Effects of Cu and Ag nano-particles on flow and heat transfer from permeable surfaces

“…Hsiao [14] considered MHD 104 mixed convection flow over a stretching sheet with partial slip 105 condition. Hajmohammadi et al [15] examined influence of Cu 106 and Ag nano-particles in the flow and heat transfer by permeable 107 surfaces. 108 The investigation of heat transfer in flow over a stretching sur-109 face has powerful effect in the industrial and technological pro-110 cesses including cooling of metallic plates, paper production, 111 glass fibers, etc.…”

Carbon nanotubes effects in the stagnation point flow towards a nonlinear stretching sheet with variable thickness

“…Hsiao [14] considered MHD 104 mixed convection flow over a stretching sheet with partial slip 105 condition. Hajmohammadi et al [15] examined influence of Cu 106 and Ag nano-particles in the flow and heat transfer by permeable 107 surfaces. 108 The investigation of heat transfer in flow over a stretching sur-109 face has powerful effect in the industrial and technological pro-110 cesses including cooling of metallic plates, paper production, 111 glass fibers, etc.…”

Carbon nanotubes effects in the stagnation point flow towards a nonlinear stretching sheet with variable thickness

“…The energy and cost of a plate and fin heat exchanger 93 have been optimized by utilizing a multi-objective genetic algo-94 rithm in order to obtain optimal geometric parameters of that type 95 of heat exchanger system leading to minimum total annual cost 96 and maximum total rate of heat transfer [6]. 97 Rocha et al [7] showed how to optimally insert a high conduc-98 tivity tree-shaped structure into a round heat-generating body to 99 cool it best. Distributing the cooling stream as a tree-shaped net-100 work through a volume that generates heat at every point within 101 the body can cool that volume well [8].…”

Effect of operating parameters on the transient behavior of gravity-assisted heat-pipe using radio-chemically prepared Al 2 O 3 nano-fluid

“…MHD stagnation point flow of a nanofluid toward a stretching surface by considering radiation effect was illustrated by Akbar et al [22]. Hajmohammadi et al [23] discussed the flow and heat transfer characteristics of Cu and Ag nano particles over permeable surfaces. Rana and Bhargava [24] used finite element and finite difference methods for nonlinear stretching sheet problem.…”

MHD flow of dusty nanofluid over a stretching surface with volume fraction of dust particles