Numerical simulation of gap effect in supersonic flows

The gap effect is a key factor in the design of the heat sealing in super- sonic vehicles subjected to an aerodynamic heat load. Built on S-A turbulence model and Roe discrete format, the aerodynamic environment around a gap on the surface of a supersonic aircraft was simulated by the finite volume method. As the presented results indicate, the gap effect depends not only on the attack angle, but also on the Mach number.

Perturbation Solutions for Annular Flow of Small Gap

The perturbation method is used to solve the control equations of a three-dimensional annular flow inside a small gap. The nonlinear equations are separated into zeroth-order and first-order perturbation equations. The velocity and pressure distributions are solved successively by different numerical methods with the zeroth-order and first-order equation. Agreement in results is found with the present method and software ANSYS-CFX, which illustrates the applicability of perturbation method in solving complicated flow field inside small gaps.

Effect of Radial Resistance Gap on the Pressure Drop of a Compact Annular-Radial-Orifice Flow Magnetorheological Valve

A compact annular-radial-orifice flow magnetorheological(MR)valve was developed to investigate the effects of radial resistance gap on pressure drop.The fluid flow paths of this proposed MR valve consist of a single annular flow channel,a single radial flow channel and an orifice flow channel through structure design.The finite element modelling and simulation analysis of the MR valve was carried out using ANSYS/Emag software to investigate the changes of the magnetic flux density and yield stress along the fluid flow paths under the four different radial resistance gaps.Moreover,the experimental tests were also conducted to evaluate the pressure drop,showing that the proposed MR valve has significantly improved its pressure drop at 0.5 mm width of the radial resistance gap when the annular resistance gap is fixed at 1 mm.

Study on Stack Effect of Stairwell by Numerical Model of Leakage Flow through Gap of Door

Since stack effect that occurs in high-rise buildings has an effect on the indoor environment of the buildings, energy loss and smoke control in case of a fire, there is a need to conduct research on this. For an analysis of the stack effect, analysis methods on the leakage flow through gap of interior door shall be formulated. Until now, studies related to the gap leakage flow in buildings have mainly analyzed flow field and pressure in the buildings one-dimensionally using pressure difference-leakage flowrate relations of Orifice Equation and a network numerical analysis algorithm that as- sumes each compartment in the buildings as a single point. In this study, the Momentum Loss Model which enables pressure drop to be proportional to the flow velocity through the gap of door in computational domain of 3-dimensional numerical analysis was proposed to reflect the gap flow phenomenon effectively in 3-dimensional numerical analysis. Using the proposed model, 3-dimensional numerical analysis of the stack effect on the stairs in buildings was performed, and the effects of separation door and lobby between stair and accommodation on the stack effect were investigated.

单缝襟翼缝道对升力线形态的影响研究

某大弯度翼型采用的单缝襟翼缝道对升力特性影响显著,可导致升力线整体形态的变化。基于求解RANS方程方法研究表明,缝道以襟翼相对主翼上翼面后缘点的距离为主要特征,存在升力线形态差异较大的5个区域,按照距离主翼上翼面后缘点的距离由近至远依次命名为D、C、B、A、E区。A区与主翼的间距在(1.01~1.33)%相对弦长之间,具有最高的最大的升力系数和失速迎角,升力线斜率量值较大,为0.088(1/°)。流场特性分析表明此区域内较小迎角时襟翼存在后缘气流分离,随着迎角逐渐增加逐步变化为附体流动。随着襟翼逐渐靠近主翼,依次为B区、C区,此区域内的升力特点是在小迎角时襟翼上就形成了附体流动,中小迎角时产生更大的升力增量,而随着迎角增加襟翼升力有降低趋势,升力线斜率可降低至0.036(1/°),最大升力系数和失速迎角降低。D区距离主翼最小,增升效果降低且升力出现非线性。E区距离主翼最远,与主翼的耦合效果弱,增升作用最差.

提高660MW机组运行经济性的技术改造

针对某660MW超临界机组出现的热耗率异常偏高问题(与设计值相比高出278kJ/(kW·h)),通过分析并提出相应的技术改造措施后,实现了年标准煤节约量达到2.18万吨,燃煤费用每年节省1437万元的显著经济效益,机组平均热耗率下降了173.02kJ/(kW·h),供电煤耗也平均降低了13.35g/(kW·h),为节能减排与可持续发展贡献了积极力量。

流式细胞术检测骨髓增生异常综合征细胞中RAP1GAP表达及其临床相关性(英文)

