Numerical Prediction of Marine Propeller Noise in Non-Uniform Inflow

A numerical study on the acoustic radiation of a propeller interacting with non-uniform inflow has been conducted.Real geometry of a marine propeller DTMB 4118 is used in the calculation,and sliding mesh technique is adopted to deal with the rotational motion of the propeller.The performance of the DES(Detached Eddy Simulation) approach at capturing the unsteady forces and moments on the propeller is compared with experiment.Far-field sound radiation is predicted by the formation 1A developed by Farassat,an integral solution of FW-H(Ffowcs Williams-Hawkings) equation in time domain.The sound pressure and directivity patterns of the propeller operating in two specific velocity distributions are discussed.

Effect of non-uniform swelling on coal multiphysics during gas injection: The triangle approach

In current dual porosity/permeability models,there exists a fundamental assumption that the adsorption-induced swelling is distributed uniformly within the representative elementary volume (REV),irrespective of its internal structures and transient processes.However,both internal structures and transient processes can lead to the non-uniform swelling.In this study,we hypothesize that the non-uniform swelling is responsible for why coal permeability in experimental measurements is not only controlled by the effective stress but also is affected by the adsorption-induced swelling.We propose a concept of the swelling triangle composed of swelling paths to characterize the evolution of the non-uniform swelling and serve as a core link in coupled multiphysics.A swelling path is determined by a dimensionless volumetric ratio and a dimensionless swelling ratio.Different swelling paths have the same start and end point,and each swelling path represents a unique swelling case.The swelling path as the diagonal of the triangle represents the case of the uniform swelling while that as the two perpendicular boundaries represents the case of the localized swelling.The paths of all intermediate cases populate inside the triangle.The corresponding relations between the swelling path and the response of coal multiphysics are established by a non-uniform swelling coefficient.We define this method as the triangle approach and corresponding models as swelling path-based ones.The proposed concept and models are verified against a long-term experimental measurement of permeability and strains under constant effective stress.Our results demonstrate that during gas injection,coal multiphysics responses have a close dependence on the swelling path,and that in both future experiments and field predictions,this dependence must be considered.

Robust and Reusable Fuzzy Extractors from Non-Uniform Learning with Errors Problem

Afuzzy extractor can extract an almost uniformrandom string from a noisy source with enough entropy such as biometric data.To reproduce an identical key from repeated readings of biometric data,the fuzzy extractor generates a helper data and a random string from biometric data and uses the helper data to reproduce the random string from the second reading.In 2013,Fuller et al.proposed a computational fuzzy extractor based on the learning with errors problem.Their construction,however,can tolerate a sub-linear fraction of errors and has an inefficient decoding algorithm,which causes the reproducing time to increase significantly.In 2016,Canetti et al.proposed a fuzzy extractor with inputs from low-entropy distributions based on a strong primitive,which is called digital locker.However,their construction necessitates an excessive amount of storage space for the helper data,which is stored in authentication server.Based on these observations,we propose a new efficient computational fuzzy extractorwith small size of helper data.Our scheme supports reusability and robustness,which are security notions that must be satisfied in order to use a fuzzy extractor as a secure authentication method in real life.Also,it conceals no information about the biometric data and thanks to the new decoding algorithm can tolerate linear errors.Based on the non-uniform learning with errors problem,we present a formal security proof for the proposed fuzzy extractor.Furthermore,we analyze the performance of our fuzzy extractor scheme and provide parameter sets that meet the security requirements.As a result of our implementation and analysis,we show that our scheme outperforms previous fuzzy extractor schemes in terms of the efficiency of the generation and reproduction algorithms,as well as the size of helper data.

Recent Progress on Outflow/Inflow Problem for Viscous Multi-phase Flow

According to the boundary condition with the zero,negative,or positive velocity,the initial boundary problem for compressible multi-phase flow with the Dirichlet-type boundary condition can be classified into three cases:impermeable problem,inflow problem,or outflow problem.In this paper,we review the recent progress on the existence and nonlinear stability of the stationary solution to the outflow/inflow problems for viscous multi-phase flow.

