Examining the model dependence of the determination of kinetic freeze-out temperature and transverse flow velocity in small collision system

The transverse momentum distributions of the identified particles produced in small collision systems at the Relativistic Heavy Ion Collider(RHIC) and Large Hadron Collider(LHC) have been analyzed by four models. The first two models utilize the blast-wave model with different statistics. The last two models employ certain linear correspondences based on different distributions.The four models describe the experimental data measured by the Pioneering High Energy Nuclear Interaction eXperiment, Solenoidal Tracker at RHIC, and A Large Ion Collider Experiment collaborations equally well. It is found that both the kinetic freeze-out temperature and transverse flow velocity in the central collisions are comparable with those in the peripheral collisions. With the increase of collision energy from that of the RHIC to that of the LHC,the considered quantities typically do not decrease. Comparing with the central collisions, the proton–proton collisions are closer to the peripheral collisions.

Exploring the epidemic transmission network of SARS in-out flow in China's Mainland

The changing spatiotemporal patterns of the individual susceptible-infected-symptomatic-treated-recovered epidemic process and the interactions of information/material flows between regions,along with the 2002-2003 Severe Acute Respiratory Syndrome(SARS) epidemiological investigation data in China's Mainland,including three typical locations of individuals(working unit/home address,onset location and reporting unit),are used to define the in-out flow of the SARS epidemic spread.Moreover,the input/output transmission networks of the SARS epidemic are built according to the definition of in-out flow.The spatiotemporal distribution of the SARS in-out flow,spatial distribution and temporal change of node characteristic parameters,and the structural characteristics of the SARS transmission networks are comprehensively and systematically explored.The results show that(1) Beijing and Guangdong had the highest risk of self-spread and output cases,and prevention/control measures directed toward self-spread cases in Beijing should have focused on the later period of the SARS epidemic;(2) the SARS transmission networks in China's Mainland had significant clustering characteristics,with two clustering areas of output cases centered in Beijing and Guangdong;(3) Guangdong was the original source of the SARS epidemic,and while the infected cases of most other provinces occurred mainly during the early period,there was no significant spread to the surrounding provinces;in contrast,although the input/output interactions between Beijing and the other provinces countrywide began during the mid-late epidemic period,SARS in Beijing showed a significant capacity for spatial spreading;(4) Guangdong had a significant range of spatial spreading throughout the entire epidemic period,while Beijing and its surrounding provinces formed a separate,significant range of high-risk spreading during the mid-late period;especially in late period,the influence range of Beijing's neighboring provinces,such as Hebei,was even slightly larger than that of Beijing;and(5) the input network had a low-intensity spread capacity and middle-level influence range,while the output network had an extensive high-intensity spread capacity and influence range that covered almost the entire country,and this spread and influence indicated that significant clustering characteristics increased gradually.This analysis of the epidemic in-out flow and its corresponding transmission network helps reveal the potential spatiotemporal characteristics and evolvement mechanism of the SARS epidemic and provides more effective theoretical support for prevention and control measures.

Numerical Modelling and Simulation of Sand Dune Formation in an Incompressible Out-Flow

In this paper, we are concerned with computation of a mathematical model of sand dune formation in a water of surface to incompressible out-flows in two space dimensions by using Chebyshev projection scheme. The mathematical model is formulate by coupling Navier-Stokes equations for the incompressible out-flows in 2D fluid domain and Prigozhin’s equation which describes the dynamic of sand dune in strong parameterized domain in such a way which is a subset of the fluid domain. In order to verify consistency of our approach, a relevant test problem is considered which will be compared with the numerical results given by our method.

