温室风压通风室内外流场的粒子图像速度(PIV)试验(简报)

    Partical image velocimetry(PIV) research of airflow distribution in greenhouse under wind driven situation

    • 摘要: 该文采用粒子速度场仪,研究互插式连栋温室利用风压通风时室内外的流场。结果表明:在时均流场中,互插式连栋温室利用肩窗与侧窗通风时,室外顶部风速最大,天沟处风速最小;温室内部流场风速较小,且顶部风速最小,因而温室室内通风效果不好,热量会聚集在屋顶。在瞬时流场中,分析涡的瞬态过程,得到了回流涡的运动情况;根据温室室外涡量分布图,计算出温室的阻力系数为0.565;从互插式连栋温室室内涡旋运动图中可以看出,沿气流方向涡旋在拱1中的变化慢,在拱2、拱3中的变化快。

       

      Abstract: The advanced flow field display technique, Particle Image Velocimetry (PIV), is applied to research the indoor and outdoor flow field of mutual inserted multi-greenhouse based on research of the common flow field visualization technique. The result of test shows there is the highest wind speed on roof and the lowest wind speed on cullis of mutual inserted multi-greenhouse in time-averaged flow when the greenhouse ventilates using shoulder and side ventilators. The wind speed of inner air flow field is small and the smallest wind speed on roof in mutual inserted multi-greenhouse. So the ventilation effect is not good and the heat congregates at housetop in the greenhouse. The instantaneous process of vortex was analyzed and the movement of circumfluence vortex was obtained in instantaneous flow field. The drag coefficient CD is 0.565 according to the vortex distribution of outer greenhouse. According to the vortex movement pictures of inner mutual inserted multi-greenhouse, it can be found that along the airflow direction, the change of vortex in arch 1 is slower than in arch 2 and 3.

       

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