Significance of non-uniform heat source/sink and cattaneo-christov model on hybrid nanofluid flow in a Darcy-forchheimer porous medium between two parallel rotating disks

The suspension of nanoparticles in fluid influences several properties the resulting fluid. Many production and manufacturing applications need knowledge heat transference mechanism nanofluids. current paper concerns influence non-uniform source/sink on (MoS 2 -Go/water flow) hybrid nanofluid flow (Go/water a Darcy - Forchheimer porous medium between two parallel infinite spinning disks occurrence radiation. Cattaneo-Christov model is utilized to analyze mass transmission. introduces time lag factors process transmission, known as thermal relaxation parameter solutal parameter, respectively. governing equations are numerically solved employing “bvp4c function MATLAB.” effect primary relevant parameters velocity, temperature, nanoparticle concentration, graphically depicted. Finally, table drawn show relationships various critical Nusselt number, Sherwood number. Results reveal that an increase reduces transmission rate at both upper lower plate. Furthermore, nanoparticle’s volume fraction causes enhancement conduction, which increases disk. results this study will be helpful many transportation processes, architectural design systems, enhanced oil recovery medical fields utilize nanofluids, so on.