Title :
Three-dimensional grain design optimization of solid rocket motors
Author :
Yucel, Osman ; Acik, Sevda ; Toker, K. Atilgan ; Dursunkaya, Zafer ; Aksel, M. Haluk
Author_Institution :
Propulsion Syst. Design Dept., Roketsan Missiles Ind. Inc., Ankara, Turkey
Abstract :
This study investigates the ballistic design optimization of three-dimensional grains of solid rocket motors (SRMs). The geometric modeling and burnback analysis of grains are performed analytically by using basic geometries like cylinder, cone, prism, sphere, ellipsoid, and torus. For the internal ballistic analysis, a quasi-steady zero-dimensional flow solver is used. Three different optimization methods are considered: real-coded genetic algorithm (GA), binary genetic algorithm and complex method. The optimization methods are applied to the problems of finding the parameters of grain geometry satisfying an objective thrust versus time profile and maximizing the parameter of total impulse satisfying the constraints of chamber pressure and propellant mass.
Keywords :
design engineering; genetic algorithms; mechanical engineering computing; propellants; rocket engines; solid modelling; SRM; ballistic design optimization; binary genetic algorithm; chamber pressure; cone; cylinder; ellipsoid; prism; propellant mass; real-coded genetic algorithm; solid rocket motors; sphere; three-dimensional grain design optimization; torus; Genetic algorithms; Geometry; Optimization methods; Propulsion; Shape; Solid modeling; Solid rocket motor; binary genetic algorithm; burnback analysis; complex method; grain design; optimization; real coded genetic algorithm;
Conference_Titel :
Recent Advances in Space Technologies (RAST), 2015 7th International Conference on
Conference_Location :
Istanbul
Print_ISBN :
978-1-4673-7760-7
DOI :
10.1109/RAST.2015.7208391
