Indian Journal of Science and Technology

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Effect of Counter-Rotating Cylinder with Surface Roughness on Stagnation and Separation Point – A Computational Approach


Affiliations
1 Department of Mechanical Polytechnic, Seberang Perai, Malaysia
2 School of Mechanical Engineering University, Sains - 11800, Malaysia
3 Faculty of Mechanical Engineering, University Teknologi MARA (Pulau Pinang), Malaysia
 

This paper is devoted to a two-dimensional numerical study of the influence of surface roughness on the cross-flow around a Counter-Rotating Cylinder. The surface roughness consists of irregular notches periodically distributed on the cylinder surface. The roughness was varied using different notch patterns and heights. The roughness patterns were tested on the cylinder. It was investigated approximately using two-dimensional block with average height and different shapes periodically distributed on a smooth cylinder. The influence of the roughness on the drag coefficient, stagnation point pattern and location of separation point was studied numerically over the range of Reynolds numbers 2.0 x 103 < Re < 4.2 x 104 at rotating speed 400 rpm. In the Counter-Rotating Cylinder with roughness, no as well as different observed on drag coefficient prediction compared with previously published. However, the stagnation point and separation point on roughness cylinder is quite difference between a smooth cylinder.

Keywords

Circular Cylinder, Reynolds Number, Rotation Speed, Surface Roughness
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  • Effect of Counter-Rotating Cylinder with Surface Roughness on Stagnation and Separation Point – A Computational Approach

Abstract Views: 144  |  PDF Views: 0

Authors

M. T. Abu Seman
Department of Mechanical Polytechnic, Seberang Perai, Malaysia
F. Ismail
School of Mechanical Engineering University, Sains - 11800, Malaysia
H. Yusoff
Faculty of Mechanical Engineering, University Teknologi MARA (Pulau Pinang), Malaysia
M. A. Ismail
School of Mechanical Engineering University, Sains - 11800, Malaysia

Abstract


This paper is devoted to a two-dimensional numerical study of the influence of surface roughness on the cross-flow around a Counter-Rotating Cylinder. The surface roughness consists of irregular notches periodically distributed on the cylinder surface. The roughness was varied using different notch patterns and heights. The roughness patterns were tested on the cylinder. It was investigated approximately using two-dimensional block with average height and different shapes periodically distributed on a smooth cylinder. The influence of the roughness on the drag coefficient, stagnation point pattern and location of separation point was studied numerically over the range of Reynolds numbers 2.0 x 103 < Re < 4.2 x 104 at rotating speed 400 rpm. In the Counter-Rotating Cylinder with roughness, no as well as different observed on drag coefficient prediction compared with previously published. However, the stagnation point and separation point on roughness cylinder is quite difference between a smooth cylinder.

Keywords


Circular Cylinder, Reynolds Number, Rotation Speed, Surface Roughness



DOI: https://doi.org/10.17485/ijst%2F2015%2Fv8i30%2F122140