Botha, JDMDala, LSchaber, S2015-03-122015-03-122014-09Botha, J.D.M, Dala, L and Schaber, S. 2014. Optimisation of a novel trailing edge concept for a high lift device. 29th Congress of the International Council of the Aeronautical Sciences (ICAS), St Petersburg, Russia 7-12 September 2014, pp 1-10http://hdl.handle.net/10204/788929th Congress of the International Council of the Aeronautical Sciences (ICAS), St Petersburg, Russia 7-12 September 2014A novel concept (referred to as the flap extension) is implemented on the leading edge of the flap of a three element high lift device. The concept is optimised using two optimisation approaches based on Genetic Algorithm optimisations. A zero order approach which makes simplifying assumptions to achieve an optimised solution: and a direct approach which employs an optimisation in ANSYS DesignXplorer using RANS calculations. The concept was seen to increase lift locally at the flap. The solution to the zero order optimisation showed a decreased stall angle and decreased maximum lift coefficient against angle of attack due to early stall onset at the flap. The DesignXplorer optimised solution matched that of the baseline solution very closely. Computational Aeroacoustic simulations were performed using the DES (Detached Eddy Simulation) model, in 2D, on the baseline and DesignXplorer optimised solution. The DesignXplorer optimised concept steadied the shear layer that bounds the spoiler cove thus reducing noise from this vicinity by 10dB at frequencies over 7 000Hz.enAerodynamic designHigh liftSingle slotted flapOptimisationAeroacousticsConference PresentationBotha, J., Dala, L., & Schaber, S. (2014). Optimisation of a novel trailing edge concept for a high lift device. ICAS 2014. http://hdl.handle.net/10204/7889Botha, JDM, L Dala, and S Schaber. "Optimisation of a novel trailing edge concept for a high lift device." (2014): http://hdl.handle.net/10204/7889Botha J, Dala L, Schaber S, Optimisation of a novel trailing edge concept for a high lift device; ICAS 2014; 2014. http://hdl.handle.net/10204/7889 .TY - Conference Presentation AU - Botha, JDM AU - Dala, L AU - Schaber, S AB - A novel concept (referred to as the flap extension) is implemented on the leading edge of the flap of a three element high lift device. The concept is optimised using two optimisation approaches based on Genetic Algorithm optimisations. A zero order approach which makes simplifying assumptions to achieve an optimised solution: and a direct approach which employs an optimisation in ANSYS DesignXplorer using RANS calculations. The concept was seen to increase lift locally at the flap. The solution to the zero order optimisation showed a decreased stall angle and decreased maximum lift coefficient against angle of attack due to early stall onset at the flap. The DesignXplorer optimised solution matched that of the baseline solution very closely. Computational Aeroacoustic simulations were performed using the DES (Detached Eddy Simulation) model, in 2D, on the baseline and DesignXplorer optimised solution. The DesignXplorer optimised concept steadied the shear layer that bounds the spoiler cove thus reducing noise from this vicinity by 10dB at frequencies over 7 000Hz. DA - 2014-09 DB - ResearchSpace DP - CSIR KW - Aerodynamic design KW - High lift KW - Single slotted flap KW - Optimisation KW - Aeroacoustics LK - https://researchspace.csir.co.za PY - 2014 T1 - Optimisation of a novel trailing edge concept for a high lift device TI - Optimisation of a novel trailing edge concept for a high lift device UR - http://hdl.handle.net/10204/7889 ER -