Numerical simulation of MHD stagnation point flow towards a heated axisymmetric surface

Engineering

• Applied Magnetic Field 100%
• Axisymmetric 100%
• Boundary Condition 50%
• Boundary Layer Thickness 50%
• Dimensionless Form 50%
• Flow Distribution 50%
• Good Agreement 50%
• Heat Transfer Rate 50%
• Magnetic Field 50%
• Magnetohydrodynamic Generator 100%
• Prandtl Number 50%
• Previously Published Work 50%
• Similarity Transformation 50%
• Stagnation Point Flow 100%
• Thermal Boundary Layer 100%
• Thermal Field 50%
• Wall Shear Stress 50%

Mathematics

• Boundary Condition 50%
• Boundary Layer 100%
• Dimensionless Form 50%
• Flow Field 50%
• Good Agreement 50%
• Heat Transfer Rate 50%
• Layer Thickness 50%
• Magnetic Field 50%
• Magnetic Parameter 50%
• nonlinear differential equation 50%
• Prandtl Number 50%
• Similarity Transformation 50%
• Stagnation Point Flow 100%
• Thermal Boundary 100%
• Thermal Field 50%

Chemical Engineering

• Prandtl Number 100%