Dynamic flight stability of hovering model insects:theory versus simulation using equations of motion coupled with Navier-Stokes equations

In the present paper, the longitudinal dynamic flight stability properties of two model insects are predicted by an approximate theory and computed by numerical sim- ulation. The theory is based on the averaged model （which assumes that the frequency of wingbeat is sufficiently higher than that of the body motion, so that the flapping wings＇ degrees of freedom relative to the body can be dropped and the wings can be replaced by wingbeat-cycle-average forces and moments）; the simulation solves the complete equations of motion coupled with the Navier-Stokes equations. Comparison between the theory and the simulation provides a test to the validity of the assumptions in the theory. One of the insects is a model dronefly which has relatively high wingbeat frequency （164 Hz） and the other is a model hawkmoth which has relatively low wingbeat frequency （26 Hz）. The results show that the averaged model is valid for the hawkmoth as well as for the dronefly. Since the wingbeat frequency of the hawkmoth is relatively low （the characteristic times of the natural modes of motion of the body divided by wingbeat period are relatively large） compared with many other insects, that the theory based on the averaged model is valid for the hawkmoth means that it could be valid for many insects.

Constrained re-calibration of two-equation Reynolds-averaged Navier–Stokes models

Machine-learned augmentations to turbulence models can be advantageous for flows within the training dataset but can often cause harm outside.This lack of generalizability arises because the constants(as well as the functions)in a Reynolds-averaged Navier–Stokes(RANS)model are coupled,and un-constrained re-calibration of these constants(and functions)can disrupt the calibrations of the baseline model,the preservation of which is critical to the model's generalizability.To safeguard the behaviors of the baseline model beyond the training dataset,machine learning must be constrained such that basic calibrations like the law of the wall are kept intact.This letter aims to identify such constraints in two-equation RANS models so that future machine learning work can be performed without violating these constraints.We demonstrate that the identified constraints are not limiting.Furthermore,they help preserve the generalizability of the baseline model.

A CFD Model to Evaluate Near-Surface Oil Spill from a Broken Loading Pipe in Shallow Coastal Waters

Oil spills continue to generate various issues and concerns regarding their effect and behavior in the marine environment,owing to the related potential for detrimental environmental,economic and social implications.It is essential to have a solid understanding of the ways in which oil interacts with the water and the coastal ecosystems that are located nearby.This study proposes a simplified model for predicting the plume-like transport behavior of heavy Bunker C fuel oil discharging downward from an acutely-angled broken pipeline located on the water surface.The results show that the spill overall profile is articulated in three major flow areas.The first,is the source field,i.e.,a region near the origin of the initial jet,followed by the intermediate or transport field,namely,the region where the jet oil flow transitions into an underwater oil plume flow and starts to move horizontally,and finally,the far-field,where the oil re-surface and spreads onto the shore at a significant distance from the spill site.The behavior of the oil in the intermediate field is investigated using a simplified injection-type oil spill model capable of mimicking the undersea trapping and lateral migration of an oil plume originating from a negatively buoyant jet spill.A rectangular domain with proper boundary conditions is used to implement the model.The Projection approach is used to discretize a modified version of the Navier-Stokes equations in two dimensions.A benchmark fluid flow issue is used to verify the model and the results indicate a reasonable relationship between specific gravity and depth as well as agreement with the aerial data and a vertical temperature profile plot.

Saint-Venant and Navier-Stokes Models for Tsunami Simulations

Into the frame of the French TANDEM project (Tsunamis in the Atlantic and the English ChaNnel: Definition of the Effects through numerical Modelling) Principia has been working on the development and qualification of two in-house CFD software: the 2D EOLE-SV (Saint-Venant) model for simulation of large scale tsunami propagation from the source up to coastal scale and the 3D EOLE-NS (Navier-Stokes) model dedicated to tsunami coastal impact modelling. This paper presents a large range of test cases carried out into the frame of the project and dedicated to the validation of numerical codes in various tsunami wave conditions. The main aspects of phenomena such as wave generation, propagation and coastal impact are investigated on academic situations. A real case simulation is concerned as well, the devastating 2011 Tohoku event which is compared with in-situ data.