Radial Basis Approximations Based BEMD for Enhancement of Non-Uniform Illumination Images

An image can be degraded due to many environmental factors like foggy or hazy weather,low light conditions,extra light conditions etc.Image captured under the poor light conditions is generally known as non-uniform illumination image.Non-uniform illumination hides some important information present in an image during the image capture Also,it degrades the visual quality of image which generates the need for enhancement of such images.Various techniques have been present in literature for the enhancement of such type of images.In this paper,a novel architecture has been proposed for enhancement of poor illumination images which uses radial basis approximations based BEMD(Bi-dimensional Empirical Mode Decomposition).The enhancement algorithm is applied on intensity and saturation components of image.Firstly,intensity component has been decomposed into various bi-dimensional intrinsic mode function and residue by using sifting algorithm.Secondly,some linear transformations techniques have been applied on various bidimensional intrinsic modes obtained and residue and further on joining the transformed modes with residue,enhanced intensity component is obtained.Saturation part of an image is then enhanced in accordance to the enhanced intensity component.Final enhanced image can be obtained by joining the hue,enhanced intensity and enhanced saturation parts of the given image.The proposed algorithm will not only give the visual pleasant image but maintains the naturalness of image also.

Image Non-Uniformity Correction in 3T Gd-EOB-DTPA-Enhanced Magnetic Resonance Imaging: Comparison among Different Software Versions

Background: Non-uniformity in signal intensity occurs commonly in magnetic resonance (MR) imaging, which may pose substantial problems when using a 3T scanner. Therefore, image non-uniformity correction is usually applied. Purpose: To compare the correction effects of the phased-array uniformity enhancement (PURE), a calibration-based image non-uniformity correction method, among three different software versions in 3T Gd-EOB-DTPA-enhanced MR imaging. Material and Methods: Hepatobiliary-phase images of a total of 120 patients who underwent Gd-EOB-DTPA-enhanced MR imaging on the same 3T scanner were analyzed retrospectively. Forty patients each were examined using three software versions (DV25, DV25.1, and DV26). The effects of PURE were compared by visual assessment, histogram analysis of liver signal intensity, evaluation of the spatial distribution of correction effects, and evaluation of quantitative indices of liver parenchymal enhancement. Results: The visual assessment indicated the highest uniformity of PURE-corrected images for DV26, followed by DV25 and DV25.1. Histogram analysis of corrected images demonstrated significantly larger variations in liver signal for DV25.1 than for the other two versions. Although PURE caused a relative increase in pixel values for central and lateral regions, such effects were weaker for DV25.1 than for the other two versions. In the evaluation of quantitative indices of liver parenchymal enhancement, the liver-to-muscle ratio (LMR) was significantly higher for the corrected images than for the uncorrected images, but the liver-to-spleen ratio (LSR) showed no significant differences. For corrected images, the LMR was significantly higher for DV25 and DV26 than for DV25.1, but the LSR showed no significant differences among the three versions. Conclusion: There were differences in the effects of PURE among the three software versions in 3T Gd-EOB-DTPA-enhanced MR imaging. Even if the non-uniformity correction method has the same brand name, correction effects may differ depending on the software version, and these differences may affect visual and quantitative evaluations.

有机工质向心透平数值模拟及变工况内流特性研究

基于国内外研究现状,分别对设计工况下和非设计工况下有机朗肯循环向心透平的工作状态进行了三维数值模拟。以透平功率、效率、反动度、静叶损失系数、动叶损失系数作为评价指标,分析了透平在非设计工况下的性能;同时开展了透平在非设计工况下流动状况的描述。结果表明:设计工况下透平输出功率为122.3 kW,透平等熵效率为83.54%;在非设计工况下,透平功率和效率在转速比为0.8~1.0时的增幅较大,透平反动度和静叶损失系数均与转速呈线性关系,而动叶损失系数在转速比为0.8~1.2时存在最小值;当转速低于设计转速时,在动叶前缘吸力面存在涡流,当转速高于设计转速时,涡流存在于动叶压力面的前缘,造成此现象的主要原因是动叶转速与静叶出口流速的周向分量之间存在差值。