Out-of-plane shear flow effects on fast magnetic reconnection in a two-dimensional hybrid simulation model

The effects of out-of-plane shear flows on fast magnetic reconnection are numerically investigated by a two- dimensional （2D） hybrid model in an initial Harris sheet equilibrium with flows. The equilibrium and driven shear flows out of the 2D reconnection plane with symmetric and antisymmetric profiles respectively are used in the simulation. It is found that the out-of-plane flows with shears in-plane can change the quadrupolar structure of the out-of-plane magnetic field and, therefore, modify the growth rate of magnetic reconnection. Furthermore, the driven flow varying along the anti-parallel magnetic field can either enhance or reduce the reconnection rate as the direction of flow changes. Secondary islands are also generated in the process with converting the initial X-point into an O-point.

资金流对乡村产业振兴的影响

基于2006—2019年全国722个脱贫县和1058个非贫困县的非平衡面板数据,构建乡村产业振兴指数,实证检验了金融资金流动对乡村产业振兴的影响效果及作用机制。研究发现:金融资金流入能显著促进乡村产业振兴,且对脱贫县的促进效果强于非贫困县;金融资金流动主要通过带动“实物流”“技术流”和“人才流”发挥促进作用,实现乡村生产体系、经营体系及产业体系的现代化,进而推动乡村产业振兴;新产业新业态发展的需求端、普惠金融发展的供给端和精准扶贫政策实施的政策端均能对促进作用产生正向效应。

黄土地震滑坡运动特征研究——以海原特大地震诱发滑坡为例

基于1920年海原81/2级特大地震诱发的568处典型黄土滑坡,从方向性特征、远程滑移特征以及流滑特征等3个方面探究黄土地震滑坡运动特征,主要结论如下:(1)海原地震诱发黄土滑坡主滑方向集中于60°~90°和270°~300°两个区间,与斜坡坡向优势范围50°~90°和255°~290°较为一致,体现出明显的顺坡向特征;(2)主滑方向与发震断裂走向平行或呈小角度相交(0°~30°)的滑坡占比41.9%,滑动方向受断层错动方向的影响较为显著;(3)滑坡密集分布于迎坡面,发育数量为背坡面的1.98倍,表现出典型的迎坡面特征;(4)滑坡最大水平距离与坡高的相关性明显,滑坡密集发育在坡高30~120 m的范围内,滑坡的等效摩擦系数均小于0.4,展现出典型的远程滑移特征;(5)568处滑坡中等效摩擦系数小于0.17的占比70.95%,表现出显著的流滑特征。作为黄土地震滑坡发育特征研究成果的重要补充,所得结论对深入开展黄土地震滑坡成灾机理与风险评估研究具有一定的参考价值。

不同船体破口对水流出流特性影响研究

利用冲击动力学仿真,构建多种类型的船体破口,将冲击仿真所得的船体破口形状耦合进构建的多相流计算模型中,按照069型和067型登陆艇面临的实际堵漏环境,分析不同形状船体破口、不同尺寸船体破口、不同翻边船体破口的水流出流特性。研究表明,翻边撕裂较深的破口形状出流距离要远;外翻边破口的水流出流距离呈现先小于后大于内翻边破口的规律;400 mm、300 mm和200 mm破口相比同时刻下的出流距离相差较小,但冲击压强的稳定值相差较大,400 mm破口为34700 Pa,比300 mm破口大1300 Pa,比200 mm破口大5700 Pa。研究可为船体破损后的堵漏密封作业提供精准的数据支撑,也可为新型堵漏器材的设计提供技术指导。