PANS模型在空化湍流数值计算中的应用

采用一种基于标准k-ε模型改进的局部时均化模型(Partially-Averaged Navier-Stokes Model,PANS),并应用于空化流动计算。控制不同的模型参数,分别对绕平头轴对称回转体和Clark-Y型水翼的空化流动进行模拟,并与实验结果进行对比。结果表明:PANS模型中未分解湍动能比率fk的取值对预测空化流动的数值计算精度有重要影响,改变fk的取值可实现对不同滤波尺度范围内的求解;随着fk值的减小PANS的预测精度逐步提高,能在相对较大范围内求解较小尺度的湍流运动过程中,预测到湍流运动中强烈的非定常特性;同时可以比较准确地预测空化流场结构和动力特性。

基于PANS模型的轴流泵叶顶空化特性

以某一等比例缩放模型为研究对象,采用一种局部时均化模型（PANS）和Zwart空化模型,对额定工况某一特定汽蚀余量下的轴流泵叶顶空化流进行了数值模拟,并与高速摄影试验进行了对比.探讨了叶顶区不同的空化类型和泄漏涡系,找到了叶顶泄漏涡最易发生空化的位置,分析了不同叶片弦长系数截面空化流场.研究结果表明,模拟得到的空化性能曲线与试验值吻合较好,最大误差为5.8%;利用旋涡强度方法,得出了叶顶泄漏涡涡心在弦长系数为0.30-0.35时,有最大旋涡强度系数和最小压力系数,表明此处是最易于发生空化的位置;叶顶空化的形成及发展通常伴随着涡结构的演变,泄漏涡在向相邻叶片的压力面运动时,由于与壁面的相互作用,会诱导反向旋转的旋涡,而在叶片出口处,也会形成脱离涡和诱导涡,脱离涡会向相邻叶片的压力面运动,造成相邻叶片压力面的载荷变化.

修正的PANS模型在云状空化流动计算中的应用评价

将考虑空化流动密度变化的密度函数引入PANS模型,基于实验结果评价了这种修正的PANS模型在云状空化流动计算中的应用.分别采用不同的模型控制参数f_k值,计算了绕Clark-Y型水翼云状空化流动,获得了空穴形态的发展历程、升力系数曲线波动情况,并与实验结果进行了对比.结果表明,修正PANS模型继承了标准PANS模型的特点,即随着f_k值的减小,可以获得流场中越来越丰富的多相湍流流动细节,很好地预测绕翼型云状空化流动的非定常特性;修正PANS模型考虑了空化区域气液混合介质对湍流黏性的影响,可以更全面地描述反向射流作用下空穴的断裂及多尺度空泡团的脱落细节,所得翼型升力系数曲线的波动情况更接近于实验值.

一种湍流计算的非线性PANS模型

大多数雷诺平均湍流模型(RANS)基于线性和各向同性假设求解雷诺应力(Reynolds stress),因此对高压力梯度区、大曲率回流以及复杂的分离流动的预测误差较大.在近壁区较少网格的条件下,部分时均(PANS)方法被认为比大涡模拟(LES)获得结果更好.通过RNG k-ε湍流模型构造部分时均化模型,引入雷诺应力的非线性求解方法,提出了一种新的非线性PANS模型,并应用该非线性PANS模型分别对绕NACA0015水翼翼型流场和90°长方形截面弯管内流场进行了流动的数值模拟.结果表明:非线性PANS模型的数值结果与试验数据吻合较好,其在高压力梯度区的预测准确性高,并能准确预测流动分离诱发的三维非线性流动,证明了该方法捕捉高压力梯度、大曲率流动的有效性.该计算方法可以用来预测透平机械内部复杂的涡结构.

