细水雾遮蔽衰减目标热辐射的实验研究

设计与搭建了一套细水雾热遮蔽系统,研究了细水雾衰减目标热辐射的实际过程,分析了影响细水雾热遮蔽效果的内、外部因素。研究发现,0.71 mm大口径喷嘴的热遮蔽效果好于0.41 mm口径喷嘴;细水雾厚度越大对目标热辐射的衰减效果越好,但从减小目标与背景的辐射对比度的角度考虑,而是存在最佳水雾厚度值;采用向上喷射的方式比向下喷射具有更好的热遮蔽能力;对于向上喷射的细水雾,其不同高度上热遮蔽能力是不同的,表现出了随高度先增后减的趋势;风的存在,破坏了雾场并加速了雾滴蒸发,对细水雾的热遮蔽能力具有明显的减弱作用。     

基于Mie理论的水雾粒子多光谱消光特性研究

基于Mie散射理论,建立了水雾粒子的消光模型,计算了水雾粒子的多光谱消光特性,分析了水雾的消光特性与水雾粒子粒径之间的关系。结果表明:不同波长条件下,最佳水雾消光性能所对应的水雾粒子粒径也不同;半径在0.22~0.53μm的水雾粒子对可见光的消光性能最好;半径在0.81~8.15μm的水雾粒子对中、远红外辐射的消光性能最好;对于1.06μm和10.6μm两个军用激光常见波长,水雾粒子半径应分别为0.89μm和8.15μm,才能达最佳消光效果。     

基于机器视觉的细水雾液滴尺寸测量与分析

为了满足科研与工程中对细水雾液滴尺寸测量的高精度低成本要求,对雾滴尺寸的机器视觉测量方法进行了深入研究.在自行建立的高压喷雾系统与雾滴采集装置上对细水雾液滴进行了采样,用显微镜及其CCD相机对雾滴样本进行了图像采集,用图像处理软件对采集的雾滴图像进行了处理与分析,测量并统计了5966个雾滴,得到了雾滴尺寸的频谱分布和累积分布以及雾滴平均直径和特征直径,将测量结果与相位多普勒粒子分析仪(PDPA)的测量结果进行了比较.结果表明,机器视觉方法町测量的最小雾滴直径约4.39 μm;机器视觉测量结果与PDPA测最结果相当接近,两种方法测得的细水雾液滴平均直径和特征直径的相对误差均在5%以内,雾滴尺寸均匀度指数的相对误差为0.27%.     

随机取向烟幕凝聚粒子的消光特性

采用蒙特卡罗方法根据团簇-团簇凝聚(CCA)模型对由球形原始微粒凝聚而成的烟幕凝聚粒子进行模拟,用离散偶极子近似(DDA)方法研究随机取向烟幕凝聚粒子的消光特性.结果表明,凝聚粒子的消光特性受到原始微粒数量以及粒径的影响,粒子的凝聚将减弱烟幕的消光性能;当凝聚结构中原始微粒的数目一定时,存在使烟幕消光性能达到最大的原始微粒粒径.     

随机取向纳米石墨椭球粒子的红外消光特性

利用离散偶极子近似(DDA)方法研究了椭球形的纳米石墨粒子的红外消光特性。计算了不同形状的椭球粒子红外消光截面随波长变化规律,并与等效球形粒子的消光性能进行了比较,分析了不同入射波长时,椭球粒子形状和粒径对消光的影响。结果表明,椭球状的纳米石墨粒子红外消光性能好于等效球粒子的消光性能,椭球粒子的最佳消光等效粒径与轴长比和入射波长有关。     

利用DDA方法计算大气气溶胶粒子光学特性

大气气溶胶是大气的重要组成部分,其光学特性是研究大气辐射传输特性的重要参量。本文基于DDA方法,对不同形状气溶胶粒子的光学特性进行计算,得到气溶胶粒子的消光因子、吸收因子随波长变化的数值结果。结合Muller散射矩阵,给出了气溶胶粒子散射强度和极化度的角分布,为研究大气辐射传输提供了有效的方法。     

Mg2Si晶体结构及消光特性的研究

基于高能X射线的散射理论,研究了Mg₂Si晶体的结构和消光特性.结果表明,Mg₂Si晶体具有反萤石结构,当衍射指数H,K和L奇偶混合时其散射光就会出现系统消光,而当衍射指数H,K和L全为偶数或者全为奇数时,其散射光就会出现衍射.在实际应用中对研究具有反萤石结构的晶体具有重要意义. 关键词： 散射理论 消光特性 反萤石结构 衍射     

