Wilson F. N. Santos scite author profile

This work presents an analytical solution of the transient conjugated laminar forced convection problem of a slug flow in the thermal entrance region inside a parallel plate duct. A solution in series form is already known for this kind of problem. This solution leads to a complex eigenvalue problem with transcendental equations. The present solution obtained by using the Laplace transform completely eliminates this problem. The amplitudes and phase lags with respect to the inlet conditions are determined for the complex wall temperature, fluid bulk temperature, and wall heat flux from this solution. The results are plotted for comparison with the results obtained with the series solution.

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Leading-edge bluntness effects on aerodynamic heating and drag of power law body in low-density hypersonic flow

Santos¹

2005

J. Braz. Soc. Mech. Sci. & Eng.

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A numerical study is reported on power law shaped leading edges situated in a rarefied hypersonic flow. The sensitivity of the heat flux and drag coefficient to shape variations of such leading edges is calculated by using a Direct Simulation Monte Carlo method. Calculations show that the stagnation point heating on power law leading edges with finite radius of curvature follows the same relation for classical blunt body in continuum flow; it scales inversely with the square root of the curvature radius at the nose. Furthermore, for those leading edges with zero or infinity radii of curvature, the heat transfer behavior is in surprising agreement with that for classical blunt body far from the nose of the leading edge

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Aerothermodynamic Performance Analysis of Hypersonic Flow on Power Law Leading Edges

Santos

Lewis

2005

Journal of Spacecraft and Rockets

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Aerodynamic Heating Performance of Power Law Leading Edges in Rarefied Hypersonic Flow

Santos

Lewis

2003

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Wilson F. N. Santos

Power law shaped leading edges in rarefied hypersonic flow

Solution for Transient Conjugated Forced Convection in the Thermal Entrance Region of a Duct With Periodically Varying Inlet Temperature

Leading-edge bluntness effects on aerodynamic heating and drag of power law body in low-density hypersonic flow

Aerothermodynamic Performance Analysis of Hypersonic Flow on Power Law Leading Edges

Aerodynamic Heating Performance of Power Law Leading Edges in Rarefied Hypersonic Flow

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