This study is aimed at modelling of the unsteady interacting boundary layer around wind turbine rotor blades. It is shown that nonconservative mechanisms are present in this system, affecting the definition and approximation of solutions to the problem. The objective is to overcome the inconsistency of classical (dissipative) schemes, and find a suitable approximation method. A path-consistent discontinuous Galerkin method is proposed to correctly model the dynamics of this system. In the future, the current implementation is to be joined with the existing part of the RotorFlow simulation code. This will enable the incorporation of unsteady aerodynamic phenomena in the early design stage of new and large wind turbine rotors, which is curren...
In the last two decades in fluid dynamics it has been reported an increasing attention toward higher...
In the present work the Local Discontinuous Galerkin (LDG) method with polynomial adaptivity is appl...
We present a computational fluid mechanics technique for modeling of wave-energy air turbines, speci...
Within this study an unsteady, two-dimensional interacting boundary layer method is presented for th...
ECN’s project Rotorflow is focused on the development of an aerodynamic module which is able to mode...
The simulation of wind turbine rotor aerodynamics can be improved upon by increasing the physics con...
This project focuses on extending the existing model for two-dimensional laminar boundary layers to ...
ECN’s project Rotorflow is focused on the development of an aerodynamic module which is able to mode...
This article describes the development of a Discontinuous Galerkin (DG) solver for 2D Euler flows wi...
Countries around the world are putting substantial effort into the development of wind energy techno...
To enhance solution accuracy with high-order methods, an implicit solver using the discontinuous Gal...
Due to the continuously increasing economical and environmental constraints, the standard industrial...
To enhance solution accuracy with high order methods, an implicit solver using the Discontinuous Gal...
peer reviewedHigh pressure turbine (HPT) blades are cooled partly by guiding air from the compressor...
This thesis details the development, verification and validation of an unsteady unstructured high or...
In the last two decades in fluid dynamics it has been reported an increasing attention toward higher...
In the present work the Local Discontinuous Galerkin (LDG) method with polynomial adaptivity is appl...
We present a computational fluid mechanics technique for modeling of wave-energy air turbines, speci...
Within this study an unsteady, two-dimensional interacting boundary layer method is presented for th...
ECN’s project Rotorflow is focused on the development of an aerodynamic module which is able to mode...
The simulation of wind turbine rotor aerodynamics can be improved upon by increasing the physics con...
This project focuses on extending the existing model for two-dimensional laminar boundary layers to ...
ECN’s project Rotorflow is focused on the development of an aerodynamic module which is able to mode...
This article describes the development of a Discontinuous Galerkin (DG) solver for 2D Euler flows wi...
Countries around the world are putting substantial effort into the development of wind energy techno...
To enhance solution accuracy with high-order methods, an implicit solver using the discontinuous Gal...
Due to the continuously increasing economical and environmental constraints, the standard industrial...
To enhance solution accuracy with high order methods, an implicit solver using the Discontinuous Gal...
peer reviewedHigh pressure turbine (HPT) blades are cooled partly by guiding air from the compressor...
This thesis details the development, verification and validation of an unsteady unstructured high or...
In the last two decades in fluid dynamics it has been reported an increasing attention toward higher...
In the present work the Local Discontinuous Galerkin (LDG) method with polynomial adaptivity is appl...
We present a computational fluid mechanics technique for modeling of wave-energy air turbines, speci...