Based on orthogonal experiments, the experiential formulas of fin height and thickness were obtained.
以正交试验为基础,获得了翅片高度和厚度的经验公式。
The effects of different machining parameters and structure parameters to fin height and groove depth are analyzed.
分析了不同加工参数和刀具结构参数对沟槽翅高和槽深度的影响。
Simulation results show that the important factors of influencing fin heat sinks 'cooling effect are fin pitch, fin thickness, base thickness and fin height.
仿真结果表明,影响翅片式散热器散热效果的重要因素为翅片间距、翅片厚度,基座厚度和翅片高度。
However the fin height, fin Angle and distance of finned tube have the large influence to the finned tube heat, all of them exist the optimal geometrical dimensions.
然而翅片高度、翅片夹角和管排间距则对翅片管的散热性能影响很大,分别存在最优的几何尺寸。
Within the range of experiment, increasing fin height or decreasing spacing of fins of petal-shaped fin tube is helpful to improve the performance of heat transfer enhancement.
在实验范围内,花瓣管翅片高度的增加、翅间距的减少都有利于传热强化性能的提高。
The calculation results indicated that the heat flux and geometrical structures, such as fin width and wick height, exerted great influence on the heat transfer of a CPL evaporator.
对蒸发器的几何结构参数、毛细多孔芯特征参数以及热负荷变化对工质传热传质效果的影响进行了数值模拟。
This relationship can be used to forecast and control the fin-height of the outer-spiral-fin tube, and it has referenced value for the working-out of the technics for cold-drawn outer-spiral-fin tube.
该关系式可对外螺纹铜管凸筋高度进行预测与控制,对外螺纹铜管冷拔工艺的制订具有参考价值。
This relationship can be used to forecast and control the fin-height of the outer-spiral-fin tube, and it has referenced value for the working-out of the technics for cold-drawn outer-spiral-fin tube.
该关系式可对外螺纹铜管凸筋高度进行预测与控制,对外螺纹铜管冷拔工艺的制订具有参考价值。
应用推荐