以往应用基因芯片对骨髓增生异常综合征(MDS)患者细胞的基因表达谱的研究发现,RAS蛋白超家族成员RAP1GAP转录水平被上调,并在MDS患者大量病例中应用定量RT-PCR得到证实。本研究探讨MDS细胞中RAP1GAP的表达及其与临床的相关性。应用流式细胞术检测19例MDS患者骨髓细胞内RAP1GAP的表达,并与非恶性血液病以及急性白血病患者骨髓细胞中RAP1GAP的表达进行比较。对RAP1GAP表达水平与MDS患者的血红蛋白水平,白细胞计数,血小板计数,骨髓细胞中原始细胞的百分数以及IPSS危险积分等临床指标之间的相关性进行了分析。结果发现,RAP1GAP的表达在MDS患者骨髓细胞中显著高于非恶性血液病或急性白血病的细胞内的表达(8.420±8.365%比2.974±4.750%或2.256±4.239%)。在MDS患者中,MDS-RA的RAP1GAP表达显著高于MDS-RAEB内的表达(11.637±9.067%比4.368±4.646%)。然而,在检测的MDS患者中RAP1GAP的表达水平与上述临床指标无确切的相关性。结论:RAP1GAP在MDS中的表达明显增高,RAP1GAP表达水平与临床实验室血液学参数及IPSS积分之间无相关性。RAP1GAP表达在MDS进展至AML中的作用及其临床意义值得进一步探讨。

Experimental study on convective boiling heat transfer in narrow-gap annulus tubes

Since convective boiling or highly subcooled single-phase forced convection in micro-channels is an effective cooling mechanism with a wide range of applications, more experimental and theoretical studies are re- quired to explain and verify the forced convection heat transfer phenomenon in narrow channels. In this experimental study, we model the convective boiling behavior of water with low latent heat substance Freon 113 (R-113), with the purpose of saving power consumption and visualizing experiments. Both heat transfer and pressure drop characteris- tics were measured in subcooled and saturated concentric narrow gap forced convection boiling. Data were obtained to qualitatively identify the effects of gap size, pressure, flow rate and wall superheat on boiling regimes and the tran- sition between various regimes. Some significant differences from unconfined forced convection boiling were found, and also, the flow patterns in narrow vertical annulus tubes have been studied quantitatively.

A Modified Cellular Automaton Model for Traffic Flow

A modified cellular automaton model for traffic flow was proposed. A novel concept about the changeable security gap was introduced and a parameter related to the variable security gap was determined. The fundamental diagram obtained by simulation shows that the maximum flow more approaches to the observed data than that of the NaSch model, indicating that the presented model is more reasonable and realistic.

数字经济要素流动与城市创新差距

为探讨数字经济对城市创新差距的影响,文章基于2011—2022年我国273个地级及以上城市的面板数据,测算城市数字经济指数和城市创新差距,并以数据要素流动环境为调节变量,同时选取人才要素流动和资本要素流动为中介变量,在此基础上进行计量分析。研究发现:数字经济发展扩大了本地城市创新差距,而对邻近地区表现出缩小城市创新差距的溢出效应;中介效应检验结果表明,数字经济发展能够促进人才和资本要素流动,但是扩大了城市创新差距;门槛效应检验结果表明,数字经济对城市创新差距的影响存在以数据要素流动环境为门槛变量的双重门槛效应,在第一个门槛值前后表现为扩大城市创新差距,在跨越第二个门槛值后,则表现为缩小城市创新差距;以数字经济为门槛变量时,则为单门槛效应,低于门槛值时表现为扩大城市差距,高于门槛值时则表现为缩小城市差距;在数据要素流动环境的调节作用下,数字经济缩小本地和邻近区的城市创新差距的能力显著增强。

支化GAP分子结构与流变性能表征研究

为控制支化叠氮缩水甘油聚醚(Branched Glycidyl Azide Polymer,BGAP)质量,对BGAP的流变性能与分子结构进行了研究。采用美国TA公司ARES型高级旋转流变仪检测了BGAP的动态流变性能、零剪切粘度和粘流活化能,并应用十八角度激光光散射(LS)、粘度(CV)和示差折光(DRI)三检测器与凝胶渗透色谱(GPC)联用仪检测了BGAP的重均相对分子量,以及特性粘数法和均方回转半径法的支化因子。结果表明,支化GAP(叠氮缩水甘油聚醚)有剪切变稀行为,特性粘数法支化因子比均方回转半径法支化因子略大,其结果规律一致,两种方法所得支化因子均可表征BGAP的支化程度。BGAP的重均相对分子量与支化程度均对其动态模量、零剪切粘度和粘流活化能等流变性能参数有明显相关性;BGAP重均相对分子量与支化程度差别程度越大,对其流变性能的影响越显著。