黏聚力随机场波动范围的各向异性对流态性滑坡滑动距离的影响

流态性滑坡的大变形运动过程受到诸多因素的影响,其中一个重要因素便是岩土体的强度参数。由于现场测试和室内试验的局限性,强度参数往往呈现出明显的空间变异性,同时在不同方向上具有不同的波动范围,即随机场波动范围具有各向异性。针对黏聚力随机场波动范围的各向异性对流态性滑坡滑动距离的影响问题,引入基于乔列斯基分解的中心点法实现了各向异性随机场的离散,采用摩尔-库仑破坏准则和非牛顿流体模型相结合的光滑粒子流体动力学(smoothed particl ehydrodynamtcs,SPH)分析方法模拟了流态性滑坡的滑动距离,在蒙特卡洛模拟框架上提出了流态性滑坡的随机分析方法。然后,通过羊宝地滑坡和水平地层模型的模拟,验证了流态性滑坡确定性分析方法和随机场离散方法的适用性。最后,根据汶川地震中王家岩滑坡的地形资料构建了概念性的滑坡分析算例,讨论了黏聚力随机场中各向异性波动范围影响下滑坡运动过程的变化,分析了滑动距离的概率分布规律。结果表明:竖直波动范围的增加会增大滑坡滑动距离的分布范围,使其表现出更强的离散性;在黏聚力参数符合对数正态分布的前提下,滑动距离的分布也符合对数正态分布,说明流态性滑坡滑动距离的概率分布与强度参数的不确定性具有一定的联系。

铁路疆煤外运运输通过能力提升对策

在我国深入实施碳达峰、碳中和的大背景下,随着煤炭行业供给侧结构性改革的纵深推进,全国煤炭生产基地向新疆集中,疆煤产能得到进一步释放,在满足当地市场需求的前提下,将持续大幅度提高疆煤外运量,填补国内市场的煤炭缺口。综合分析当前铁路疆煤外运运输通过能力现状及存在问题,针对主要站点及部分区段运输通过能力不足、机车机班运用相对紧张、施工作业组织待优化等多重因素影响,结合疆煤外运主要流量、流向,从系统提升点-线-网运输通过能力、补充机车机班及优化机车运用、提高货物列车编组质量、优化施工组织、提升调度精细化指挥水平5个方面提出改进建议,以进一步提升铁路疆煤外运运输通过能力,为满足疆煤外运需求提供运力支撑。

基于集成学习的航空器滑出时间预测研究

为提升航空器离场滑出时间的预测精度,分析了影响滑出时间的各类因素,引入场面运行状况和气象条件两类特征,基于装袋方法、随机森林、自适应增强和梯度提升等四种典型的集成学习方法,构建了滑行时间预测模型。以美国肯尼迪机场为算例,采用判决系数、RMSE和MAE等性能度量指标验证算法预测性能。实验结果表明:气象特征的引入能够提升滑出时间预测精度;与其它回归算法对比,集成学习的预测误差较小;分析集成方法下的学习曲线发现自适应增强和梯度提升方法能够有效避免过拟合现象。研究结果可用于集成化场面管理软件的开发应用。

基于均压理论的寺河煤矿采空区瓦斯防治技术研究

寺河煤矿53032巷与5303采空区相邻,目前巷道变形严重,瓦斯抽采能力不足,具有严重的瓦斯安全隐患。本文基于均压原理,研究通风系统调控方案,以此对瓦斯抽采系统进行改造。结果表明:采空区两侧压差点大幅降低,瓦斯扰动减少,流场汇流点发生改变;瓦斯抽采系统改造当月53032巷内平均瓦斯浓度及风排瓦斯涌出量降幅达50%,7个月后降幅达78%。可见本文所得的均压调控措施有效解决了53032巷的瓦斯问题,可为类似条件矿井或区域提供瓦斯问题解决思路。

注浆压力对非挤土管桩后注浆效果的影响研究

非挤土管桩后注浆浆液在桩-土间隙中流动效果及在土体中扩散效果直接关系到桩基摩阻力及极限承载力,为此本文建立了桩侧注浆液流动扩散数学模型,研究了注浆压力对注浆管中浆液流场、桩-土间隙中浆液流场、桩-土间隙中浆液浓度等的影响,分析了注浆过程中土体的应力分布特征及土体中浆液的扩散半径,得到了如下结论:随着注浆压力的增加,注浆管内和桩-土间隙内浆液最大速度、浆液在土层中的最大扩散半径,均呈现增加趋势;注浆压力超过一定值后,持续增加注浆压力,对注浆效果的提升有限;距离出浆口越远,注浆体的厚度越小;注浆压力越大,注浆体厚度越大、土层的最大应力也越大、桩体及土层的位移也越大。研究成果为工程实践中设计更加科学、合理的注浆技术方案提供了重要的理论基础。