基于PANS模型的湍流Taylor-Couette流及其换热特性

以同轴圆筒环隙内流体为研究对象,通过多种湍流模型计算结果与PIV测试结果的对比分析,建立了基于局部时均化模型(PANS)的环隙内湍流流场的数值模拟方法.在此基础上重点研究了沟槽模型内湍流流场分布与换热特性,获得不同旋转雷诺数、内外壁面温度梯度对流场分布及其换热性能的影响规律,同时研究了沟槽内涡流的形成机理及沟槽区域流体速度、剪切力及热流密度分布.结果表明:当流场转捩为湍流Taylor-Couette流时,泰勒涡沿轴向呈现无规则波动,并且泰勒涡轴向尺寸随雷诺数及内外壁面温度梯度的增加而增加.径向速度与内壁面热流密度沿轴向的变化趋势表明:径向速度引起的射流作用对内外壁面间热量交换有直接影响;环隙内流体经过沟槽区域时撞击沟槽壁面,在惯性力、黏性力及壁面剪切力相互影响下形成涡流;沟槽区域的速度与壁面剪切力的变化呈现一致性,热流密度的变化与之相反.

Research on blade tip clearance cavitation and turbulent kinetic energy characteristics of axial flow pump based on the partially-averaged Navier-Stokes model

To reveal the cavitation forms of tip leakage vortex(TLV)of the axial flow pump and the flow mechanism of the flow field,this research adopts the partially-averaged Navier-Stokes(PANS)model to simulate the cavitation values of an axial flow pump,followed by experimental validation.The experimental result shows that compared with the shear stress transport(SST)k-ωmodel,the PANS model significantly reduces the eddy viscosity of the flow field to make the vortex structure clearer and allow the turbulence scale to be more robustly analyzed.The cavitation area within the axial flow pump mainly comprises of TLV cavitation,clearance cavitation and tip leakage flows combined effect of triangular cloud cavitation formed.The formation and development of cavitation are accompanied by the formation and evolution of vortex,and variations in vortex structure also generate and promote the development of cavitation.In addition,an in-depth analysis of the relationship between the turbulent kinetic energy(TKE)transport equation and cavitation patterns was also conducted,finding that the regions with relatively high TKE are mainly distributed around gas/liquid boundaries with serious cavitation and evident gas-liquid change.This phenomenon is mainly attributed to the combined effect of the pressure action term,stress diffusion term and TKE production term.

The proper orthogonal decomposition method for the Navier-Stokes equations

The proper orthogonal decomposition (POD) method for the instationary Navier-Stokes equations is considered. Several numerical approaches to evaluating the POD eigenfunctions are presented. The POD eigenfunctions are applied as a basis for a Galerkin projection of the instationary Navier-Stokes equations. And a low-dimensional ordinary differential models for fluid flows governed by the instationary Navier-Stokes equations are constructed. The numerical examples show that the method is feasible and efficient for optimal control of fluids.

SOLUTION OF 3-D TURBULENCE NAVIER-STOKES EQUATIONS USING HYBRID GRIDS

Hybrid grids are used for the solution of 3D turbulence Navier Stokes equations. The prismatic grids are generated near the wall, and the tetrahedron grids are generated in the other field. A Navier Stokes solver using Jamson′s finite volume method is developed. The algebraic Baldwin Lomax turbulence model is adopted. The numerical tests show that the above method is very efficient.