气隙取气斜流式通风汽轮发电机转子的温度场研究

为了研究气隙取气斜流式通风汽轮发电机转子的温度场的分布特点,本文依据传热学基本理论,建立了三维全域的转子耦合计算模型,利用有限体积法对模型中的控制方程进行数值计算与分析。首先分别对转子槽内铜排、匝间绝缘、转子铁芯进行整体温度场的分析,研究其温度分布的异同点,然后对比了各风区中心截面的温度,最后研究铜排沿轴向和周向的温度分布特点,分析了温度分布趋势的产生原因。结果表明:转子温度场沿轴向呈波浪形分布,转子中心截面、磁极中心线及其垂直线高度对称,最高温度出现在靠近汽端和励端的出风区;槽内越靠下的铜排,温度峰谷差越小,温度不均的程度越小;在周向上,靠近大齿铜排的温度比其余铜排温度略低。本文的结论可为气隙取气斜流式通风汽轮发电机的深度调峰运行和转子结构优化提供参考。

孔内空气间隔对有/无金属罩聚能装药定向侵彻效果的影响

为了探究孔内径向空气间隔对有/无金属罩聚能装药定向侵彻效果和炸药爆轰能量传递过程的影响,采用ANSYS/LS-DYNA软件,开展孔内装药空气间隔为6,8,10,12,14 cm时的数值模拟研究,分析了聚能装药中有药型罩形成EFP和无药型罩形成聚能气流的能量集中释放过程,以及对孔壁的定向侵彻深度。结果表明空气间隔小于10 cm时,聚能气流对孔壁的侵彻深度相对于EFP平均侵深分别提高了53%(6 cm)和29%(8 cm)。空气间隔大于10 cm时,EFP平均侵彻深度相比于聚能气流均增加了26%(12 cm和14 cm)。计算聚能轴线上EFP和聚能气流单位面积通过孔壁的动能,发现空气间隔较小时,聚能气流在空气中衰减耗散的能量小于EFP塑性变形耗能,此时聚能气流对孔壁的侵彻效果较优;空气间隔较大时,爆轰产物空间膨胀造成聚能气流轴线处的密度和动能显著降低,而EFP由于具有高密度和不可压缩性,能量分散小,动能衰减缓慢,此时EFP对孔壁的侵彻效果优于聚能气流。

气体流量对楔形间隙氦气放电特性的影响

开发了一种由两个矩形铜电极组成的楔形放电装置,利用这种装置研究了楔形间隙内的氦气放电特性。发现了楔形氦气放电长度、放电电流和谱线强度随氦气流量的增加先快速增加,再缓慢减小,最后几乎不变的规律,但击穿电压却先缓慢减小,然后快速增加,最后几乎不变。得到了相应的特征分区图。建立了放电长度特征分区图、击穿电压特征分区图、放电电流特征分区图和光谱强度特征分区图之间的内在物理关联。

高压隔膜泵单向阀阀隙流场的冲蚀磨损特性分析

目的探究高压隔膜泵单向阀阀隙流场冲蚀磨损产生的原因及主要影响因素。方法基于固液两相流基本理论和冲蚀模型,考虑颗粒保护效应及磨蚀效应,采用计算流体力学(CFD)方法模拟单向阀阀隙流场的冲蚀磨损行为,探究矿粉颗粒体积分数、颗粒粒径、单向阀半锥角、胶垫突出高度等参数对单向阀冲蚀磨损特性的影响。结果矿粉颗粒紧贴阀芯壁面的剪切运动是造成阀芯发生冲蚀磨损失效的主要原因。当矿粉的体积分数由0.1增大到0.5时,由冲蚀造成的最大冲蚀磨损速率随之减小,由磨蚀造成的平均冲蚀磨损速率随之增大。当矿粉粒径为0.025~0.048 mm时,随着矿粉粒径的增大,平均冲蚀磨损速率随之增大。当矿粉粒径超过0.048 mm时,平均冲蚀磨损速率逐渐减小。当单向阀半锥角由30°增大到45°时,阀隙流场的最大流速由12.23 m/s减小至9.19 m/s,矿粉颗粒对阀芯壁面的最大冲蚀磨损速率减小了41.16%。阀隙流场的最大流速和冲蚀磨损速率随着胶垫突出高度h的增大而增大,同时位置也发生了相应变化。结论矿粉颗粒体积分数的增加会加重粒子对阀芯壁面的损伤程度,随着粒径的增加,泵阀的最大冲蚀磨损速率先增大后减小,增大半锥角可以缓解颗粒对壁面的冲蚀磨损,增大胶垫突出高度会导致冲蚀磨损区域逐渐向胶垫突出位置集中。

跨音速流动中涡轮动叶叶顶的气膜冷却特性分析

为了掌握跨音速流动中涡轮动叶叶顶气膜冷却特性,采用压敏漆测试技术来研究叶顶间隙高度和质量流量比对叶顶气膜冷却特性的影响规律。研究结果表明:在小质量流量比条件下,增加叶顶间隙高度能够有效改善叶顶中弦区域的气膜覆盖,然而当质量流量较大时,叶顶间隙高度变化对叶顶中弦区域的气膜冷却效率分布影响并不明显;在小叶顶间隙高度条件下,随着质量流量比增加,叶顶中弦区域冷气覆盖效果逐渐变差,在大叶顶间隙高度条件下,仅当质量流量比从0.1%+0.05%增加到0.14%+0.07%时,叶顶中弦区域的冷气覆盖效果才有所改善。

