后;较高的湍流系数增加了流体层之间的动量交换强度,具有较大的与周围界质混合的能力,对周围介质的卷吸作用增大。物源区体积（湍流系数）在一定程度上仅影响泥石流运动速度,对致灾范围和规模影响作用不大。沟道下垫面情况、颗粒物组成、孔隙水压力（底摩擦角）与灾害体流速、移动距离和堆积区体积、面积关系很密切,在很大程度上影响泥石流、滑坡强度,致灾范围和规模。研究成果以期为流变参数选取提供很好的借鉴方法,也为地质灾害防治提供一定的技术参考。     

含植物河道紊流结构研究进展

自然河流中,水生植物的存在改变了河道中的紊流结构.与普通明渠紊流相比,含植物河道水体掺混更剧烈,紊流结构更复杂.由于紊流结构直接影响河流中泥沙、污染物和营养物的输移,含植物河道紊流结构研究越来越受到重视.从紊流平均结构、紊动特性、拟序结构和紊流类型几方面归纳并总结了国内外研究进展,综合分析了影响紊流结构的因素,提出利用场与点相结合的综合分析方法,对拟序结构的形成及发展过程进行定量刻画,探究植物条件下紊流机理是今后的重要研究方向.     

Dynamics of bubbles in supernovae and turbulent vortices

We consider the motion of a bubble in a central acceleration field created by gravity or a centrifugal force. In the former case, the bubble moves outwards from and, in the latter, towards the center. We have calculated the characteristic time needed for a bubble to leave or reach the center. The solution obtained provides insight into the processes of thermonuclear supernovae and combustion; in other words, into the interaction between a flame and a turbulent vortex. In the case of combustion, a light bubble of burnt material propagates towards the axis of a strong turbulent vortex faster than it drifts in the direction of rotation of the vortex. It is expected that the development of bubbles should prevent the formation of “pockets” at the flame front, similar to those predicted by a simplified model of turbulent combustion in a constant density flux. In the case of a thermonuclear supernova in a deflagration burning regime, it is shown that light products of burning rise from the center of the white dwarf substantially more rapidly than the thermonuclear flame front propagates. As a result, a flame cannot completely burn the central part of the star, and instead is pushed to the outer layers of the white dwarf. The effect of bubble motion (large-scale convection) makes spherically symmetric models for thermonuclear supernovae unrealistic, which is of prime importance for the supernova spectrum and energy. The motion of bubbles is even faster in the case of a rotating white dwarf; under certain conditions, the centrifugal force may dominate over the gravitational force. To test this theory, we have carried out numerical simulations of supernovae explosions for various sizes of the burned region in the core of the presupernova. We have derived a relation between the rate of large-scale convection and the size of the burned region, which is specified by the rate of the deflagration in the thermonuclear burning.     

深基坑桩锚与土钉墙联合支护的数值模拟

目前工程界桩锚与土钉墙联合支护设计采用的是土钉墙与桩锚分开单独设计的思路。根据单独设计思路和桩锚与土钉墙联合支护基坑工程实际情况分别建立单独土钉墙数值模拟、单独桩锚数值模拟与联合支护数值模拟模型。通过不同设计方法的数值模拟与对比分析,得到以下结论:联合支护数值模拟同时考虑了上部土钉墙与下部桩锚支护结构,模拟过程与实际施工过程相符,结果较为合理;与联合支护模拟结果相比,单独土钉墙模拟得到的土钉内力,坡顶水平位移、坡顶沉降均较小,以此为设计依据使土钉墙偏于不安全;单独桩锚模拟与联合支护模拟相比则高估了锚杆拉力、桩顶沉降、桩身最大弯矩,使设计有些保守。     

Quantifying velocity and turbulence structure in depositing sustained turbidity currents across breaks in slope

