Simple electroosmotic pump and active microfluidics with asymmetrically coated microelectrodes
J Liu, J Chen, J Dai, J Tang - Small Science, 2023 - Wiley Online Library
Electroosmotic pumps can deliver liquid without moving parts, making them suitable for
microfluidic and lab‐on‐chip systems. Previously, alternating current electroosmotic pumps …
microfluidic and lab‐on‐chip systems. Previously, alternating current electroosmotic pumps …
Thermo-Hydro-Chemo-Mechanical (THCM) Continuum Modeling of Subsurface Rocks: A Focus on Thermodynamics-Based Constitutive Models
MAQ Siddiqui… - Applied …, 2024 - asmedigitalcollection.asme.org
Accurate multiphysics modeling is necessary to simulate and predict the long-term behavior
of subsurface porous rocks. Despite decades of modeling subsurface multiphysics …
of subsurface porous rocks. Despite decades of modeling subsurface multiphysics …
Electrokinetic behavior of an individual liquid metal droplet in a rotating electric field
The interfacial tension gradient forms tangential stress that drives fluid flow at a liquid–liquid
interface, known as the Marangoni convection. In this study, we report on the electrocapillary …
interface, known as the Marangoni convection. In this study, we report on the electrocapillary …
Interplay of roughness and wettability in microchannel fluid flows—Elucidating hydrodynamic details assisted by deep learning
Under microconfinement, the complex interaction between surface roughness and fluid
slippage yields unexpected variations in friction factor and drag reduction. These variations …
slippage yields unexpected variations in friction factor and drag reduction. These variations …
[引用][C] Thermo-Hydro-Chemo-Mechanical (THCM) Continuum Modelling of Subsurface Rocks: A Focus on Thermodynamics-based Constitutive Models 2
MAQ Siddiquia, K Regenauer-Liebb, H Roshana - 2023