太阳能吸热器玻璃窗辐射与导热计算

在太阳能塔式热发电空气吸热器工作过程中,吸热器玻璃窗受到聚焦太阳光、环境以及吸热面（体）的复合辐射。本文采用改进蒙特卡罗法、有限容积法,研究了太阳能空气吸热器石英玻璃窗半透明介质内部辐射与导热的耦合换热,研究了不同厚度半透明介质石英玻璃窗在工作面处于不同第三类边界条件下的稳态温度分布。研究表明石英玻璃的厚度和内侧空气温...     

半透明介质中辐射传递方程的反演计算及数值模拟

本文介绍了一侧为半透明、另一侧为非透明界面时一维半透明介质的辐射强度计算式。采用辐射与导热复合换热模型计算半透明介质内温度场。利用已知的温度场求半透明介质的辐射强度一正问题计算。将此辐射强度代入辐射反问题计算模型，引入测量误差，采用Ｃｈａｈｉｎｅ方法及演半透明介质内温度场一反问题计算。数值模拟表明，本文所采用的辐射反演法具有较高的精度及稳定性。     

瞬态激光脉冲在吸收、发射性介质内引起的温度响应

本文导出了平行光入射辐射穿过半透明界面,在吸收、发射性介质内产生的辐射热源的表达式。数值模拟了瞬间激光脉冲入射下：（1）半透明介质与不透明介质在非人射面上的过余温度响应;（2）入的激光的波长对温度响应的影响;（3）界面光学特性（两侧均为不透明界面,两侧均为半透明界面,一侧为半透明、另一侧为不透明界面）对温度响应的影响;（4）采用Planck、Rosseland平均吸收系数处理非灰介质时,对辐射与导热瞬态耦合换热的影响。     

表面不透明三层漫反射散射性介质耦合换热

本文采用射线踪迹、节点分析法研究了三层吸收、各向同性散射性介质层内的一维辐射和导热瞬态耦合换热,复合层表面不透明漫反射,介质层交界面半透明漫反射,且半透明漫反射交界面的反射率采用Fresnel反射定律确定。采用一层和二层辐射能量传递模型跟踪辐射能量在三层介质内的传递,从而推导出辐射传递系数。运用辐射传递系数求解辐射源项,在辐射对流边界条件下、采用全隐格式求解瞬态能量方程,并从机理上研究了辐射和导热耦合换热过程。     

半透明平板边界入射辐射热流密度的反问题

对一维半透明平板内辐射、导热及边界对流耦合换热过程进行了研究。提出了一种由一侧边界出射辐射强度反演另一侧边界入射辐射热流密度的方法。通过对各向异性散射、吸收系数、散射系数、边界外侧来流温度、对流换热系数、半透明平板的导热系数和平板厚度等参数对反演精度影响的分析表明,方法是可行的。     

半透明平板边界放射辐射热流密度的反问题

对一维半透明平板内辐射、导热及边界对流耦合换热过程进行了研究。提出了一种由一侧边界出射辐射强度反演另一侧边界入射辐射热流密度的方法。通过对各种向异性散射、吸收系数、散射系数、边界外侧来流温度、对流换热系数、半透明平板的导热系数和平板厚度等参数对反学演精度影响的分析表明,方法是可行的。     

用DT法求解三维圆柱体半透明介质内辐射与导热的非稳态复合换热

采用控制容积法，离散传递（ＤＴ）法，结合谱带模型，研究了第一类及第三类非线性边界条件下三维圆柱体半透明介质内辐射与导热非稳态复合换热的数值计算方法，经与区域法，改进型蒙特卡洛法的计算结果比较表明，本方法的计算结果的可信的，精度也较高。     