富水裂隙围岩隧道涌水量计算方法与规律分析

富水裂隙区隧道涌水量预测精度较差,涌水问题尚未得到较好的解决。针对此问题,视裂隙围岩及注浆区为非均质各向异性介质,初期支护及二次支护结构为均质各向同性介质,构建了裂隙围岩下隧道涌水简化计算模型,基于地下水力学理论及流体质量守恒定律推导了富水裂隙区隧道涌水量计算公式。通过退化分析及案例工程现场实测数据验证了构建富水裂隙区隧道涌水简化计算模型的合理性及涌水量计算式求解的正确性,最后基于解析解揭示了各特征参数对富水裂隙区隧道涌水的影响规律,探讨了富水裂隙区隧道涌水机制。结果表明:理论计算值与现场实测值最大相对误差为8.1%,验证了构建模型的合理性及公式推导的正确性;隧道涌水量随裂隙最大宽度的增加而增大,受堵水结构的联合制约,两者近似呈线性关系;注浆区厚度与隧道半径比值在2倍以内时,隧道涌水量受注浆区厚度的影响显著;富水裂隙区隧道涌水受裂隙分布规律及支护结构的制约,应重视对裂隙分布的调查。

高速S-CO_(2)向心透平几何参数优化及变工况特性分析

透平是热力循环中实现热功转换的核心设备,优化透平几何参数以改善气动性能,是提升系统热效率的关键。该文以面向某船舶主机烟气余热利用的超临界二氧化碳布雷顿循环透平设计参数为基础,给出向心透平主要几何参数,采用耦合CO_(2)真实物性参数的CFX仿真方法,分析几何参数动、静叶包角以及叶轮出口几何角对透平性能的影响规律并进行参数优化,进一步研究非设计工况下的透平运行特性。结果表明:增大静叶包角会使动叶前缘出现扰动涡流并减少余速损失,增大叶轮出口几何角,动叶包角对透平效率的影响规律不变,但效率峰值点会沿动叶包角减小的方向移动;动、静叶包角和叶轮出口几何角分别为49°、21.5°、25°时透平设计点总-静等熵效率高达87.99%,相比优化前,提高0.54个百分点;透平偏离设计点±20%工况下等熵效率大于80%。结果可为超临界二氧化碳高速向心透平设计提供一定参考。

深层隧道进流式泵站前池流态及整流措施研究

为改善深层隧道进流式泵站前池内的旋流、偏流等不良流态,基于RNG k-ε湍流模型对前池流态进行数值模拟,研究适用于此类城市排涝泵站的整流措施。数值计算结果表明:泵站前池、进水池内存在局部立面旋滚、螺旋流、斜向流、流速分布上高下低等不良水力现象,致使泵站进水流道水力条件不佳;采用双层环形板和两组导流墩的组合式整流措施可抑制前池、进水池中的立面旋滚、螺旋流和斜向流流态,从而有效改善流道的进水条件,提高进水流道进口处流速分布均匀度,使泵进水状况变好,提高泵站运行的可靠性。

不同转速时液力透平水力性能的试验和数值模拟研究

为揭示不同转速下液力透平的水力性能,以一台比转速为48的离心泵反转作透平(PAT)为例,通过试验研究了液力透平在不同负载下转速随流量、水头变化规律,采用RNGκ-ε湍流模型在不同转速下进行数值计算,分析了各工况下液力透平的水力性能和内流特性。结果表明,随着转速的逐渐增大,透平高效区变宽,高效点明显向大流量偏移。来流参数(流量、压力)对转速有一定的影响,转速随流量呈线性变化,随水头呈幂函数变化。流量越小,叶轮内压力和速度流线分布均匀性越差,透平效率越低。高转速下,叶轮内流动相对稳定,该现象与透平外特性结果相吻合。该研究对低比转速泵反转液力透平高效、稳定运行具有重要参考意义。

