Numerical computations for thermally radiative viscoplastic magnetized nanomaterial capturing gyrotactic microorganisms, non-Darcian and transpiration aspects: A model for enhanced heat transference in modern industrial processes

Author:

Salman Kausar M.,Anwar Bég O.,Bilal S.,Waqas M.,Zamri Nurnadiah,Gepreel Khaled A.

Funder

Taif University

Publisher

Elsevier BV

Reference39 articles.

1. Choi SU, Eastman JA. Enhancing thermal conductivity of fluids with nanoparticles (No. ANL/MSD/CP-84938; CONF-951135-29). Argonne National Lab. (ANL): Argonne, IL (United States); 1995.

2. Nanofluid heat transfer within a pipe equipped with external device;Qin;Int Commun Heat Mass Transfer,2021

3. Numerical investigation of MHD impact on Maxwell nanofluid;Jamshed;Int Commun Heat Mass Transfer,2021

4. Flow of water based nanofluid containing different shapes of Cu nanoparticles embedded in a porous medium;Kausar;Int J Appl Comput Math,2021

5. Influence of texture shape and arrangement on nanofluid minimum quantity lubrication turning;Wang;Int J Adv Manuf Technol,2022

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