This paper aims to present a numerical method based on computational fluid dynamics that allows investigating the buffet envelope of reference equivalent wings at the equivalent cost of several two-dimensional, unsteady, turbulent flow analyses. The method bridges the gap between semi-empirical relations, generally dominant in the early phases of aircraft design, and three-dimensional turbulent flow analyses, characterised by high costs in analysis setups and prohibitive computing times.
Accuracy in the predictions and efficiency in the solution are two key aspects. Accuracy is maintained by solving a specialised form of the Reynolds-averaged Navier–Stokes equations valid for infinite-swept wing flows. Efficiency of the solution is reached by a novel implementation of the flow solver, as well as by combining solutions of different fidelity spatially.
Discovering the buffet envelope of a set of reference equivalent wings is accompanied with an estimate of the uncertainties in the numerical predictions. Just over 2,000 processor hours are needed if it is admissible to deal with an uncertainty of ±1.0° in the angle of attack at which buffet onset/offset occurs. Halving the uncertainty requires significantly more computing resources, close to a factor 200 compared with the larger uncertainty case.
To permit the use of the proposed method as a practical design tool in the conceptual/preliminary aircraft design phases, the method offers the designer with the ability to gauge the sensitivity of buffet on primary design variables, such as wing sweep angle and chord to thickness ratio.
The infinite-swept wing, unsteady Reynolds-averaged Navier–Stokes equations have been successfully applied, for the first time, to identify buffeting conditions. This demonstrates the adequateness of the proposed method in the conceptual/preliminary aircraft design phases.
Fast identification of transonic buffet envelope using computational fluid dynamics
Aircraft Engineering and Aerospace Technology ; 91 , 2 ; 309-316
2018-11-02
8 pages
Article (Journal)
Electronic Resource
English
FLUID DYNAMICS - Numerical Study of Transonic Buffet on a Supercritical Airfoil
Online Contents | 2006
|FLUID DYNAMICS - Numerical Simulation of Transonic Buffet over a Supercritical Airfoil
Online Contents | 2005
|GENERIC CONTROL OF TRANSONIC BUFFET
TIBKAT | 2020
|Generic Control of Transonic Buffet
AIAA | 2020
|