转入草场对牧户草场放牧强度的影响--基于自有草场和转入草场视角

【目的】探析牧户对自有草场和转入草场利用强度的差异问题,从而正确认识草场流转真实效应,推动草场流转走向规范化和促进草原生态环境改善。【方法】基于对内蒙古西乌珠穆沁旗6个苏木(镇)的实地调研数据,采用倾向得分匹配法(PSM),分析草场地块使用权属性对牧户放牧强度的影响,并在此基础上运用普通最小二乘法(OLS)进一步分析不同契约安排对牧户在转入草场放牧强度可能发挥的作用。【结果】牧户在自有草场和转入草场上的放牧强度有所差异。转入草场后,牧户会降低自有草场的放牧强度,倾向于在转入草场上放养更多的牲畜;不同契约安排对转入草场放牧强度的影响存在区别。签订书面契约和流转来源于亲戚熟人可在一定程度上约束牧户的放牧强度,而约定流转年限对牧户放牧强度未产生显著的影响。【结论】在后续草场流转的过程中,要重点关注转入草场使用程度监管、增强流转合同的约束力及对新型畜牧业经营主体的支持力度。

非常规油藏蓄能体积压裂的合理压裂规模研究

蓄能体积压裂是致密油、页岩油主要增产改造技术并成为开发前期主要方式,压裂规模是影响开发成效的重要因素。根据物质平衡原理,建立了未饱和油藏蓄能体积压裂物质平衡方程。经实测数据检验,能够准确预测压裂后井控范围内地层压力和地层压力系数随入地物量的变化规律,解决了蓄能体积压裂入地物量、入地液量定量预测问题,有利于优化压裂规模。结合致密油、页岩油水平井体积压裂投产后平均日产油、无效排液量等开发指标统计和数模预测,认为进液强度15~17 m^(3)/m较为合理。成果认识对于致密油、页岩油蓄能体积压裂开发合理压裂规模确定具有借鉴意义,有助于非常规油藏经济效益开发。

煤矿充水因素评价及涌水量预测

含水层、老窖水以及采空区积水等水源对煤矿安全生产带来威胁。以山西省某煤矿为例,分析充水因素,并对采用富水系数比拟法对涌水量进行预测,有利于煤矿防治水工作开展,对井下安全生产具有重要意义。

阀板尾迹对离心泵性能的影响

离心泵进水管路通常布置阀门供检修时切断水流,这会导致离心泵入流畸变。该研究旨在分析泵前检修阀所诱发的非定常尾迹特征及其对大流量工况离心泵运行特性的影响机理。试验对比了均匀来流和畸变来流条件下离心泵的外特性,数值模拟研究了阀板尾迹涡的流动特征及其对离心泵非稳态内流场的影响,分析了阀板尾迹涡诱发的叶轮径向力。结果表明:两种来流条件下数值模拟与试验得到的离心泵外特性误差在5%以内;对离心泵性能产生主要影响的尾迹涡主要来自阀门阀板一侧的边界层分离与卷吸,入流畸变导致大流量工况下离心泵效率相较于均匀入流下降9.15%,扬程降低1.2 m;阀板尾迹在离心泵入口产生1.9倍转频的脉动频率;尾迹涡的周期性入流导致两个叶片前缘的最大相对液流角由30°分别增大至43°和39°,这两个叶片的压力面脱流加剧,产生逐渐向下游耗散的失速团,叶片承受2倍转频的非稳态激振力;尾迹涡的周期性吸入导致叶轮上的时均径向力增大至均匀入流的4.5倍左右,最大径向力达到均匀入流的7倍左右,径向力矢量发生偏移,离心泵断轴风险加剧。研究结果可为工业现场中离心泵运行稳定性的改善提供理论依据。