Investigating Earth Reaction to Pull-Out Process of Frictional Rock Bolts Using Distinct Element Method

The reaction of earth to pull-out process of frictional rock bolts was here modeled by the distinct element method (DEM). Ten frictional bolts were prepared;the expanding shells of five bolts included convex edges and the others had the shells with concave bits. The strength of bolts was measured by applying a standard pull-out test;the results confirmed that the strength of shells with convex edges was remarkably more than the strength of other shells. Furthermore, a two-dimensional DEM model of the test was developed by a particle flow code;the obtained results showed that the reaction of rock particles to the contacts occurring between the convex edges and earth was considerably more than those of the concave bits. In the other words, the convex edges transferred the pull-out force into a large area of the surrounded rock, causing these bolts to have the highest resistance against earth movements.

储气库干化盐析效应量化表征及干化扩展范围预测方法

储气库注采过程中存在近井地带干化盐析的问题,不仅影响储气库的注采能力,甚至影响储气库稳定运行及运行年限。文中基于BL经典分流理论及气水渗流规律,建立了储气库干化盐析效应量化表征数学模型及盐堵损伤量化评估方法,解决了储气库干化问题关键参数的量化表征及干化扩展范围的预测难题。研究结果表明:理论推导的盐饱和度、盐析出量是评估储层盐堵的重要表征参数,与储层温压条件、流体性质及气水相对渗透率等有密切的关系;储气库注采循环过程会导致干化扩展范围逐渐由近井向远井发展,仅依靠注入端短时间注水来解除近井堵塞,可能无法有效恢复地层孔隙度、渗透率及天然气注采能力;基于文中建立的数学模型得到的研究结论与前人实验研究结论具有较好的一致性。文中研究成果不仅具有较好的现场应用价值,而且对干化盐析现象的理论研究以及干化盐析机理的认识具有指导意义。

砂尘对压气机叶片的侵蚀及性能影响

为了应对飞机在起飞和降落的过程中会面临多砂环境,尘土、砂粒等异物颗粒会随空气被吸入航空发动机内的情况,明确压气机部件的磨损和砂粒的吸入对压气机特性产生的影响,以航空发动机吞砂作为研究背景,以跨声速轴流压气机转子NASA Rotor 37为研究对象,采用两相流动数值模拟的方法对砂粒的运行轨迹、侵蚀分布和特性变化开展仿真研究。获得了不同的吞砂条件和转速工况对颗粒运动轨迹、侵蚀分布和侵蚀量的影响,并分析了砂粒在不同吞砂条件和不同转速下引起的压气机性能和内部流场分布的变化规律。结果表明:大部分颗粒进入压气机后,随气流进入叶栅通道,在叶栅通道内与叶片压力面发生碰撞;吞砂导致压气机的增压能力减弱,对于直径为20、150、300μm的吞砂工况,其增压范围分别缩小了3.83%、2.13%和1.01%。

荒漠区平原水库多目标生态调度能力与潜力分析

针对干旱荒漠区水资源匮乏、区域水资源分配不均等问题,提出一种优化调度方案。本文以塔里木河为例,建立水库多目标生态调度模型,采用融入人工经验的自迭代模拟优化算法求解。通过水库多目标生态调度能力与优化潜力的对比分析,最大程度地满足了枯水期河道内、河道外生态流量以及补湖水量,挖掘了荒漠区平原水库显著的生态调度潜力。结果表明:①优化后大西海子水库多年下泄水量变化较实测值更加均匀;②实测的大西海子下游3年断流,优化后仅有1年断流,枯水期断流天数大幅减少;③在胡杨漂种的关键生态期,河道外可供生态水量较实测值提高了66%;④补湖水量较实测值减少了289.5万m 3,有效控制了台特玛湖补湖水量及其变化过程。研究结果优化了季节性河流的河道内、河道外以及入湖等多要素生态供水过程,对于干旱荒漠区内陆河水资源的集约利用、河岸植被的生态保护与修复具有重要的理论意义和应用价值。