随机取向烟尘团簇粒子的光学截面的数值计算

采用蒙特卡罗方法根据团簇—团簇凝聚（CCA）模型对由球形原始微粒凝聚而成的烟尘团簇粒子进行了模拟,利用离散偶极子近似（DDA）方法数值计算了不同原始微粒粒径和数目组成的随机取向的烟尘团簇粒子的总消光截面、吸收截面及散射截面等光学特性参数,研究了原始微粒粒径及数目对随机取向烟尘团簇粒子光学特性的影响。结果表明：当入射波长一定时,随机取向烟尘団簇粒子的光学特性主要取决于原始微粒的粒径和数目;烟尘团簇粒子对不同波段激光的吸收和散射存在差别,这种差别随原始微粒粒径及数目变化而变化。这一工作为研究电磁波在烟尘中的传输特性提供重要参考数据。     

������β�����������Al2O3���ӵĹ�ɢ������

基于Mie散射理论和方法,研究了航天器尾喷焰等离子体中Al2O3粒子的光学散射特性,分析了复折射率对单个Al2O3粒子消光效率因子、散射效率因子、吸收效率因子、散射相函数以及单次反照率的影响。同时,基于多分散系粒子尺度单峰分布,分析了Al2O3粒子按粒径分布后散射场的有关效应因子及散射相函数的变化,并进行了相应的数值模拟。理论和数值模拟研究表明,航天器尾喷焰等离子体Al2O3粒子复折射率的虚部和实部、粒径的大小与分布对其散射相函数、消光和散射效率因子以及单次反照率均有明显的影响。     

含复合添加剂N2-双流体细水雾抑制乙醇火焰强化研究

细水雾扑灭油池火初期会出现火焰强化现象,这在一定程度上影响了细水雾灭火技术的安全性。本文研究了含复合添加剂N2-双流体细水雾对乙醇火的灭火有效性,从火焰温度、灭火时间和燃烧场流场结构特征三个方面,分析其对细水雾灭火火焰强化现象的抑制作用。实验结果表明:四种工况灭火效率从高到低分别为含KQ溶液N2-双流体细水雾>N2-双流体细水雾>含6%氟表面活性剂N2-双流体细水雾>Air-双流体细水雾;在含复合添加剂KQ溶液N2-双流体细水雾作用下,火焰强化现象几乎消失,同时表现出良好的控火效果,其原因是N2作为驱动气体则能预先稀释燃烧室内可燃气体浓度,降低火焰燃烧速率;而在氟表面活性剂与金属钾盐添加剂耦合作用下,有利于降低雾滴粒径,加快细水雾的蒸发与金属K离子的析出,从而提高了化学灭火和物理灭火作用。因此,KQ溶液N2-双流体细水雾灭火效率和控火能力大大提高。研究结果将为提高细水雾灭火技术的安全性提供指导。     

随机分布黑碳-硅酸盐混合凝聚粒子的消光特性研究

基于分形理论,采用蒙特卡罗方法对随机分布的混合凝聚粒子的空间结构进行了仿真模拟。利用Bruggeman有效介质理论得到了占有不同体积份额黑碳的内混合凝聚粒子的等效复折射率。采用离散偶极子近似方法对随机分布混合凝聚粒子在内外混合状态下的吸收、散射和消光效率因子等消光特性参量进行了数值计算,深入探讨了混合方式、容积含量、入射波长以及基本粒子粒径和数量对混合凝聚粒子消光特性的影响规律。通过将所得数值结果与T矩阵方法的数值结果进行比较发现,两种数值方法计算的结果非常相近。结果表明,随机分布混合凝聚粒子的散射效率因子对混合方式非常敏感,消光效率因子对混合方式较敏感,而吸收效率因子对混合方式不敏感。随着凝聚粒子尺度参数的增大,混合方式对散射和消光效率因子的影响逐渐显著。内外混合方式下,随着黑碳体积比的增大随机分布混合凝聚粒子的吸收、散射和消光效率因子均近似线性增大,并且增大的幅度随着粒子尺度参数的增大而增大。     

Numerical investigation of the effects of polydisperse water sprays on extinction conditions of counterflow methane non-premixed flames

Water, sprayed in the form of tiny droplets, has emerged as a potential fire suppressant after the halon compounds such as trifluorobromomethane (CF₃Br, Halon 1301) were banned by the Montreal protocol. The size distribution of the water droplet plays a crucial role in the effectiveness of the water spray in fire suppression. A numerical investigation of the influence of size distribution of a polydisperse water spray on extinction of counterflow diffusion flames is presented in this paper. This study uses laminar finite rate model with reduced CHEMKIN chemistry for numerical simulations. The discrete phase, namely the water spray, is simulated using Lagrangian Discrete Phase Modelling approach. In this work, the polydispersity of water spray is taken into account in the numerical simulation by a suitable Rosin–Rammler distribution. Results obtained from numerical simulation are validated with the experimental results reported in the literature. This study demonstrates that the representation of the polydisperse spray by a monodisperse spray (with droplet diameter same as the SMD of the polydisperse spray) in numerical simulations is not always justified and it leads to deviation from the experimental results. The effects of number mean diameter and spread parameter on the efficacy of flame suppression are investigated for polydisperse sprays. A comprehensive comparison is done between the effectiveness of monodisperse and polydisperse water sprays. An optimum droplet diameter is obtained for monodisperse sprays for which the effectiveness of the spray is maximum. The effects of evaporation Damköhler number and Stokes number of water droplets on flame suppression have also been explained.     

