SPH based optimization of electrowetting-driven digital microfluidics with advanced actuation patterns

Wei? D.; Greiner A.; Lienemann J.; Korvink J.G.

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SPH based optimization of electrowetting-driven digital microfluidics with advanced actuation patterns

机译：基于SPH的具有先进驱动模式的电润湿驱动数字微流体优化

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Fast and thorough mixing is a crucial operation of digital microfluidic devices, where discrete and small fluid portions are moved and processed. In this paper, we want to analyze and to optimize the mixing process by substituting conventional motion and superposing oscillatory and translational modes. An accurate multiphase smoothed particle hydrodynamics (SPH) discretization for incompressible flow is instantiated. Different harmonic excitation patterns for the solid-liquid surface energy are applied and their influence on droplet mode shapes, formation of eddies and the Shannon entropy of droplet fluid components are measured. We tailor enhanced actuation patterns which improve mixing grade and reduce mixing time.

机译：快速彻底的混合是数字微流控设备的关键操作，其中离散和小的流体部分被移动和处理。在本文中，我们要通过替代常规运动并叠加振荡和平移模式来分析和优化混合过程。实例化了不可压缩流的精确多相平滑粒子流体动力学（SPH）离散化。应用了针对固液表面能的不同谐波激励模式，并测量了它们对液滴模式形状，涡流的形成和液滴流体成分的香农熵的影响。我们定制增强的致动模式，以改善混合等级并减少混合时间。

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《International Journal of Modern Physics, C. Physics and Computers 》 |2013年第12期| 共7页
作者
Wei? D.; Greiner A.; Lienemann J.; Korvink J.G.;
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正文语种 eng
中图分类电子计算机在物理学中的应用 ;
关键词
electrowetting; mixing eddies; mixing efficiency; mixing optimization; oscillating droplet; Shannon entropy; shape modes; Smoothed particle hydrodynamics;

机译：电润湿;混合涡流;混合效率;混合优化;微滴振荡;香农熵;形状模式;颗粒流体动力学;

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1. SPH based optimization of electrowetting-driven digital microfluidics with advanced actuation patterns [J] . Wei? D., Greiner A., Lienemann J., International Journal of Modern Physics, C. Physics and Computers . 2013 ,第12期

机译：基于SPH的具有先进驱动模式的电润湿驱动数字微流体优化
2. Rolling performance of liquid marbles enhanced by optimizing particles as digital microfluidics actuators [J] . Imai Satomitsu Sensors and Actuators, A. Physical . 2018 ,第期

机译：通过优化颗粒作为数字微流体致动器来增强液体大理石的滚动性能
3. Pareto optimization technique in actuation control for error minimization and reliability analysis in an operational pin-constrained digital microfluidic biochip [J] . Mukherjee Subhamita, Pan Indrajit, Samanta Tuhina Integration . 2017 ,第sepa期

机译：致动控制中的Pareto优化技术，可在引脚受限的数字微流控生物芯片中实现误差最小化和可靠性分析
4. NONLINEAR LOCALIZATION FOR ELECTROWETTING-BASED DIGITAL MICROFLUIDIC ACTUATION [C] . Milad Abolhasani, Kurt D. Devlin, Homayoun Najjaran, International conference on nanochannels, microchannels and minichannels;ICNMM2010 . 2011

机译：基于电泳的数字微流体驱动的非线性定位
5. Modelling and development of droplet generation method for magnetically actuated digital microfluidics. [D] . Hutama, Timothy James. 2017

机译：磁驱动数字微流体液滴产生方法的建模和开发。
6. Design Optimization of a Pneumatic Soft Robotic Actuator Using Model-Based Optimization and Deep Reinforcement Learning [O] . Mahsa Raeisinezhad, Nicholas Pagliocca, Behrad Koohbor, 2021

机译：基于模型的优化和深度加固学习的气动软机器人执行器设计优化
7. Creating, Transporting, Cutting, and Merging Liquid Droplets by Electrowetting-Based Actuation for Digital Microfluidic Circuits [O] . Sung Kwon Cho, Hyejin Moon, Chang-jin Kim 2014

机译：通过基于电润湿的数字微流体电路创建，运输，切割和合并液滴

SPH based optimization of electrowetting-driven digital microfluidics with advanced actuation patterns

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