Calculation of the viscous-interaction effects in the Euler/boundary-layer methods

Abstract: A simple approach is proposed to incorporate the effect of viscous interaction in the calculation of aerodynamic heating of three-dimensional geometries by Euler/boundary-layer methods. In the present study, aerodynamic heating is calculated from the solution of a set of approximate convective-heating equations along the streamlines. These heating equations are derived using axisymmetric analogue. To determine streamline paths and flow properties along them, Euler equations are solved around the three-dimensio… Show more

“…Although research concerning grid fins to date has primarily focused on the aerodynamic characteristics, as flight speed increases, it is becoming increasingly important to consider the aerodynamics heating problem in the design of grid fins. [21][22][23] However, it is considerably difficult to develop an appropriate numerical model capable of generating a high-quality grid, especially considering that previous research has already implemented a variety of grids, such as Cartesian grids, unstructured grids, and hybrid grids.…”

Numerical simulation of aerodynamic characteristics and heating for grid fin missiles

“…Although research concerning grid fins to date has primarily focused on the aerodynamic characteristics, as flight speed increases, it is becoming increasingly important to consider the aerodynamics heating problem in the design of grid fins. [21][22][23] However, it is considerably difficult to develop an appropriate numerical model capable of generating a high-quality grid, especially considering that previous research has already implemented a variety of grids, such as Cartesian grids, unstructured grids, and hybrid grids.…”

Numerical simulation of aerodynamic characteristics and heating for grid fin missiles