环形间隙式层流元件设计及流量特性研究

为了解决传统层流流量计(LFM)线性度不佳、长径比较大、加工使用不便和结构易受流体影响等诸多问题,受双锥流量计的启发,提出了一种环形间隙式层流元件结构,介绍了测量原理和流道内非线性压力损失来源。保持该结构外套筒体和圆柱锥体同轴心,其流道截面为同心圆环,通过CFD仿真确定了锥形导流结构的合理锥形角度,确定了层流元件的尺寸参数。将取压孔设置在流道中充分发展的层流段,理论上消除了传统毛细管式LFM进出口处流动局部损失和层流发展段的动能损失。制作3种不同间隙大小的试件并进行试验,结果显示,当测量流量值小于53 mL/min时,层流元件的测量误差在3%以内;当测量流量值在(130~6189)mL/min时,测量误差在±2%以内;层流元件的压差和流量之间具有优秀的线性关系。说明环形间隙式层流元件结构可有效克服传统LFM的非线性影响,同时测量流量范围可随间隙大小变化而改变。

车载滑片式压缩机数值建模及其性能研究

由于对滑片式压缩机几何优化的研究有限,大多数受几何结构影响的流动和泄漏机制尚未完全揭示。为此提出一种新型车载滑片式压缩机,其设有密封减震垫片以减小磨损摩擦,进、排气口采用异面布置且进气口端面为月牙形结构,以改善腔内流动。结合动网格技术,选取RNG κ-ε湍流模型,采用Pumplinx对滑动叶片数量、叶片尖端间隙高度进行数值研究,并搭建压缩机试验台架进行试验验证。结果表明:随着滑片数量的增多,出口温度和定转子啮合间隙泄漏减小,质量流量增加;定转子啮合间隙高度从0.01 mm增大到0.05 mm时,质量流量和容积效率分别降低了11.46%和6.69%,而排气温度增加了45.8 K,间隙泄漏量增大了1.13倍。

接触面尺寸公差对航空齿轮泵性能阈值的影响

接触面加工误差是影响航空齿轮泵性能的敏感因素,有必要研究接触面尺寸公差对航空齿轮泵外特性的影响规律。选取泵体内部3种主要接触面(泵腔内表面、齿顶面和齿面),分别建立存在尺寸公差的实际模型,并与无公差的理想模型进行对比。利用RNG k-ε湍流模型三维瞬态流场数值模拟,推导出基于公差的径向泄漏量数学模型,揭示不同接触面公差对泵外特性的影响规律。研究表明:接触面公差降低了容积效率,缓解了流量脉动与压力脉动,使得相邻腔室间压力梯度下降;其中齿面公差对泵的流量、压力特性最为敏感。齿面公差的存在使得容积效率、瞬时流量算术平均偏差及瞬时压力算术平均偏差分别下降4.7%、31.8%和39.3%。此外,齿面公差有效缓解困油区压力和减少齿轮激励力,而齿顶与泵腔接触面公差对其影响不大。

燃气透平榫头/榫槽装配间隙流动与换热特性研究

为精确设计燃气轮机二次空气系统,针对燃气透平动叶榫头/榫槽间隙内的流动与换热问题开展研究。以燃气透平动叶榫头/榫槽配合面S形间隙结构为研究对象,试验研究了榫头/榫槽装配间隙内的流阻与换热特性,并数值分析了其详细流动结构。首先,采用压力扫描阀和热色液晶测温技术测量了榫头/榫槽内的流阻和努塞尔数分布。然后,利用试验结果对所采用的数值计算方法进行了考核,并进行了网格无关性验证。最后,详细分析了5种雷诺数、5种结构参数榫头/榫槽高度及5种间隙宽度下榫头/榫槽装配间隙结构内部流动与换热特性。结果表明:在试验测量范围内,左侧壁面的平均努塞尔数始终比右侧高10%左右;随着雷诺数的增大,榫头/榫槽装配间隙的阻力损失系数和换热强度均逐渐增大,当雷诺数从15000增大到35000时,平均阻力系数增大了2倍,两侧面整体平均努塞尔数均增大了1.1倍;随着榫头/榫槽装配间隙相对高度的增大,阻力损失系数及壁面努塞尔数均逐渐减小;随着榫头/榫槽装配间隙宽度的增大,试验范围内平均阻力系数增大了30.7%,左右两侧面平均努塞尔数分别增大了95.5%和94.9%。