CO-Driven diffusiophoresis and water cleaning: similarity solutions for predicting the exclusion zone in a channel flow
We investigate experimentally and theoretically diffusiophoretic separation of negatively charged particles in a rectangular channel flow, driven by CO 2 dissolution from one side-wall. Since the negatively charged particles create an exclusion zone near the boundary where CO 2 is introduced, we mod...
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| Published in | Lab on a chip Vol. 21; no. 17; pp. 3387 - 34 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Published |
24.08.2021
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| Online Access | Get full text |
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| Abstract | We investigate experimentally and theoretically diffusiophoretic separation of negatively charged particles in a rectangular channel flow, driven by CO
2
dissolution from one side-wall. Since the negatively charged particles create an exclusion zone near the boundary where CO
2
is introduced, we model the problem by applying a shear flow approximation in a two-dimensional configuration. From the form of the equations we define a similarity variable to transform the reaction-diffusion equations for CO
2
and ions and the advection-diffusion equation for the particle distribution to ordinary differential equations. The definition of the similarity variable suggests a characteristic length scale for the particle exclusion zone. We consider height-averaged flow behaviors in rectangular channels to rationalize and connect our experimental observations with the model, by calculating the wall shear rate as functions of channel dimensions. Our observations and the theoretical model provide the design parameters such as flow speed, channel dimensions and CO
2
pressure for the in-flow water cleaning systems.
We study diffusiophoretic exclusion zone (EZ) formation in rectangular channel flow, driven by CO
2
dissolution from one side wall. By using a similarity transform and considering the flow structure, we obtain the relation between EZ and the wall shear rate. |
|---|---|
| AbstractList | We investigate experimentally and theoretically diffusiophoretic separation of negatively charged particles in a rectangular channel flow, driven by CO
2
dissolution from one side-wall. Since the negatively charged particles create an exclusion zone near the boundary where CO
2
is introduced, we model the problem by applying a shear flow approximation in a two-dimensional configuration. From the form of the equations we define a similarity variable to transform the reaction-diffusion equations for CO
2
and ions and the advection-diffusion equation for the particle distribution to ordinary differential equations. The definition of the similarity variable suggests a characteristic length scale for the particle exclusion zone. We consider height-averaged flow behaviors in rectangular channels to rationalize and connect our experimental observations with the model, by calculating the wall shear rate as functions of channel dimensions. Our observations and the theoretical model provide the design parameters such as flow speed, channel dimensions and CO
2
pressure for the in-flow water cleaning systems.
We study diffusiophoretic exclusion zone (EZ) formation in rectangular channel flow, driven by CO
2
dissolution from one side wall. By using a similarity transform and considering the flow structure, we obtain the relation between EZ and the wall shear rate. |
| Author | Stone, Howard A Shim, Suin Baskaran, Mrudhula Thai, Ethan H |
| AuthorAffiliation | Princeton University Institute of Mechanical Engineering Department of Electrical Engineering Unsteady Flow Diagnostics Laboratory Department of Mechanical and Aerospace Engineering École Polytechnique Fédérale de Lausanne |
| AuthorAffiliation_xml | – name: Unsteady Flow Diagnostics Laboratory – name: Princeton University – name: Institute of Mechanical Engineering – name: Department of Electrical Engineering – name: École Polytechnique Fédérale de Lausanne – name: Department of Mechanical and Aerospace Engineering |
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| Snippet | We investigate experimentally and theoretically diffusiophoretic separation of negatively charged particles in a rectangular channel flow, driven by CO
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| Title | CO-Driven diffusiophoresis and water cleaning: similarity solutions for predicting the exclusion zone in a channel flow |
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