Investigation and optimization of heat transfer coefficient of MWCNTs-Water nanofluids in a plate heat exchanger

* Corresponding Author Email: mjmaghrebi@um.ac.ir How to cite this article Ramezani Azghandi O.; Maghrebi M.J.; Teymourtash A.R. Investigation and optimization of heat transfer coefficient of MWCNTs-Water nanofluids in a plate heat exchanger. Int. J. Nano Dimens., 2021; 12(2): 104-112. Abstract This article reports an experimental study of heat transfer characteristics of multi-walled carbon nanotubes (MWCNTs). These nanofluids, consisting of water with different weight concentrations of nanofluid (0.0.1– 0.145% wt.), were flown in counter flow plate heat exchanger under turbulent conditions (2500 < Re < 6500) for cooling applications. The nanofluid was prepared by dispersing MWCNT nanoparticles in the presence of sodium dodecyl sulfate (SDS) and water as base fluid. The results showed that the convective heat transfer coefficient (HTC) of nanofluid was higher than that of the base fluid at an equal mass flow rate and inlet temperature. The heat transfer coefficient of nanofluid increased by mass flow rate and temperature rising. Also, the heat transfer coefficient and the concentration of MWCNTs nanofluid showed a positive association at the same temperature. At a constant weight concentration, the heat transfer coefficient increased when the Reynolds number increased. The slope weight concentration tends to rise as the heat transfer coefficient grows. The increase in Reynolds numbers (or mass flow) was less than the increase in the concentration of carbon nanotubes. According to the performed experiments and software analysis (QUALITEK 4), the heat transfer coefficient and concentration are both manifolded at the same time. But there was an inverse correlation between the heat transfer coefficient and flow rate.