Smart Morphing and Sensing for Aeronautical Configurations
portes grátis
Smart Morphing and Sensing for Aeronautical Configurations
Prototypes, Experimental and Numerical Findings from the H2020 N degrees 723402 SMS EU Project
Flaszynski, Pawel; Tzabiras, George; Auteri, Franco; Braza, Marianna; Rouchon, Jean-Francois
Springer International Publishing AG
02/2023
275
Dura
Inglês
9783031225796
15 a 20 dias
Descrição não disponível.
Prototypes and electroactive actuators design.- Subsonic regime sRS wing.- Transonic regime tRS wing.- Sensing.- Control law definition.- Experimental study of the aerodynamic performance increase Subsonic regime.- Transonic regime.- Prototype and actuator design.- Sensing multipoint system through Bragg grating.- Control law definition.- Experimental study - characterization of the LS in take-off conditions.- Advanced CFD.- Structural mechanics involving electroactive properties.- Numerical results on the sRS prototype: take-off conditions.- Numerical results on the tRS prototype: cruise conditions.- Numerical results on the LS prototype: take-off and landing.- Sensitivity analysis through adjoined-based MDO.- Numerical results on the whole aircraft (morphing A320).- Synthesis on the numerical simulations major outcomes.- sRS control for aerodynamic performance increase.- tRS final experimental evaluation in cruise.- LS final experimental evaluation in take-off and landing.- Synthesison the final demonstrators.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Morphing Wings;Smart Wing Design;Intelligent Controller Design;Intelligent Actuators;Electroactive Materials;Fluid-Structure Interaction;High-Fidelity Computational Fluid Dynamics-Structural Mechanics;Time Resolved Particle Image Velocimetry;Advanced Multipoint Sensing;Feedback Control;Advanced CSM with Electroactive Properties;Bioinspired Aircraft Wings;Rigid Aircraft Wings;Flexible Wing Models
Prototypes and electroactive actuators design.- Subsonic regime sRS wing.- Transonic regime tRS wing.- Sensing.- Control law definition.- Experimental study of the aerodynamic performance increase Subsonic regime.- Transonic regime.- Prototype and actuator design.- Sensing multipoint system through Bragg grating.- Control law definition.- Experimental study - characterization of the LS in take-off conditions.- Advanced CFD.- Structural mechanics involving electroactive properties.- Numerical results on the sRS prototype: take-off conditions.- Numerical results on the tRS prototype: cruise conditions.- Numerical results on the LS prototype: take-off and landing.- Sensitivity analysis through adjoined-based MDO.- Numerical results on the whole aircraft (morphing A320).- Synthesis on the numerical simulations major outcomes.- sRS control for aerodynamic performance increase.- tRS final experimental evaluation in cruise.- LS final experimental evaluation in take-off and landing.- Synthesison the final demonstrators.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Morphing Wings;Smart Wing Design;Intelligent Controller Design;Intelligent Actuators;Electroactive Materials;Fluid-Structure Interaction;High-Fidelity Computational Fluid Dynamics-Structural Mechanics;Time Resolved Particle Image Velocimetry;Advanced Multipoint Sensing;Feedback Control;Advanced CSM with Electroactive Properties;Bioinspired Aircraft Wings;Rigid Aircraft Wings;Flexible Wing Models