考虑堆积区宽度影响的滑坡碎屑流运动与堆积过程物理模型试验研究

堆积区宽度会显著影响滑坡碎屑流运动与堆积过程,而目前该方面研究却相对较少。本文设计了一种水平滑段宽度可变的物理模型试验装置,在此基础上开展了一系列物理模型试验。试验获取了不同宽度水平滑段条件下颗粒流运动与堆积过程的图像和数据,分析了颗粒流速度分布和堆积特征,进一步结合数值模拟探讨了颗粒流运动机制与堆积特征成因。结果表明:颗粒流在倾斜滑段随运动距离增加逐渐离散且离散范围也逐渐增大;颗粒流在水平滑段的运动速度随水平滑段宽度增加逐渐减小,运动速度方向发生偏移且随水平滑段宽度增加更加显著;颗粒流在水平滑段的堆积长度随水平滑段宽度增加逐渐减小,堆积宽度逐渐增加,堆积面积先减小后增加;数值模拟结果表明:碰撞是颗粒间主要能量传递形式,摩擦是主要耗能形式,随着水平滑段宽度增加,颗粒流在水平滑段颗粒间的碰撞次数逐渐减少,颗粒向两侧滑动展布,摩擦耗能使得颗粒流堆积宽度增加而堆积长度减小。

基于DEM的复杂地形流域特征提取

利用流域数字高程模型(DEM)构建数字水系模型并提取流域水系特征是分布式水文过程模拟的重要前提。提出了面向分布式水文过程模拟和流域特征提取的数字水系模型,并针对现有方法对复杂地形DEM中含有的平地、洼地及其嵌套情形的处理不足,提出了栅格水流分类、填洼分类与归并及有效填平处理、河谷平地的出流代价法构建栅格流向和流序等新的处理方法,并在开发的软件系统得到实现。使用该方法创建的黄土岭流域数字水系模型和提取的水系等流域特征结果表明:本文方法可有效应对复杂地形流域的处理,提取的流域水系特征与实际自然水系比较吻合,能够有效地消除现有方法在地形平坦区域容易产生的平行河道、奇异河道、河道变形等不足。

分级燃烧室预燃级旋流组织对点熄火性能影响的试验研究

为了有效拓宽多级旋流分级燃烧室的稳定工作边界,在模型燃烧室上开展了分级燃烧室点火和熄火特性试验研究,采用平面激光测量技术获得了燃烧室冷态流场结构和燃油浓度分布,分析了双级旋流预膜式空气雾化预燃级设计参数(两级旋流旋向、旋流强度)对流场结构、燃油浓度分布和燃烧稳定性的影响,并阐明了燃烧室点火和熄火特性与流场结构和燃油浓度分布的内在关联机制。结果表明,预燃级两级旋流反旋、适当减小内级旋流强度和增大外级旋流强度有利于改善这类分级燃烧室的点火和熄火特性。相关研究结论能够应用于分级燃烧室预膜式空气雾化预燃级设计。

崩塌土流动化机理的实验研究

作者利用可调坡水槽进行了松散崩塌土与水流掺混并形成泥石流的实验 ,观测了崩塌土运动距离及泥石流的形成过程 ,建立了崩塌土流高比的计算公式。讨论了松散崩塌土流动化形成泥石流的临界条件 ,提出松散崩塌土在一定纵坡下形成泥石流的水流掺混机理。实验中发现了一定形状的块状崩塌土与饱和度较高的下垫层之间存在超载孔隙水压力 ,超载孔隙水压力减轻了块体自重达到减阻的作用。从而 。