Aeroelastic dynamic response of elastic aircraft with consideration of two-dimensional discrete gust excitation

Design loads generally require a one-dimensional discrete gust profile without consideration of the spanwise effect,and this profile cannot represent the true gust field exactly.For a high aspect ratio aircraft,two-dimensional gusts may cause critical load conditions,and approaches for calculating dynamic responses under two-dimensional discrete gust excitation are rarely presented.In this paper,a spanwise non-uniform vertical discrete gust field is established based on a onedimensional‘1-cos’gust profile in reference to a DARPA proposal,while frequency and hybrid approaches to the dynamic response analysis of flexible aircraft under this two-dimensional gust excitation are presented.Solution techniques have been applied to a high aspect ratio aircraft to assess the different response characteristics with a comparison between one-dimensional and two-dimensional discrete gust field conditions.The results show that the two-dimensional discrete gust model produces a higher bending moment than that of the one-dimensional condition.Therefore,the critical load conditions that are derived from the two-dimensional discrete gust for high aspect ratio aircraft should be seriously considered.According to the analysis,an active control scheme to alleviate the bending loads caused by the two-dimensional gust is designed,and alleviation effects in different gust conditions are compared.