This contemporary work explores the theoretical analysis of energy transfer performance of distinct nanoparticles (silver, copper, aluminium oxide and titanium oxide) adjacent to a moving surface under the influence of a porous medium which is driven by the buoyancy force. A mathematical model is presented which is converted to similarity equations by employing similarity transformation. ; The condensed nonlinear equations were approximated by the iterative method called RKF 45th-order. The flow and energy transference characteristics are explained through graphs and tabulated values. The notable findings are: silver- water is an appropriate nanofluid for enhancing the thermal conductivity of the base fluid. Titanium oxide - water shows a lower fluid flow movement due to porosity.
Zielona Góra: Uniwersytet Zielonogórski
IJAME, volume 25, number 2 (2020)
Biblioteka Uniwersytetu Zielonogórskiego
Jul 6, 2023
Feb 23, 2023
69
https://www.zbc.uz.zgora.pl/publication/78091
Manjunatha, S. Gireesha, B. J. Bagewadi, Channabasappa Shanthappa Jurczak, Paweł - red.
Bouras, Abdelkrim Taloub, Djedid Driss, Zied Debka, Siham Jurczak, Paweł - red.
Khani, F. Darvishi, M.T. Gorla, Rama Subba Reddy Gireesha, B. J. Jurczak, Paweł - red.
Jha, Basant K. Chitumu, Ali J. Oni, Michael O. Jurczak, Paweł - red.
Kumar, K. Ganesh Gireesha, B. J. Manjunatha, S. Jurczak, Paweł - red.
Narender, Ganji Sarma, Sreedhar Govardhan, K. Jurczak, Paweł - red.
Kumar, K. Ganesh Gireesha, B. J. Rudraswamy, N.G. Krishnamurthy, M.R. Jurczak, Paweł - red.
Goyal, Mania Goyal, Rangoli Bhargava, Rama Jurczak, Paweł - red.