1Satya College of Engineering and Technology, Palwal (Haryana) India
2Applied College of Management and Engineering, Palwal (Haryana) India
3Ratan Institute of Technology and Management, Palwal (Haryana) India
*E-mail: ys45150@gmail.com
Online published on 30 July, 2015.
The effect of roughness on pressure drop and heat transfer in circular tubes has been extensively studied in literature. The pioneering work of Nikuradse (1933) established the sand grain roughness as a major parameter in defining the friction factor during laminar and turbulent flows. Recent studies have indicated a transition to turbulent flows at Reynolds number values much below 2300 during single-phase flow in channels with small hydraulic diameters. In the present work, a detailed experimental study is undertaken to investigate the roughness effects in small diameter tubes. The roughness of the inside tube surface is changed by etching it with an acid solution
Roughness effects, Reynolds number and acid solution