Two-dimensional experiments investigating sediment transport and turbulence structure in sustained turbidity currents that cross breaks in slope are presented as analogue illustrations for natural flows. The results suggest that in natural flows, turbulence generation at slope breaks may account for increased sand transport into basins and that the formation of a hydraulic jump may not be necessary to explain features such as the occurrence of submarine plunge pools and the deposition of coarser-grained beds in the bottomsets of Gilbert-type fan deltas. Experimental flows were generated on 0°, 3°, 6° and 9° slopes of equal length which terminated abruptly on a horizontal bed. Two-component velocities were measured on the slope, at the slope break and downstream of the slope break. Flows were depositional and non-uniform, visibly slowing and thickening with distance downstream. One-dimensional continuous wavelet transforms of velocity time series were used to produce time-period variance maps. Peaks in variance were tested against a background red-noise spectrum at the 95% level; a significant period banding occurs in the cross-wavelet transform at the slope break, attributed to increased formation of coherent flow structures (Kelvin–Helmholtz billows). Variance becomes distributed at progressively longer periods and the shape of the bed-normal-velocity spectral energy distribution changes with distance downstream. This is attributed to a shift towards larger turbulent structures caused by wake stretching. Mean velocity, Reynolds shear stress and turbulent kinetic energy profiles illustrate the mean distribution of turbulence through the currents. A turbulent kinetic energy transfer balance shows that flow non-uniformity arises through the transfer of mean streamwise slowing to mean bed-normal motion through the action of Reynolds normal stresses. Net turbulence production through the action of normal stresses is achieved on steeper slopes as turbulence dissipation due to mean bed-normal motion is limited. At the slope break, an imbalance between the production and dissipation of turbulence occurs because of the contrasting nature of the wall and free-shear boundaries at the bottom and top of the flows, respectively. A rapid reduction in mean streamwise velocity predominately affects the base of the flows and steeper proximal slope flows have to slow more at the break in slope. The increased turbulent kinetic energy, limited bed-normal motion and strong mixing imposed by steep proximal slopes means rapid slowing enhances turbulence production at the break in slope by focusing energy into coherent flow structures at a characteristic period. Thus, mean streamwise slowing is transferred into turbulence production at the slope break that causes increased transport of sediment and a decrease in deposit mass downstream of the slope break. The internal effects of flow non-uniformity therefore can be separated from the external influence of the slope break.     

30°分水角明渠水流紊动特性试验研究

灌区分水口多为直角,附近普遍存在冲刷、淤积及结构破坏现象。天然河流分、汇流多为锐角,为探索非直角分水口区域明渠水流紊动特性,以30°分水角明渠为研究对象,采用声学多普勒点式流速仪测量各断面上的三维瞬时流速,分析典型断面上的时均流速、环流强度、紊动强度、紊动能和床面剪切应力分布规律。试验结果显示：分水口处水流横向流速沿渠宽方向变化较大,易形成环流,导致局部冲淤现象明显;靠近口门侧水流紊动强度变化剧烈且分布无规律,最大值出现在口门上唇断面;分水口处下层水体紊动能明显大于上层水体,紊动能较大值多集中在口门附近;口门断面下唇附近床面剪切应力较大,易出现冲刷侵蚀,破坏渠道稳定;与直角分水口相比,分水角为30°时,泥沙颗粒不易进入侧渠道,水流对渠底及边壁侵蚀速率较低。研究结果可为灌区渠系设计及运行提供参考。     

风浪作用下水生植物对水流结构的影响——以太湖中两种典型沉水植物为例

为研究风浪作用下水生植物对水流结构的影响,选取太湖中两种典型沉水植物(苦草与马来眼子菜)为研究对象,分别对苦草植物斑块与马来眼子菜植物斑块内外水体的瞬时流速进行野外现场测量,利用瞬时流速的能量谱分布将波浪流速与紊动流速分离,分别分析水生植物对时均流速、波浪流速以及紊动能的影响。风浪影响下,水体中存在流向与测量时近水面处盛行风向一致的水流;波浪流速以垂向流速为主,且波浪流速自水面向床底逐渐减小;紊动能在水面处达到最大值,并向床底方向逐渐减小。与无植被条件相比,苦草与马来眼子菜的存在减小了时均流速、波浪流速以及紊动能。两种植物形态上的差异,导致其对水流结构的影响不同:苦草叶片阻流面积在冠层中部达到最大,使得时均流速与波浪流速在苦草中部位置的减小程度最大;马来眼子菜叶片主要集中于冠层顶部(水面附近),其对时均流速以及波浪流速的减小作用在水面处达到最大。