Near wake field of circular cylinder with a forward splitter plate

Near wake field of circular cylinder with a forward splitter plate

Investigation of flow past a circular cylinder has been carried out using experimental tools at subcritical Reynolds number of 5.1×104. Pressure, hot wire and particle image velocimetry measurements have been used to understand the flow past forward splitter plate - cylinder combination. The forward...

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Bibliographic Details
Published in:Journal of wind engineering and industrial aerodynamics Vol. 173; pp. 28 - 38
Main Authors: Chutkey, Kiran, Suriyanarayanan, P., Venkatakrishnan, L.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-02-2018
Subjects:
Cylinder flow
PIV
Splitter plate
Vortex shedding
Cylinder flow
Vortex shedding
PIV
Splitter plate
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Summary:Investigation of flow past a circular cylinder has been carried out using experimental tools at subcritical Reynolds number of 5.1×104. Pressure, hot wire and particle image velocimetry measurements have been used to understand the flow past forward splitter plate - cylinder combination. The forward splitter plate modifies the flow conditions upstream of the cylinder. Further, the wake characteristics downstream of the cylinder are also substantially altered. At subcritical Reynolds number, the flow separation is delayed and the shedding frequency is increased in the forward splitter plate cylinder case as compared to the plain cylinder case. It has been shown that the forward splitter plate reduces drag by 13% as compared to the plain cylinder configuration. The streamwise and transverse velocity fluctuations in the cylinder wake are reduced by 22% and 27% respectively in the presence of forward splitter plate. The phase averaged PIV measurements reveal that the vortices shed in the forward splitter plate cylinder case are weaker in strength as compared to the plain cylinder case. •The wake flow past a cylinder in the presence of a forward splitter plate has been investigated at Reynolds number of 5.1 × 104 using particle image velocimetry.•The flow separation is delayed and shedding frequency is increased for the forward splitter plate cylinder configuration as compared to the plain cylinder configuration.•The drag of forward splitter plate cylinder configuration is 13% less as compared to the plain cylinder configuration.•The phase averaged particle image velocimetry measurements indicate that the vortices are weaker in strength in forward splitter plate cylinder case as compared to the plain cylinder.
ISSN:0167-6105
1872-8197
DOI:10.1016/j.jweia.2017.11.019