建筑扰动条件下大气流动与扩散的CFD模拟

用FLUENT模式对中性大气、单个建筑的气流扰动情况进行模拟,并以风洞试验数据检验模拟效果;将模拟方法应用于类似城市建筑阵列条件的大气污染扩散问题,并且与现场示踪试验比较. 结果表明:FLUENT对建筑扰动条件的平均风场模拟效果良好,FAC2(模拟值与试验值之比在0.5~2之间的比例)在水平与垂直风速下分别达到77.9%与61.0%;对湍流特征量的模拟偏差稍大,K(湍流动能)虽总体偏小,但FAC2仍达到了54.6%. 选择湍流闭合的标准K-ε(ε为湍流动能耗散率)方案、重整化群K-ε方案和雷诺应力模型方案对结果的影响均不大. 采用FLUENT模拟了类似城市街区建筑阵列条件的大气扩散个例, 模拟结果反映了建筑扰动导致的扩散烟流轴线相对于平均风向的非常规偏移,并且扩散浓度与示踪试验结果相符较好,下风向32与63m处的侧向模拟浓度峰值的相对误差分别为72.5%与36.9%. 相比于高斯模式ISC3,FLUENT对复杂建筑阵列条件的扩散模拟结果更符合实际,如污染物向上风向扩散以及在建筑物周围堆积与绕流的现象. FLUENT扩散模拟还显示:近源处相邻建筑街道峡谷中的最大浓度沿下风向“阶跃”式减小,排放源所在街道峡谷中的最大浓度可比相邻街谷中的高几倍甚至1个数量级以上.      

Numerical simulation and study on the transmission law of flame and pressure wave of pipeline gas explosion

Based on FLUENT simulation software, the laws of transmission of flame and pressure wave in pipeline gas explosion were studied. It turned out that, the maximum pressure value of the explosion point is not the maximum value of the whole explosion process; the maximum pressure value of the pressure wave lowers firstly near the explosion point, then rises to a peak, and then drops gradually; two waves divide the space in the pipeline into three sections during the gas explosion transmission. The result is basically consistent between numerical simulation and experiment, and the conclusion from the simulation provides theoretical basis for research on explosion-proof and suppression devices for underground gas pipeline, as well as for technical regulations of installation.     

埋地原油管道油品泄漏扩散三维数值模拟

为了评估埋地原油管道泄漏的危害范围,以原油管道泄漏事故为研究对象,采用计算流体力学等理论知识,建立了埋地输油管道三维泄漏扩散过程的物理模型和数学模型,确定了泄漏前稳态的初始条件和泄漏后非稳态的边界条件;利用FLUENT软件进行了数值模拟,计算出了不同时刻油品在土壤中的扩散范围。计算结果表明,管道泄漏后原油扩散范围与泄漏时间保持一定变化规律,在无法检测扩散深度的情况下可根据扩散宽度进行粗略估算,大体确定事故泄漏扩散范围,可以为事故处置提供参考,提高事故的应急控制能力。     

Numerical simulation of scour around pipelines using an Euler–Euler coupled two-phase model

The scour around a long fixed pipeline placed just above a non-cohesive sandy bed is numerically simulated using an Eulerian two-phase model that implements Euler–Euler coupled governing equations for fluid and solid phases and a modified k−ɛ turbulence closure for the fluid phase, the modeling system being a part of the CFD software package FLUENT. Both flow–particle and particle–particle interactions are considered in the model. During the simulations, the interface between sand and water is specified using a threshold volume fraction of sand, and the evolution of the bedforms is studied in detail. The predictions of bedform evolution are in good agreement with previous laboratory measurements. Investigations into the mechanisms of scour reveal that three sediment transport modes (bed-load, suspended-load and laminated-load) are associated with the scour development. While some previously proposed scour development formulae for cylindrical objects are in good general agreement with the simulations, scour prediction based on a commonly used operational mine-burial model (DRAMBUIE) shows disparities with present simulations.     

