辐射角系数

  • 网络Radiation angle coefficient;radiation shape factor
辐射角系数辐射角系数
  1. VFAS辐射角系数自适应软件系统

    VFAs adaptive software system on view factors

  2. 采用蒙特卡罗(MonteCarlo)法,计算了航天服及飞船处于各种相对位置时,航天服对飞船的红外辐射角系数;航天服相对于地球位于各种位置时,航天服对地球的红外辐射角系数;

    By Monte Carlo method , the reflection and infrared radiation angle factors are calculated between spacesuit and spacecraft or earth when spacesuit is located at any position relative to the spacecraft or the earth .

  3. 矩形鳍片膜式水冷壁辐射角系数的求解

    Derivation for Radiation Angle Factor of Membrane Waterwall with Rectangular Fins

  4. 画法几何在辐射角系数中的应用

    The Application of Descriptive Geometry in Determination of the Radiation Angle Factor

  5. 四对角喷管外向辐射角系数的数值模拟

    Numerical simulation on angle factor of outward radiation for four

  6. 喷管延伸段内向辐射角系数的数值分析

    A numerical analysis of the radiation view factor inside extended section of nozzle

  7. 空间两矩形平面之间辐射角系数的研究

    Research on the View Factors of Radiation between Two Rectangular Planes in Space

  8. 城市地面对天空热辐射角系数问题的求解

    Solution on Configuration Factor from Ground to Sky Black Hole 's Thermal Radiation

  9. 辐射角系数计算边界元法及奇异积分处理

    Calculation of radiation angle factors by boundary element method and elimination of integral singularity

  10. 计算空间任意两曲面辐射角系数的有限单元法

    The Numerical Solution of Radiation Angle Factor of Two Arbitrary Space Curved Surfaces by Finite Element Method

  11. 本文对空间任意两曲面间辐射角系数的有限单元计算法进行了探讨。

    The approach has been made in this paper to the availability of finite element method in numerical solution of radiation angle factor of two arbitrary space curved surfaces .

  12. 本文就具有一条边平行的空间两矩形平面之间在任意位置任意角度下的辐射角系数进行了研究。

    In this article an investigation is made on the view factor of radiation between two rectangular planes in space oriented at any arbitrary position and angle to each other .

  13. 该方法克服了周围建筑布局、高度和形状等因素的影响,实现了对任何复杂的建筑区域,能快速地计算出该区域地面对天空的热辐射角系数。

    The solution overcomes the complexity of building arrangement , height and form etc. , and can be used to solve the configuration factor in any ( complicated ) architectural complex .

  14. 本文应用能量平衡的基本原理,获得了航天器在几种典型热工况中太阳帆板的能量平衡的基本方程以及宇宙空间的热辐射角系数基本方程。

    The basic equations of energy equilibrium of solar panel in several typical heat environments and the equations for the space heat radiation angle coefficients are obtained py the principle of energy equilibrium .

  15. 在对钛卷传热过程进行分析的基础上,通过霍特尔拉线法确定真空炉内并排放置的两个钛卷外表面之间的辐射角系数,建立了温度场模型。

    On the basis of the analysis of heat transfer process in the vacuum furnace , using Haute Rama-line method to determine the radiation angle coefficient between the two titanium coils placed side by side , the temperature model of titanium coil was established .

  16. 黑洞的热辐射水冷壁角系数

    Angle Factor of Waterwall Black Holes ′ Thermal Radiation

  17. 对方程组中的内表面对流换热系数、各表面间的辐射换热角系数、冷风渗透耗热量、太阳辐射得热量等各项进行确定。

    It calculates several calculating parameters , such as the inside surface convection heat transfer coefficient 、 radiator heating coefficient 、 air infiltration heat consumption 、 solar radiation heat gain .

  18. 利用系统灵敏度理论和系统误差统计理论,通过引入辐射传递系数和角系数间的关系,针对漫发射、漫反射热系统,提出了关于单元表面吸收率的系统温度误差计算方法。

    Based on system sensitivity theory and system error analysis theory , by introducing the relation between radiation transfer coefficient and angle factor , a computational method , which computes system temperature error about unite surface 's absorptivity is developed .

  19. 方形孔道辐射多孔体的辐射角系数数值分析

    Numerical analysis on radiation angle coefficient of radiant porous body with square aperture

  20. 运用Stokes公式及边界元理论,导出了辐射换热计算中的辐射角系数与相互辐射面积的计算基本公式。

    Based on the Stokes theorem and the boundary element theory , the basic equation of the radiation angle factors and the mutual radiation area for calculating radiation heat transfer was deduced .

  21. 辐射管带钢退火炉内辐射角系数计算

    The calculation of radiation angle coefficient in slab annealing furnace with radiant tubes

  22. 通过对辐射能量传递过程的分解,建立辐射传递系数与角系数之间的关系,提出了一种计算具有漫反射辐射界面特性的单元表面之间辐射传递系数的新型计算方法。

    By decomposing the transfer process of irradiance energy , the relation between radiative transfer coefficient and angle factor was built , and the new method for computing radiative transfer coefficient between unit surfaces was developed .