应用在蒸发器上,能大大延缓翅片表面的结霜速度,保持良好的换热性能。
Likewise, if being used in evaporator, it allows efficient heat transfer, with slowing frost on the surface of the fin.
采用数值模拟的方法,研究了流道内上下两肋片均布置有涡产生器的扁管管片式散热板芯的传热与阻力特性,并与流道单面布置涡产生器的换热板芯进行了对比。
The characteristic of heat transfer enhancement and the fluid flow of the fiat tube bank fin exchanger which has vortex generators on both sides of the fin were investigated by using numerical method.
用数值方法分析了涡产生器式圆管管片式换热板芯单个圆管翅片区域内的传热与阻力性能。
To find the basic heat transfer performance of fin-tube heat exchanger, the numerical analysis is carried for heat transfer element with single round and related fin area.
研究了强制风冷中空气入口侧三角形肋片边缘形状对散热器换热性能和流动阻力的影响。
The effects of the air incoming velocity and the heat sinks structure on the comprehensive performance were investigated.
研究了空气流动速度、肋片排列方式以及几何尺寸对散热器综合换热性能的影响,并且以最小化F为目标函数优化了散热器。
The influence of air velocity, heat sink configuration and dimension on the heat transfer performance is studied. Minimum F is considered as objective function to optimize the heat sink.
选择矩形翅片圆管束热交换器作为激光器的散热部件,并进行了换热计算。
Rectangle fin circle tube heat exchanger is chosen as the laser's radiator, and its conducting heat is calculated.
选择矩形翅片圆管束热交换器作为激光器的散热部件,并进行了换热计算。
Rectangle fin circle tube heat exchanger is chosen as the laser's radiator, and its conducting heat is calculated.
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