An investigation of surface cleaning using a swarm of gas bubbles within an acoustically activated stream is presented. Electrolysis of water at Pt microwires (100 ?m diameter) to produce both hydrogen and oxygen bubbles is shown to enhance the extent of ultrasonic surface cleaning in a free flowing water stream containing an electrolyte (0.1 M Na2SO4) and low surfactant concentration (2 mM SDS). The surfactant was employed to allow control of the average size of the bubble population within the swarm. The electrochemical bubble swarm (EBS) is shown to perturb acoustic transmission through the stream. To optimise the cleaning process both the ultrasonic field and the electrochemical current are pulsed and synchronized but with different duty cycles. Cleaning action is demonstrated on structured surfaces (porcine skin and finger mimics) loaded with fluorescent particles. This action is shown to be significantly enhanced compared to that found with an inherent bubble population produced by the flow and acoustic regime alone under the same conditions.
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机译:提出了使用声激励流中的大量气泡进行表面清洁的研究。 Pt微丝(直径为100 µm)上的水电解产生氢气泡和氧气泡,显示出在含有电解质(0.1 M Na2SO4)和低表面活性剂浓度(2 mM)的自由流动水流中增强了超声波表面清洁的程度。 SDS)。使用表面活性剂来控制群内气泡总数的平均大小。电化学气泡群(EBS)显示出扰动声波通过流。为了优化清洁过程,超声波场和电化学电流都被脉冲化并同步,但是占空比不同。在载有荧光颗粒的结构化表面(猪皮肤和手指模拟物)上证明了清洁作用。与在相同条件下仅由流动和声学状态产生的固有气泡数量相比,该行为显示出显着增强。
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