The Co-Flow Jet (CFJ) technique is an effective way to enhance the aerodynamics of airfoils. The present study is to comprehensively investigate the effects of CFJ key parameters, viz., the jet momentum coefficient, the injection slot location, the injection slot size, the suction slot location, the suction slot size, and the suction slot angle, on the airfoil aerodynamic characteristics based on the numerical method of Reynolds Averaged Navier-Stokes (RANS) equations coupled with the Spalart-Allmaras (S-A) turbulence model. The numerical method is validated by a CFJ6415 airfoil case, and a relatively good agreement with the experiment is achieved. The results show that a larger jet momentum coefficient is more conducive to lift enhancement...
The present work investigates the effects of multi-suction jets on the NACA 0012 airfoil's aerodynam...
Improved Blowing and Suction System (IBSS) is a novel concept that can be effectively implemented in...
The use of Active Flow Control (AFC) technologies to modify the forces acting on streamlined bodies ...
The work reflected in this thesis includes a detailed study of co-flow jet (CFJ) technologies as the...
In this study, a dynamic stall control strategy, called the co-flow jet (CFJ), is applied to the rot...
AbstractA co-flow jet active flow control method is applied to the wind turbine S809 airfoil, and nu...
This study analyzes co-flow as active flow control in the object of the airfoil. NACA 0015 is the ai...
A co-flow jet (CFJ), an active flow control method combining blowing and suction control, can effect...
Making full use of wind energy can effectively alleviate the global energy shortage and environment ...
This thesis investigates the performance of co-flow jet (CFJ) flow control and its applications usin...
The computational study discusses the application of the co-flow jet technique as a fluid flow contr...
The objective of this thesis is to numerically study the power minimization for subsonic Co-Flow Jet...
Rotor airfoil design involves multi-point and multi-objective complex constraints. How to significan...
The objective of this thesis is to investigate The objective of this thesis is to investigate the do...
Dynamic stall control of a S809 airfoil is numerically investigated by implementing a co-flow jet (C...
The present work investigates the effects of multi-suction jets on the NACA 0012 airfoil's aerodynam...
Improved Blowing and Suction System (IBSS) is a novel concept that can be effectively implemented in...
The use of Active Flow Control (AFC) technologies to modify the forces acting on streamlined bodies ...
The work reflected in this thesis includes a detailed study of co-flow jet (CFJ) technologies as the...
In this study, a dynamic stall control strategy, called the co-flow jet (CFJ), is applied to the rot...
AbstractA co-flow jet active flow control method is applied to the wind turbine S809 airfoil, and nu...
This study analyzes co-flow as active flow control in the object of the airfoil. NACA 0015 is the ai...
A co-flow jet (CFJ), an active flow control method combining blowing and suction control, can effect...
Making full use of wind energy can effectively alleviate the global energy shortage and environment ...
This thesis investigates the performance of co-flow jet (CFJ) flow control and its applications usin...
The computational study discusses the application of the co-flow jet technique as a fluid flow contr...
The objective of this thesis is to numerically study the power minimization for subsonic Co-Flow Jet...
Rotor airfoil design involves multi-point and multi-objective complex constraints. How to significan...
The objective of this thesis is to investigate The objective of this thesis is to investigate the do...
Dynamic stall control of a S809 airfoil is numerically investigated by implementing a co-flow jet (C...
The present work investigates the effects of multi-suction jets on the NACA 0012 airfoil's aerodynam...
Improved Blowing and Suction System (IBSS) is a novel concept that can be effectively implemented in...
The use of Active Flow Control (AFC) technologies to modify the forces acting on streamlined bodies ...