阳澄湖入湖河道分类、污染特征分析及治理策略

为进一步揭示阳澄湖入湖河道的污染物来源,提出相应的治理对策,以2017—2021年阳澄湖入湖河道水质监测数据为基础进行分析讨论。依据入湖水量选取10条主要入湖河道进行分析,其中位于阳澄湖东岸的白曲港在七浦塘拓浚工程建成之前主导流向为出湖,工程建成后,通过Pearson相关分析证实了其流向与七浦塘引水时的水力关系,因此白曲港被选为主要入湖河道。采用距平系数法、系统聚类法和物元分析法将阳澄湖主要入湖河道分为3个类别:第1类别包括白荡、蠡塘河、北河泾、永昌泾4条河道,第2类别包括渭泾塘、界泾和施家斗港3条河道,第3类别包括南消泾、七浦塘和白曲港3条河道。使用因子分析法进行因子分析,第1类别河道的因子为高锰酸盐指数(COD_(Mn))、氨氮(NH_(3)-N)、溶解氧(DO)和总磷(TP),第2类别河道的污染因子为NH_(3)-N、总氮(TN)、pH、TP和DO,第3类别河道的污染因子为pH、TP、TN和DO。通过对上游河道水质情况分析、文件研究以及实地调查等方式得出第1类别河道区域的污染源主要为工业污染源和生活污染源,第2类别河道区域污染源主要为工业污染源与种植业污染源,第3类别河道污染源主要为陆地水产养殖污染源与种植业污染源。针对总体污染源情况,建议通过控制点源污染、削减面源污染、增强上游河道治理、开展生态治理修复以及加强巡查监管等方式对各类别河道区域进行针对性治理,以提高入湖河道水质,为阳澄湖的系统性和整体性治理打好基础。

创新驱动的大学生信息素养教育InFlow模型实证研究

文章通过文献分析法解构InFlow信息素养模型八个元素,提出InFlow具有创新能力培养为中心、多角色合作体系和非线性化模块灵活组合三大特征。以暨南大学InFlow模型实证研究为例,分析In Flow模型应用在信息素养教育中的成效和存在的问题。在结合案例分析和理论探讨的基础上提出信息素养教育应加强个人反思能力和思维形象化能力的训练,完善信息素养教育多角色合作机制,并通过建立InFlow教学案例数据库构建图书馆信息素养教学的学术圈和协同创新的平台。

气候变化对南方典型小水电站入库径流及发电的影响

在全球气候变化不断加剧的背景下,降水、气温、蒸发等气象要素的变化对流域水文和水力发电产生重要影响;中国作为水能资源丰富的国家,水力发电在能源结构中具有重要地位,研究气候变化对入库径流和水力发电的影响,对实现水资源和水电能源的可持续开发利用具有重要意义。以位于北江支流的官溪水电站为研究对象,基于19个CMIP6全球气候模式数据,利用RCCC-WBM模型分析了未来气候变化对官溪水电站入库径流和发电量的影响。结果表明:(1)在SSP2-4.5情景下,官溪水电站以上流域的气温、降水均呈现上升趋势;(2)尽管不同GCMs模式预估结果存在一定差异,从19个模式集合平均结果看,官溪水电站未来入库径流和水力发电量将有所增加;(3)与基准期(1981—2020年)相比,2031—2060年和2061—2090年官溪水电站入库流量将增加3.55%[−34.14%,39.84%]和5.66%[−32.27%,41.96%],发电量将可能增加5.87%[−29.3%,50.1%]和8.03%[−27.3%,52.4%]。未来径流和发电潜能的增加为官溪水电站的扩容改造提供了一定的科学依据。

基于非恒定渐变流-急变流方程的变流量畦灌数值模型

传统畦灌模型多是基于非恒定渐变流方程建立的,在模拟变流量畦灌水流运动时的精度难以保障。本文综合分析了变流量畦灌过程中田面水流的运动状况,将其按照边界条件的不同划分为恒定流量进水阶段、变流量进水阶段、畦首消退阶段、田面消退第1阶段、田面消退第2阶段等5个阶段,基于非恒定渐变流方程和非恒定急变流方程构建了适用于变流量畦灌系统的渐变流-急变流数值模型,通过2组恒定流量畦灌、4组变流量畦灌的田间试验以及2组文献资料中的畦灌试验数据对模型进行了验证。结果表明,渐变流-急变流畦灌模型模拟值与现场实测结果吻合较好,模拟推进时间决定系数R~2均大于0.96、模拟消退时间R~2大于0.90。与目前常用的WinSRFR模型相比,渐变流-急变流畦灌数值模型在模拟恒定流量畦灌方面具有相似的精度,且在模拟变流量畦灌方面精度更高。渐变流-急变流畦灌模型可以较精准地模拟变流量畦灌的水流运动状况,可为分析变流量畦灌系统、优化变流量畦灌方案提供支撑。