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Calculation of Heat Transfer and Drag Coefficients for Aircraft Geometric Models

Victor V. Kuzenov, Sergei V. Ryzhkov, A. Yu. Varaksin

2022Applied Sciences37 citationsDOIOpen Access PDF

Abstract

A numerical model to calculate the heat transfer and resistance coefficients near the bodies of complex geometric shapes moving at high velocity is formulated. The processes of heat and mass transfer and flow around aircraft elements are considered. An algorithm for calculating heat fluxes and the heat transfer coefficient is proposed. The developed numerical technique can give an idea of the essential features of the flow, heat transfer at the end keels of the wings, and integral layouts of high-speed aircraft. An approximate mathematical model for calculating the heat transfer processes and resistance coefficients near the bodies of complex geometric shapes moving at high speed in the Earth’s atmosphere is formulated. The calculated results for convective heat transfer and friction coefficients for the X-33 and X-43 vehicles are obtained.

Topics & Concepts

Heat transfer coefficientHeat transferMechanicsConvective heat transferDragChurchill–Bernstein equationDrag coefficientMathematicsPhysicsTurbulenceNusselt numberReynolds numberRadiative Heat Transfer StudiesComputational Fluid Dynamics and AerodynamicsGas Dynamics and Kinetic Theory
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