Experiments on Liquid Flow through Non-Circular Micro-Orifices

Cassineri, Stefano; Cioncolini, Andrea; Smith, L. T.; Curioni, Michele; Scenini, Fabio

doi:10.3390/mi11050510

Cited by 3 publications

(1 citation statement)

References 41 publications

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“…When the solution flows into flow cell I, the flow acceleration area forms in it, resulting in the rapid increase of streaming current, and then the transfer of wall current generated from the 304 SS to the metal/solution interface [15,16,22,30]. In the meantime, the "Karman vortex street" phenomenon will occur in the flow accelerated region, making the pressure difference between the micro-orifice on both sides increase, and causing a new current loop to promote particle deposition [19,[31][32][33][34]. According to previous calculations, the current was the highest at the edge of the flow accelerated region.…”

Section: Deposition Mechanismsmentioning

confidence: 99%

Microstructural Characterization of the Corrosion Product Deposit in the Flow-Accelerated Region in High-Temperature Water

Zhang

et al. 2022

Crystals

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The clogging behavior of the micro-orifice under a flow accelerated condition was investigated after 500 h of immersion in high-temperature water. The results indicated the residual area of the micro-orifice was reduced to one-third of its original size after 500 h of immersion due to the deposition of corrosion products. In this process, the clogging behavior of micro-orifice can be divided into three stages: the stable deposition stage, the quick recovery stage, and the dynamic equilibrium stage. The corrosion products were porous and consisted of many deposited particles. The process of particle deposition and removal was carried out simultaneously.

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Section: Deposition Mechanismsmentioning

confidence: 99%

Microstructural Characterization of the Corrosion Product Deposit in the Flow-Accelerated Region in High-Temperature Water

Zhang

et al. 2022

Crystals

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Exploring the effect of cathodic polarization to mitigate CRUD deposition

Cassineri¹,

Curioni²,

Banks

et al. 2020

Nuclear Engineering and Design

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Couette–Poiseuille Flow in Semi-Elliptic Channels

Lopes

Siqueira

2022

Journal of Fluids Engineering

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We present a novel analytical solution for Couette flows of incompressible Newtonian fluids in channels with a semi-elliptical cross section. The flow is steady, unidirectional, satisfies the no-slip condition at the boundaries, and is driven by the movement of the planar wall at constant velocity. The theoretical approach consists of a mapping function to rewrite the problem in an elliptical coordinate system coupled with Fourier's method for the solution of a Laplace equation with Dirichlet-type boundary conditions in the new domain. We then use our new solution together with available results for Poiseuille flows in a similar geometry [J. Fluids Eng. 134(12), (2012)] to study the so-called Couette-Poiseuille flows, where both pressure-driven and boundary-driven mechanisms act simultaneously. We present a detailed analysis of the flow field in Couette, Poiseuille, and Couette-Poiseuille flows in semi-elliptical channels with cross sections of different aspect ratios. For the latter case, we also determine the critical values of the axial pressure gradient that (i) increase the maximum flow velocity above that of the moving wall and shift its position towards the center of the channel, (ii) mark the onset of flow reversal with the emergence of a backflow region below the static wall, and (iii) eventually lead to a zero net flow rate through the channel.

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Experiments on Liquid Flow through Non-Circular Micro-Orifices

Cited by 3 publications

References 41 publications

Microstructural Characterization of the Corrosion Product Deposit in the Flow-Accelerated Region in High-Temperature Water

Microstructural Characterization of the Corrosion Product Deposit in the Flow-Accelerated Region in High-Temperature Water

Exploring the effect of cathodic polarization to mitigate CRUD deposition

Couette–Poiseuille Flow in Semi-Elliptic Channels

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