Effects of Liquid Physical Properties on the Forces Acting on a Pipe Bend in Gas–Liquid Slug Flow

B.L. Tay; R.B. Thorpe

doi:10.1205/026387604322870453

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Effects of Liquid Physical Properties on the Forces Acting on a Pipe Bend in Gas–Liquid Slug Flow

Journal article

Peer reviewed

Effects of Liquid Physical Properties on the Forces Acting on a Pipe Bend in Gas–Liquid Slug Flow

B.L. Tay and R.B. Thorpe

Chemical engineering research & design, Vol.82(3), pp.344-356

01/03/2004

DOI: https://doi.org/10.1205/026387604322870453

Abstract

bend

force

slug flow

surface tension

viscosity

The effects of liquid physical properties on the hydrodynamic forces acting on pipe bends in two-phase slug flow were investigated. The two properties of interest were liquid viscosity and liquid surface tension although density was also changed. Discussion will be centred around the effects of the liquid viscosity and liquid surface tension on the maximum forces acting on a pipe bend, which is important for the design of the bend support system. Comparison between the experimental results and predictions from a one-dimensional model, the piston flow model, proposed by Tay and Thorpe will be presented.

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Title: Effects of Liquid Physical Properties on the Forces Acting on a Pipe Bend in Gas–Liquid Slug Flow
Creators: B.L. Tay - University of Cambridge
R.B. Thorpe - University of Surrey
Publication Details: Chemical engineering research & design, Vol.82(3), pp.344-356
Publisher: Elsevier B.V
Number of pages: 13
Publication Date: 01/03/2004
Identifiers: 99928712302346; WOS:000220303800005
Academic Unit: School of Chemistry and Chemical Engineering
Language: English
Resource Type: Journal article

Effects of Liquid Physical Properties on the Forces Acting on a Pipe Bend in Gas–Liquid Slug Flow

Abstract

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