深圳市工业区大气PAN污染特征与影响因素

于2018、2020和2021年秋季(9月25日~10月31日)在深圳市典型工业区开展了大气过氧乙酰硝酸酯(PAN)及其前体物VOCs在线观测以分析该地大气光化学污染状况,并使用广义相加模型(GAM)探究气象因素和前体物等对PAN生成影响.观测期间,PAN平均浓度呈现出2018年(1.01×10^(-9))>2021年(0.90×10^(-9))>2020年(0.63×10^(-9)),日变化特征表明不同年份的PAN夜间背景浓度相当,年际间浓度差异取决于日间光化学反应生成.PAN和O3之间相关性良好,R^(2)为0.64~0.75.GAM模型结果表明,多因子分析能很好的表征PAN与气象、关键前体物之间的非线性关系,模型的调整判定系数R^(2)达到了0.85~0.95,显著优于单因子分析.Ox、NO_(2)光解速率(JNO_(2))、气温、相对湿度、乙醛和NO等因子与PAN浓度有显著的非线性关系.其中,Ox、JNO_(2)以及乙醛与PAN呈现显著的非线性正相关,而当温度和相对湿度高于25℃和50%时,温度和相对湿度与PAN呈现明显的非线性负相关.

胰腺导管内乳头状粘液性肿瘤恶变风险评估模型的创建及验

目的研究术前与胰腺导管内乳头状粘液性肿瘤(IPMN)恶变相关的危险因素,构建IPMN恶变风险预测模型并评价其预测性能及临床价值。方法采用回顾性病例对照研究方法,筛选后纳人2015年1月至2021年12月安徽医科大学第一附属医院收治的IPMN患者98例,定为训练组;纳人同期安徽医科大学第二附属医院及中国科学技术大学第一附属医院IPMN患者52例,定为验证组。利用单因素和多因素logistic回归分析在训练组中筛选出与IPMN恶变相关的危险因素,构建列线图模型,基于验证组数据对模型进行外部验证。通过C指数、校准曲线和受试者工作特征曲线(receiver operating characteristic,ROC)对模型进行评价。结果训练组logistic回归分析提示主胰管扩张≥1Omm、强化附壁结节、肿瘤最大直径≥30mm及血清CA19-9升高是IPMN恶变的独立危险因素,纳人这些因素构建列线图预测模型。训练组C指数为0.834(95%CI:0.744~0.924),验证组C指数为0.847(95%CI:0.733~0.960)。绘制R0C曲线,约登指数最大时的模型总分最佳截止值为124.0分,此时对应的敏感度和特异度分别为82.8%和71.0%。校准曲线表现出较好的拟合度,表明该模型具有良好的预测精准度和灵敏度。结论主胰管扩张≥10mm、强化附壁结节、肿瘤最大直径≥30mm及血清CA19-9升高是IPMN恶变的独立危险因素,基于此构建的IPMN恶性风险预测模型具有较高的临床价值,可为临床诊疗方案的制定提供参考。

阳极氧化对PAN基高模碳纤维表面的影响

采用阳极氧化法对PAN基高模碳纤维进行在线表面处理,重点研究了氧化电流密度对炭纤维表面形貌、比表面积、表面官能团的影响。结果表明,电流密度对纤维形貌、比表面积影响不大;氧化后纤维表面官能团显著提高。根据实验结果,提出了PAN基高模炭纤维的氧化模型。

氢氧化铝分离洗涤数学模型及应用

根据溶质守恒和质量守恒原理,先假定洗涤过程为恒温(洗涤过程温度参数均取特征温度),建立了氢氧化铝平盘过滤分离洗涤数学模型,给出了具体算法,对实际生产情况进行了模拟计算,解出各次洗涤滤饼附液及滤液的流量、密度及全碱浓度等参数。根据热量守恒原理,在前述计算结果的基础上对各次洗涤后温度进行计算,然后再对特征温度进行校正,多次迭代后特征温度可收敛。改变洗水添加量,分析计算了不同洗水单耗情况下的三洗滤饼全碱浓度(g/L)、平盘附碱(%)及成品氧化铝可洗碱含量(%)。计算结果表明:提高洗水添加量,三洗滤饼附液全碱、平盘附碱及成品可洗碱均呈下降趋势,但下降速度越来越慢;单纯通过提高洗水添加量的方法,成品碱含量降低有限。

