A microfluidic mixer with a gas bubble filter activated by a thermal bubble actuated nozzle-diffuser micropump is successfully demonstrated. The oscillatory flow generated by the micropump can induce wavy interface to increase the contact area of mixing fluids to accelerate the mixing process. The microfluidic mixing channels are 200 mum wide, 50 mum deep and the speed of the mixing liquids are measured at 6.5 mul/min. The optimal mixing result is found when the actuating frequency of thermal bubble reaches 200 Hz. Normalized gray-scale values that correspond to the completeness of the mixing effect are observed to be proportional to the one-third power of the input pulse frequency. Furthermore, a gas bubble filter is integrated and successfully demonstrated in the microfluidic mixing system. A model based on the principle of threshold pressure with respect to the geometry of microchannels is established. (C) 2002 Published by Elsevier Science B.V. [References: 6]
展开▼
机译:已成功演示了带有气泡过滤器的微流体混合器,该气泡过滤器由热气泡驱动的喷嘴-扩散器微型泵激活。微型泵产生的振荡流会引起波浪形界面,从而增加混合流体的接触面积,从而加速混合过程。微流体混合通道为200毫米宽,50毫米深,混合液的速度测量为6.5 mul / min。当气泡的启动频率达到200 Hz时,可以找到最佳的混合效果。观察到与混合效果的完整性相对应的归一化灰度值与输入脉冲频率的三分之一功率成正比。此外,在微流体混合系统中集成了气泡过滤器并成功进行了演示。建立了基于阈值压力原理的微通道几何模型。 (C)2002由Elsevier Science B.V.出版[参考文献:6]
展开▼