折板絮凝池内流场数值模拟和絮凝效果分析

通过流体软件FLUENT对不同角度的折板絮凝池内流场进行数值模拟,比较不同折板絮凝池内液体流态,结合设计要求分析其絮凝效果,提出提高和改善絮凝效果的一些措施,以指导实际工程。     

FDS软件在有限空间机械通风模拟中的应用研究*

为指导有限空间机械通风，使用FDS软件研究机械通风过程中供热有限空间内流场、浓度场、温度场等的分布规律，同时将FDS软件模拟结果与FLUENT软件所得模拟结果进行对比分析。结果表明:机械通风过程中，检查室内风速总体较大，管沟内风速相对较小；各测点O2浓度、CO2浓度最终恢复至正常的时间相同，可仅以O2浓度恢复情况作为衡量通风效果的代表气体；采用FDS软件获得模拟结果与FLUENT软件较一致，但在风流的湍流细节方面FDS软件结果更理想。     

走向高抽巷抽放采空区瓦斯数值模拟与试验分析

为获取走向高抽巷抽放瓦斯的合理参数,依据采空区瓦斯运移基本方程,采用FLUENT数值模拟的方法确定走向高抽巷的最佳抽放位置,即竖直方向高度为综采工作面底板上方20m,倾斜方向距上风巷水平距离为14 m,并在张集矿1111工作面进行现场试验;从试验效果来看:采用FLUENT数值模拟方法确定走向高抽巷位置是可靠的,布置合理的走向高抽巷具有抽放瓦斯浓度高、瓦斯抽放量大和稳定性好的优越性,能有效地解决综采工作面和上隅角瓦斯超限问题,以确保矿井安全生产;抽放参数可在类似矿区加以推广应用,安全效益、经济效益和社会效益明显.     

错流涡旋式高效固液分离器内固液两相流的数值模拟

介绍设计制作的一种新型错流涡旋式高效固液分离装备,利用离散相模型对其进行数值模拟,得到此分离装置的三维液相流场分布、离散相砂粒的运行轨迹以及砂粒的去除效率,明确了其沉淀特征。其结论对于优化错流涡旋式高效固液分离器的设计具有参考价值。     

Flow and Pollutant Dispersion in Street Canyons using FLUENT and ADMS-Urban

This paper is devoted to the study of flow within a small building arrangement and pollutant dispersion in street canyons starting from the simplest case of dispersion from a simple traffic source. Flow results from the commercial computational fluid dynamics (CFD) code FLUENT are validated against wind tunnel data (CEDVAL). Dispersion results from FLUENT are analysed using the well-validated atmos pheric dispersion model ADMS-Urban. The k − ε turbulence model and the advection-diffusion (AD) method are used for the CFD simulations. Sensitivity of dispersion results to wind direction within street canyons of aspect ratio equal to 1 is investigated. The analysis shows that the CFD model well reproduces the wind tunnel flow measurements and compares adequately with ADMS-Urban dispersion predictions for a simple traffic source by using a slightly modified k − ε model. It is found that a Schmidt number of 0.4 is the most appropriate number for the simulation of a simple traffic source and in street canyons except for the case when the wind direction is perpendicular to the street canyon axis. For this last case a Schmidt number equal to 0.04 gives the best agreement with ADMS-Urban. Overall the modified k − ε turbulence model may be accurate for the simulation of pollutant dispersion in street canyons provided that an appropriate choice for coefficients in the turbulence model and the Schmidt number in the diffusion model are made.     

异波折板流场模拟分析与结构优化

基于FLUENT技术,以连续方程、Navier-Stokes方程及k-epsilon湍流方程作为流动基本控制方程,对异波折板絮凝反应流场进行了数值模拟,并通过网格独立性检验,保证了模拟结果的真实性.以流场速度分布、紊动动能、有效能耗作为评价标准,根据数值模拟提出了不同絮凝段的最优折板单元组合.结果表明,夹角90°的短折...