Combined scalar tracking, computational fluid dynamics, and multi-objective genetic algorithm method to accelerate optimization of film cooling systems

Abstract: This paper presents a method to significantly accelerate optimization of film cooling systems. The method combines high-fidelity computational fluid dynamics with scalar tracking implemented, a proxy model (linear superposition model) initialized with the computational fluid dynamics solution, and a multi-objective evolutionary algorithm approach. The proposed method is structured as follows: the computational fluid dynamics solution is used to predict the (generally complex) flow domain for the film cooling s… Show more

“…The population evolves toward the optimal solution over repeating the algorithm until reaching the convergence criteria. 30 This part of the research is aimed at maximizing the 660-kw HAWT blade section aerodynamic performance in terms of lift-to-drag ratio L/D. Maximization of this parameter is of great importance because of its substantial impacts on wind Aerodynamic performance in terms of lift-to-drag ratio turbine efficiency.…”

Genetic algorithm optimization of a horizontal axis wind turbine blade section performance equipped with a single dielectric barrier discharge plasma actuator utilizing a direct regression model

“…The population evolves toward the optimal solution over repeating the algorithm until reaching the convergence criteria. 30 This part of the research is aimed at maximizing the 660-kw HAWT blade section aerodynamic performance in terms of lift-to-drag ratio L/D. Maximization of this parameter is of great importance because of its substantial impacts on wind Aerodynamic performance in terms of lift-to-drag ratio turbine efficiency.…”

Genetic algorithm optimization of a horizontal axis wind turbine blade section performance equipped with a single dielectric barrier discharge plasma actuator utilizing a direct regression model