Flow visualization through channels in plate-and-frame modules

Tao Wang; Xia Zhan; Jiding Li

doi:10.3969/j.issn.0438-1157.2014.01.009

Flow visualization through channels in plate-and-frame modules

Tao Wang, Xia Zhan, Jiding Li^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

A Perspex test cell was made to observe the flow regime directly in plate-and-frame modules under different conditions. The pressure drops in channels with and without spacer were examined. The critical Reynolds number(Re_c) were determined with the correlations for Re and friction factors. The results showed that Re_c in the spacer filled channel was much smaller than that in the empty one, indicating that the turbulence regime was reached at lower fluid velocity. The results were verified through the dye injecting method. Channels with different surface roughness, spacer arrangement and spacer porosity were also investigated. Finally, a laboratory scale spiral-wound module was made and a similar pressure drop situation was obtained, which confirms that the method is also suitable for the spiral-wound modules.

Original language	English
Pages (from-to)	71-77
Number of pages	7
Journal	Huagong Xuebao/CIESC Journal
Volume	65
Issue number	1
DOIs	https://doi.org/10.3969/j.issn.0438-1157.2014.01.009
Publication status	Published - Jan 2014
Externally published	Yes

Keywords

Feed-side spacer
Fluid mechanics
Membranes
Plate-and-frame module
Spiral-wound module
Turbulence
Visualization

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10.3969/j.issn.0438-1157.2014.01.009

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title = "Flow visualization through channels in plate-and-frame modules",

abstract = "A Perspex test cell was made to observe the flow regime directly in plate-and-frame modules under different conditions. The pressure drops in channels with and without spacer were examined. The critical Reynolds number(Rec) were determined with the correlations for Re and friction factors. The results showed that Rec in the spacer filled channel was much smaller than that in the empty one, indicating that the turbulence regime was reached at lower fluid velocity. The results were verified through the dye injecting method. Channels with different surface roughness, spacer arrangement and spacer porosity were also investigated. Finally, a laboratory scale spiral-wound module was made and a similar pressure drop situation was obtained, which confirms that the method is also suitable for the spiral-wound modules.",

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doi = "10.3969/j.issn.0438-1157.2014.01.009",

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journal = "Huagong Xuebao/CIESC Journal",

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T1 - Flow visualization through channels in plate-and-frame modules

AU - Wang, Tao

AU - Zhan, Xia

AU - Li, Jiding

PY - 2014/1

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N2 - A Perspex test cell was made to observe the flow regime directly in plate-and-frame modules under different conditions. The pressure drops in channels with and without spacer were examined. The critical Reynolds number(Rec) were determined with the correlations for Re and friction factors. The results showed that Rec in the spacer filled channel was much smaller than that in the empty one, indicating that the turbulence regime was reached at lower fluid velocity. The results were verified through the dye injecting method. Channels with different surface roughness, spacer arrangement and spacer porosity were also investigated. Finally, a laboratory scale spiral-wound module was made and a similar pressure drop situation was obtained, which confirms that the method is also suitable for the spiral-wound modules.

AB - A Perspex test cell was made to observe the flow regime directly in plate-and-frame modules under different conditions. The pressure drops in channels with and without spacer were examined. The critical Reynolds number(Rec) were determined with the correlations for Re and friction factors. The results showed that Rec in the spacer filled channel was much smaller than that in the empty one, indicating that the turbulence regime was reached at lower fluid velocity. The results were verified through the dye injecting method. Channels with different surface roughness, spacer arrangement and spacer porosity were also investigated. Finally, a laboratory scale spiral-wound module was made and a similar pressure drop situation was obtained, which confirms that the method is also suitable for the spiral-wound modules.

KW - Feed-side spacer

KW - Fluid mechanics

KW - Membranes

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KW - Spiral-wound module

KW - Turbulence

KW - Visualization

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Flow visualization through channels in plate-and-frame modules

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