Droplet-Laden Mist Film Cooling Effectiveness of Cylindrical Holes Embedded in a Transverse Trench

A three-dimensional numerical model of calculating in the Euler approach is developed to calculate a two-phase turbulent near-wall flow; simulation of thermal efficiency of a gas-droplet shielding injected into a transverse trench through inclined cylindrical holes is fulfilled. The influence of the main thermo-gas-dynamic characteristics of the two-phase flow on thermal efficiency is analyzed. Significant increase in thermal efficiency was obtained by adding droplets in the nearwall coolant flow (up to 2 times in comparison with a single-phase flow). A particular advantage of this method of coolant injection is achieved at high injection parameters. It is shown that the use of two-phase gas-droplet near-wall shielding is promising for protection of surfaces against thermal influence of the heated gas flows.     

电子束蒸发和离子束溅射HfO_2紫外光学薄膜

HfO2薄膜在紫外光学中具有十分重要的地位,不同方法制备的HfO2薄膜特性不同,可以满足不同的实际应用需求。本文分别利用电子束蒸发和离子束溅射方法制备了用于紫外光区域的HfO2薄膜,并对薄膜的材料和光学特性进行了表征与比较。通过对单层HfO2薄膜的实测透射和反射光谱进行数值反演,得到了HfO2薄膜在230～800 nm波段的折射率和消光系数色散曲线,结果表明两种方法制备的HfO2薄膜在250nm的消光系数均小于2×10-3。在此基础上,制备了两种典型的紫外光学薄膜元件(紫外低通滤波器和240nm高反射镜),其光谱性能测试结果表明,两种不同方法制备的器件均具有较好的光学特性。     

A method for calculating the light extinction coefficients of a polymer layer with small nematic liquid-crystal droplets

A method is proposed for analyzing radiation extinction coefficients of polymer films containing small nematic liquid-crystal droplets with cylindrical symmetry. This method is based on the Rayleigh-Gans approximation and the effective scattering matrix. The orientational ordering of both liquid-crystal molecules in droplets and the droplets in a layer is described by multilevel order parameters. The extinction of radiation in polymer films is analyzed for the cases of oblique and normal incidence of light. Simple and convenient expressions are derived for calculating and estimating the extinction coefficients for the case of normal incidence of light on a layer containing spherical droplets. The error of the method is estimated.     

The Angular Polarization Ratio for the Characterization of Small Droplets in Oil Sprays

The angular patterns of the polarization ratio were calculated for droplets with diameters between 0.020 and 50 μm at 500 nm wavelength. It was observed that the patterns for droplets slightly smaller than 1 μm were dominated by a backward peak belonging to the glory. The peak was successfully used to characterize aerosols of light and heavy oils with a Junge-like size distribution. Experiments conducted with heavy oil sprays produced by air-assisted atomization presented the same feature. A quantitative comparison of the experimental results with the Lorenz-Mie theory showed that the size distribution of these sprays was bimodal.     

Influence of Refractive Index Gradients within droplets on rainbow position and implications for rainbow refractometry

Rainbow refractometry allows the determination of the refractive indices of droplets if a homogeneous refractive index can be assumed throughout the whole droplet. The influence of gradients on the angular position of the rainbow was examined for refractive index distributions with constant gradients and for distributions as they occur during cooling, heating and burning of droplets. Geometrical optics were used to determine rainbow positions. For a given value of refractive index at the surface, the rainbow position is in many cases a measure for the gradient itself. It was found that information obtained for constant gradients can often be used in cases with more complex distributions, which are found, for instance, for droplets undergoing heat-transfer processes. Significant errors may be obtained only for a very short initial phase of the process. Experimental results obtained with monosized droplet streams, which confirm theoretical predictions of the influence of gradients on the rainbow position, are presented.     

MEASUREMENTS OF THERMAL CONDUCTIVITY AND OPTICAL PROPERTIES OF POROUS PARTIALLY STABILIZED ZIRCONIA

Experimental measurements of the high-temperature (300 < T < 800 K) thermal conductivity of highly porous (porosity greater than 80%), partially stabilized zirconia (PSZ) were performed. A method of simultaneously inverting conductivity and extinction coefficient from the experimental data is presented. The effect of natural convection within the porous plates with heating from below was found to be negligible. The thermal conductivity integral (TCI) method was incorporated into the inversion of conductivity and radiative properties from the diffusion approximation of the combined radiation and conduction heat flux measurement. The measured conductivity decreased slightly as the pore size of the PSZ increased. The extinction coefficient decreased with increased pore size, and for pore size greater than 0.6 mm the trend had good agreement with the geometric optics limit prediction.