高温下半透明介质内辐射与导热的非稳态复合换热

一、引言 到目前为止,半透明介质内辐射与导热的复合换热研究,绝大多数为稳态问题。在非稳态研究中多数考虑第一类边界条件,只有为数不多的文献研究了其他类型的边界条件,至于半透明边界面的研究则更少。然而在玻璃工业,核能,机械,测量,宇航及太阳能利用中却经常遇到各种边界条件及边界面下的复合换热问题。本文考虑了两种边界面,不透明和半透明边界面(但公式推导仅限于不透明边界面,半透明边界面的推导见文[5])及第一类和第三类非线性边界条件。     

用射线踪迹法解黑表面矩形介质耦合换热

本文用射线踪迹-节点分析法研究了二维黑体表面矩形、各向同性散射半透明介质内辐射与导热瞬态耦合换热。采用全隐格式的有限差分法离散二维瞬态微分能量方程,用辐射传递系数来表示辐射源项,结合谱带模型并采用射线踪迹法求解辐射传递系数。采用Patankar线性化方法将辐射源项及不透明边界条件线性化,并采用附加源项法处理边界条件,运用ADI方法求解名以上的线性化方程组,从而解得二维矩形介质内的瞬态温度分布。     

梯度折射率介质瞬态辐射-导热耦合传热

多维辐射-导热耦合传热问题有广泛的应用背景。本文采用有限元法对辐射传递方程的离散坐标形式进行离散,并采用有限元法求解瞬态辐射-导热耦合能量方程,研究二维方腔半透明参与性梯度折射率介质内瞬态耦合传热,考虑第一类热边界条件,分析了折射率分布、衰减系数、散射反照率及散射相函数对对瞬态耦合传热的影响。结果表明,梯度折射率对瞬态耦合传热影响显著。     

HFC-32饱和气导热系数的实验研究

1研究背景自《蒙特利尔议定书》签定后，特别是1992年11月哥本哈根会议以来，HCFCS的替代日程已经确定。目前以含有HFC－32的混合物替代HCFC－22的呼声很高，而且国外正开始着手应用。有关HFC－32的饱和气的导热系数现在还没有见文献报导。在本文中，作者自行开发设计了一套双热线法测量导热系数的实验装置，并对HFC－32的饱和气的导热系数进行了测量，经分析测量结果是令人满意的。2实验装置及实验原理热线法是测量导热系数的瞬态方法之一，其基本原理是Carslaw提出的半径趋于零的无限长线热源在无限大介质中的导热方程的解山文献…     

Heat Transfer Evaluation Method in Complex Rotating Environments Employing IR Thermography and CFD

This article presents a measuring method for determination of convective heat transfer in rotating environments. The method is used to obtain temperature and Nusselt number distributions on optically accessible objects inside real operating environments, without the need for implementation of complex surface heat flux measurements. Temperature maps of the observed surfaces are acquired non-intrusively by infrared (IR) thermography, whereas heat flux data is computed numerically by computational fluid dynamics (CFD) tools. The method was employed on a rotating hollow blade, heated internally by secondary air flow. Experimental and numerical results for the observed blade side are compared in terms of surface temperature 2D distributions. Temperature distributions are further statistically evaluated and show good agreement, which is the basic precondition for combining experimental and numerical data by the method. Results are presented in terms of combined experimental-numerical Nusselt number shown as two-dimensional distribution on the blade pressure side.     

含对流与蒸发表面的有限厚度材料的双曲型热传导分析

本文对于含有对流与蒸发表面的有限厚度材料,在遭受一脉冲表面热流作用时的双曲型热传导进行了分析,采用热势函数描述的双曲型热传导方程来描述该问题,并用有限差分法进行数值求解．同时,本文还就表面对流与蒸发对材料表面与内部瞬态温度变化的影响以及材料双曲型热传导对表面蒸发的影响进行了分析．     

垂直均匀射流下CPU散热器换热性能的数值分析

对垂直射流下CPU散热器的流场及温度场进行了数值模拟,得到了CPU散热器流场及温度场的分布规律,指出近底面肋片间存在回流区,明显影响传热。分析了CPU散热器在射流时不同情况下的散热性能,计算所得数据有助于CPU散热器的设计与改进。     

