@article{article_454308, title={Investigation of combined effect of nanofluid and swirling jet on heat transfer}, journal={Scientific Journal of Mehmet Akif Ersoy University}, volume={1}, pages={1–5}, year={2018}, author={Kılıç, Mustafa}, keywords={Computational Fluid Dynamics,Heat Transfer,Nanofluid}, abstract={<p class="MsoNormal" style="margin-bottom:.0001pt;line-height:200%;"> <span lang="tr" style="font-family:Cambria, serif;" xml:lang="tr">The present study is focused on
the numerical investigation of heat transfer from a heated surface by using
nanofluids and swirling jets. Effects of different Reynolds number and
different inlet temperature on heat transfer and fluid flow were studied
numerically. Al <sub>2 </sub>O <sub>3 </sub>- H <sub>2 </sub>O nanofluid was used as
a base coolant in all parameters. k-ω turbulent model of PHOENICS computational
fluid dynamics code was used for numerical analysis. It is obtained that
increasing Reynolds number from Re=12000 to 21000 causes an increase of 51.3% on
average Nusselt Number. Increasing inlet temperature from Tinlet=5 </span> <span lang="tr" style="font-family:’Times New Roman’, serif;" xml:lang="tr"> º </span> <span lang="tr" style="font-family:Cambria, serif;" xml:lang="tr">C to 30 </span> <span lang="tr" style="font-family:’Times New Roman’, serif;" xml:lang="tr"> º </span> <span lang="tr" style="font-family:Cambria, serif;" xml:lang="tr">C has not a
significant effect on average Nusselt number.  </span> </p> <p> </p> <p> </p>}, number={1}, publisher={Burdur Mehmet Akif Ersoy University}