基于PenPan模型中国蒸发皿蒸发量的时空变化及成因分析

蒸发皿蒸发量是衡量大气蒸发能力的重要指标。为了研究中国地区蒸发皿蒸发量的时空变化规律和成因,利用全国751个站点1961-2017年的逐日气象观测资料(平均温度、风速、相对湿度、日照时数),基于PenPan模型对20cm蒸发皿蒸发量进行估算。对中国地区57a的气象数据和PenPan模型模拟结果进行趋势分析,探究影响蒸发皿蒸发量的主导气象因素。结果发现:在1961-1993年期间,中国地区存在“蒸发悖论”现象,影响蒸发皿蒸发量的主导气象因素为风速;1994-2017年“蒸发悖论”现象消失,此时主导因素为饱和水汽压差;两阶段相比,空气温度对蒸发的作用增大,而风速的作用减小。春夏秋冬4个季节,蒸发量在空间上差异较大。辐射项蒸发量的夏季最大值在西北地区,其余季节在华南地区;动力项蒸发量冬季最大值在华南地区,其余季节在西北地区;随着季节推移,总蒸发量最大区域由西北转移到华南地区。根据蒸发皿蒸发量的时空变化情况,可以得出西北和华南地区需要根据该地区蒸发量的季节变化合理调配水资源。

A NUMERICAL AND ANALYTICAL STUDY ON A TAIL-FLAPPING MODEL FOR FISH FAST C-START

The force production physics and the flow control mechanism of fish fast C-start are studied numerically and theoretically by using a tail-flapping model.The problem is simplified to a 2-D foil that rotates rapidly to and fro on one side about its fixed leading edge in water medium.The study involves the simulation of the flow by solving the two-dimensional unsteady incompressible Navier- Stokes equations and employing a theoretical analytic modeling approach.Firstly,reasonable thrust magnitude and its time history are obtained and checked by fitting predicted results coming from these two approaches.Next,the flow fields and vortex structures are given,and the propulsive mechanism is interpreted.The results show that the induction of vortex distributions near the trailing edge of the tail are important in the time-averaged thrust generation,though the added inertial effect plays an important role in producing an instant large thrust especially in the first stage.Furthermore,dynamic and energetic effects of some kinematic controlling factors are discussed.For enhancing the time- averaged thrust but keeping a favorable ratio of it to time-averaged input power within the limitations of muscle ability,it is recommended to have a larger deflection amplitude in a limited time interval and with no time delay between the to-and-fro strokes.

PAN基弱碱性离子交换纤维对Zn^2+吸附性能研究

以腈纶(PAN,polyacylonitrile)为基体制备PAN基弱碱性离子交换纤维,并对其进行表征;探讨溶液pH、反应温度、吸附时间、溶液初始浓度对其吸附Zn^2+性能的影响,考察盐酸浓度、体积对其再生效果的影响及其重复利用性能。结果表明:在pH为2~6,随着pH的增大改性纤维的吸附性能越好;在303 K时,反应60 min吸附达到动态平衡,最大饱和吸附量为155.33 mg/g,温度对其吸附性能影响不大;5 mL 1.2 mol/L的盐酸溶液对其再生效果最好,具有良好的化学稳定性;吸附Zn^2+的过程符合Langmuir等温吸附模型,属于单分子层吸附。

Numerical Model of Internal Solitary Wave Evolution on ImpermeableVariable Seabed in A Stratified Two-Layer Fluid System

In the present study a numerical model developed by Lynett and Liu （2002） is modified to include density difference in a stratified two-layer fluid in a three-dimensional internal wave domain. The internal solitary wave （ISW） in the model is assumed to be weakly nonlinear and weakly dispersive, and the viscosity effects at all boundaries are ignored. The governing equations based on the Navier-Stokes and Euler equations are solved for internal solitary wave propagation over variable seabed topography. Theoretical formulations are established, from which analytical solutions are obtained, in addition to numerical results. Wave profiles from previous experimental studies are compared with the numerical results from the present analytical solutions. Numerical models developed on the basis of the present analytical solutions are better than those developed by Lynett and Liu （2002）. The results of numerical modeling agree well with the experimental data.