In this study, we develop a micro-schlieren analysis methodology to facilitate measurement of inhomogeneities in a micromixer. As a first step, calibration procedures are performed by mixing dilute aqueous methanol and water in a T-microchannel in order to obtain the relation between the refractive index gradients and pixel grayscale values. Knowing the influences of concentration in the refractive index of aqueous methanol solution, we are able to associate pixel grayscale values with the concentration gradient along the cross-stream axis. For refractive index gradient larger than 130 m"', the calibration curve shows great linearity, setting the sensitivity limit of our quantitative micro-schlieren system to 2 x 104 m"' for concentration gradient. We then implement this methodology to examine the mixing behavior in a microfluidic oscillator. The results prove that the micro-schlieren technique is able to provide spatially-resolved, noninvasive, full-field transient measurements and offer a valuable insight into the microscale mass transport phenomena that other methods fail to deliver. While the micro-schlieren technique is directly linked to the measurement of refractive index gradient, the present methodology can be extended to other scalar quantitations that are related to the variation of refractive index in the future.
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机译:在这项研究中,我们开发了一种微schlieren分析方法,以利于测量微混合器中的不均匀性。第一步,通过在T型微通道中混合稀甲醇和水来执行校准程序,以获得折射率梯度和像素灰度值之间的关系。知道浓度对甲醇水溶液折射率的影响,我们能够将像素灰度值与沿横流轴的浓度梯度相关联。对于大于130 m“'的折射率梯度,校准曲线显示出很高的线性度,从而将我们的定量微量刻纹系统的灵敏度极限值设置为2 x 104 m”'(浓度梯度)。然后,我们实现此方法以检查微流控振荡器中的混合行为。结果证明,微schlieren技术能够提供空间分辨的,非侵入性的,全场瞬态测量结果,并对其他方法无法实现的微观质量传输现象提供有价值的见解。尽管微schlieren技术与折射率梯度的测量直接相关,但本方法可以扩展到将来与折射率变化有关的其他标量定量。
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