Особенности разрушения микроструи разбавленного полимерного раствора на основные и спутниковые микрокапли под действием внешнего вибрационного воздействия

Н.А. Хомутов, А. Е. Семенова, М. В. Белоногов, Антонио Ди Мартино, Е.А. Хан, Михаил Пискунов
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Abstract

An experimental study of the morphology of the laminar microjet flow of diluted aqueous solutions of sodium alginate without and with the addition of hydroxyethyl cellulose after a nozzle subject to external vibration stimulation by the action of the reverse piezoelectric effect was carried out. We studied the influence of the polymer concentration in the solution (0.5-5 mg/ml), the flow rate of the liquid (4-26 ml/min), and the frequency of the current of external perturbation (0-1.2 kHz) on the capillary crushing of the microjet with a diameter of about 210 um in the range of Ohnesorge numbers from 0.046 to 1.88 and Reynolds numbers 0.7 to 470. The modes of microjet flow and crushing on microdroplets with indication of boundaries of transitions between them are selected, and a general map of modes is built. Taking into account the polymer concentration in the solution, the dependence of the microjet fracture length on its velocity is shown. The conditions of monodisperse microjet destruction with equidistant arrangement of the main microdroplets in the flow are determined, which are related to an optimal balance between the molecular mass of the polymer in the solution, the intensity of external disturbance and the time of stress relaxation in polymer viscoelastic microjets. The role of formation of structures such as «beads-on-filament» in capillary destruction of microjet with identification of cases of absence of occurrence of «satellite» microdroplets from liquid threads between the main microdroplets has been studied. The results are applied to technologies based on in-air microfluidics (bioengineering and additive technologies), dealing with heterogeneous fluids with viscoelastic properties.
外部振动影响下,稀释聚合物溶液对基本和卫星微滴的破坏特性
通过反向压电效应的作用,对不加和加羟乙基纤维素的稀海藻酸钠水溶液在喷嘴受外部振动刺激后的层流微射流形貌进行了实验研究。研究了溶液中聚合物浓度(0.5 ~ 5mg /ml)、液体流速(4 ~ 26ml /min)、外部扰动电流频率(0 ~ 1.2 kHz)对直径约为210 um的微射流在0.046 ~ 1.88、0.7 ~ 470雷诺数范围内的毛细管破碎性能的影响。选择了微射流流动和微液滴破碎的模式,并指出了两者之间的过渡边界,建立了总体模式图。考虑溶液中聚合物的浓度,给出了微射流破裂长度与速度的关系。确定了流中主要微滴等距排列的单分散微射流破坏条件,这与溶液中聚合物分子质量、外界干扰强度和聚合物粘弹性微射流应力松弛时间之间的最佳平衡有关。研究了微射流毛细管破坏中形成“丝上珠”等结构的作用,并确定了主微滴之间的液体螺纹中没有出现“卫星”微滴的情况。研究结果应用于基于空气微流体(生物工程和添加剂技术)的技术,处理具有粘弹性质的非均质流体。
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