Forced Convection and Pressure Drop of CuO-TiO Nano-Particle-Fluid Inside Minus Slope Microfin Pipe under Constant Wall Temperature

Abstract

In this article, empirical analysis of the effects of forced convection and Darcy friction factorise done using nano-fluid and downward flow in negative incline tube. This can be affected by boundary condition when the flow regime was fully developed and laminar, and wall temperature was isothermal. The use of nano-fluid, negative slope can have effect on the augmentation of forced convection. Two equations have been strongly suggested to be estimate the forced convection and pressure drop in a downward flow. The peaked deflection of isothermal and Darcy friction factor are 20% and 21% respectively. The results show that the use of equation is appropriate as long as these are used in experimental investigation. In addition forced convection ratio with ratio of pressure drop is calculated. As long as the rise of figure of merit is more than a unit, It is no longer suitable to apply CuO-TO nano-fluid, minus slopes and micro fine pipe. The maximum FOM is 1.59% extracted with 1.5% weight fraction and slope of 60Âșat Prandtl number of 310. The upshots illustrate majority of the quantities is more than a unit, and as a consequences the heat transfer improvement is more than rise of pressure drop.

Authors and Affiliations

Farhad Hekmatipour, Milad Jalali, Farzad Hekmatipour

Keywords

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  • EP ID EP671642
  • DOI 10.24247/ijmperdoct201915
  • Views 71
  • Downloads 0

How To Cite

Farhad Hekmatipour, Milad Jalali, Farzad Hekmatipour (2019). Forced Convection and Pressure Drop of CuO-TiO Nano-Particle-Fluid Inside Minus Slope Microfin Pipe under Constant Wall Temperature. International Journal of Mechanical and Production Engineering Research and Development (IJMPERD ), 9(5), 157-170. https://europub.co.uk./articles/-A-671642