DSMC方法下给定热流边界条件的实施

本文详细讨论了DSMC方法中流体温度、能量及边界热流的统计方法,发展了一种从边界热流求得与壁面碰撞分子反射速度的方法。该方法被称为逆温度抽样算法(ITS,Inverse Temperature Sampling)方法。在此基础上,本文发展了DSMC方法中壁面处给定热流边界条件的实施方法。计算结果表明: ITS方法能准确抽样反射分子的特征温度,进而求得分子反射速度。基于该方法的给定热流边界条件可以准确求得壁面处温度分布,以及流场内的压力、速度。     

Simulation of the dynamic behaviour of a hydronic floor heating system

The development of a two-dimensional numerical model for a hydronic heating panel is described. The model couples the heating panel to an enclosure, which in turn is losing heat to the surroundings, and is capable of predicting both steady state temperature profiles and transient responses. Both the finite difference method and the finite element method were used to solve the numerical model. Of the two, the finite difference method gave slightly higher temperature values and required more execution time. Model predictions are compared with the experimental data from a bungalow style house equipped with hydronic heating. Steady state results from the simulation compared well with the experimental results, while the model predicted a faster response time for the room air temperature than was observed experimentally. Incorporation of an extra term in the dynamic model to account for heat retention in the walls of the structure resulted in good agreement between the experimental and simulated responses.     

Numerical analysis of uncertain temperature field by stochastic finite difference method

Based on the combination of stochastic mathematics and conventional finite difference method,a new numerical computing technique named stochastic finite difference for solving heat conduction problems with random physical parameters,initial and boundary conditions is discussed.Begin with the analysis of steady-state heat conduction problems,difference discrete equations with random parameters are established,and then the computing formulas for the mean value and variance of temperature field are derived by the second-order stochastic parameter perturbation method.Subsequently,the proposed random model and method are extended to the field of transient heat conduction and the new analysis theory of stability applicable to stochastic difference schemes is developed.The layer-by-layer recursive equations for the first two probabilistic moments of the transient temperature field at different time points are quickly obtained and easily solved by programming.Finally,by comparing the results with traditional Monte Carlo simulation,two numerical examples are given to demonstrate the feasibility and effectiveness of the presented method for solving both steady-state and transient heat conduction problems.     

Numerical Investigation Into the Highly Nonlinear Heat Transfer Equation with Bremsstrahlung Emission in the Inertial Confinement Fusion Plasmas

A highly nonlinear parabolic partial differential equation that models the electron heat transfer process in laser inertial fusion has been solved numerically. The strong temperature dependence of the electron thermal conductivity and heat loss term (Bremsstrahlung emission) makes this a highly nonlinear process. In this case, an efficient numerical method is developed for the energy transport mechanism from the region of energy deposition into the ablation surface by a combination of the Crank‐Nicolson scheme and the Newton‐Raphson method. The quantitative behavior of the electron temperature and the comparison between analytic and numerical solutions are also investigated. For more clarification, the accuracy and conservation of energy in the computations are tested. The numerical results can be used to evaluate the nonlinear electron heat conduction, considering the released energy of the laser pulse at the Deuterium‐Tritium (DT) targets and preheating by heat conduction ahead of a compression shock in the inertial confinement fusion (ICF) approach. (© 2015 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)     

热线法测量保温材料的导热系数

本文在分析热线法测量导热系数原理的基础上,应用热线法测定了几种保温材料不同温度下的导热系数。并通过Origin7.0对测量结果进行了数据线性拟合,可快捷、精确地获得测量结果。     

反射率的数值反演

通过分析热流边界条件下的一维热传导过程,提出并实现了由后表面温度变化历史曲线反演前表面反射率变化历史曲线的数值方法。通过一维热传导的正向和反演计算过程,验证了反演程序的可靠性。对数值反演计算和实验测量两种方式得到的反射率曲线进行了对比,结果显示,两条反射率曲线在变化趋势上符合较好,初步验证了一维温度场中数值反演方法的可行性。