Heat transfer of nanoparticles employing innovative turbulator considering entropy generation

Authors

M Sheikholeslami, Babol Noshirvani University of Technology
M Jafaryar, Babol Noshirvani University of Technology
Ahmad Shafee, College of Technological Studies
Zhixiong Li, University of Wollongong, Ocean University of ChinaFollow
Rizwan-ul Haq, Bahria University

RIS ID

134191

Publication Details

Sheikholeslami, M., Jafaryar, M., Shafee, A., Li, Z. & Haq, R. (2019). Heat transfer of nanoparticles employing innovative turbulator considering entropy generation. International Journal of Heat and Mass Transfer, 136 1233-1240.

Abstract

In current modeling, turbulent heat transfer of homogeneous nanofluid due to inserting double twisted tapes has been carried out. To better describing performance of unit, generation of entropy has been examined. CuO nanomaterial has been dispersed in to H 2 O, to help its conductivity. The pipe was under the impact of uniform heat flux. Equations describing the flow and energy balance were solved applying finite volume method. The simulations illustrate that both augmenting pumping power and height of tape result in the reduction of thermal component and the augmentation of frictional component.