Figure 1.
Physical model and coordinate system.
(a) Fixed plate in the quiescent fluid [7]; (b) Fixed plate in the moving fluid (present).
Figure 2.
Momentum and thermal slip effect on dimensionless velocity for mono-diffusive and double diffusive water-based nanofluids.
Figure 3.
Momentum and thermal slip effect on dimensionless temperature for mono-diffusive and double diffusive water-based nanofluids.
Figure 4.
Momentum slip, thermal slip and solute Lewis number effect on dimensionless solute concentration for double diffusive water-based nanofluids.
Figure 5.
Momentum slip, thermal slip and solute nanoparticle Lewis number effect on dimensionless nanoparticles concentration for double diffusive water-based nanofluids.
Figure 6.
Momentum slip, thermal slip, regular double diffusive buoyancy and modified Dufour number effect on dimensionless Nesselt number.
Figure 7.
Momentum slip, thermal slip, regular double diffusive buoyancy and modified Dufour number effect on dimensionless Sherwood number.
Figure 8.
Momentum slip, thermal slip, regular double diffusive buoyancy and modified Dufour number effect on dimensionless nanoparticle Sherwood number.
Table 1.
Values of for various Pr when
(no slip) and
(isothermal plate).