Searched for: author:"Sanderse, B."
(1 - 15 of 15)
document
Schepers, J.G. (author), Sanderse, B. (author), Carrion, M. (author), Rodriguez, C. (author)
The project is carried out by TNO, CWI, DNV-GL and Suzlon within the framework of TKI Wind op Zee and with subsidy from the Ministry of Economic Affairs and Climate, through RVO. The main objective of this project is to develop calibrated aerodynamic models with a quantified level of uncertainty for optimal design of the next generation of...
report 2021
document
Kumar, P. (author), Sanderse, B. (author), Boorsma, K. (author), Caboni, M. (author)
A framework is presented for performing global sensitivity analysis of model parameters associated with the Blade Element Momentum (BEM) models. Sobol indices based on adaptive sparse polynomial expansions are used as a measure of global sensitivities. The sensitivity analysis workflow is developed using the uncertainty quantification toolbox...
conference paper 2020
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Caboni, M. (author), Carrion, M. (author), Rodriquez, C. (author), Schepers, J.G. (author), Boorsma, K. (author), Sanderse, B. (author)
The general goal of the work reported in this paper is to gain more confidence when performing blade element momentum (BEM)-based aeroelastic simulations, especially when setting-up sub-models and their parameters. Due to limited or no information, the set-up of these methods is often highly uncertain. To achieve this objective, we have...
conference paper 2020
document
Sanderse, B. (author), Energieonderzoek Centrum Nederland (author)
n.v.t.
conference paper 2012
document
Sanderse, B. (author), | Koren, B. (author)
"This paper investigates the temporal accuracy of the velocity and pressure when explicit Runge߿?Kutta methods are applied to the incompressible Navier߿?Stokes equations. It is shown that, at least up to and including fourth order, the velocity attains the classical order of accuracy without further constraints. However, in case of a time...
article 2012
document
Sanderse, B. (author)
Energy-conserving methods have recently gained popularity for the spatial discretization of the incompressible Navier–Stokes equations. In this paper implicit Runge–Kutta methods are investigated which keep this property when integrating in time. Firstly, a number of energy-conserving Runge–Kutta methods based on Gauss, Radau and Lobatto...
article 2012
document
Energieonderzoek Centrum Nederland (author), Eecen, P.J. (author), Sanderse, B. (author), Bijleveld, H. (author)
Detailed aerodynamic computations are used to improve rotor blade design and to simulate wind turbine interactions in wind farms.
article 2012
document
Sanderse, B. (author), Energieonderzoek Centrum Nederland (author)
conference paper 2011
document
Sanderse, B. (author), Energieonderzoek Centrum Nederland (author)
not available
conference paper 2011
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Sanderse, B. (author), Energieonderzoek Centrum Nederland (author)
This report describes the verification of a second order energy-conserving finite volume method, for the solution of the incompressible Navier-Stokes equations on staggered, cartesian grids. Four different test cases are examined, being channel flow, lid-driven cavity flow, backward-facing step flow and flow through an actuator disk. The...
report 2011
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Koren, B. (author), Sanderse, B. (author), van de. Pijl, S.P. (author)
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article 2011
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Energieonderzoek Centrum Nederland (author), Sanderse, B. (author), Koren, B. (author)
In this paper we investigate symmetry-preserving boundary conditions for a fourth-order symmetry-preserving finite volume method, to able to do accurate turbulence simulations for wind-turbine wake applications. It is found that the use of Dirichlet conditions limits the fourth-order method to (at most) second order. However, on properly chosen...
conference paper 2010
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Energieonderzoek Centrum Nederland (author), Sanderse, B. (author), Koren, B. (author)
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conference paper 2010
document
Energieonderzoek Centrum Nederland (author), Sanderse, B. (author)
nvt
conference paper 2009
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Energieonderzoek Centrum Nederland (author), Sanderse, B. (author)
This report reviews the available literature on the aerodynamics of wind turbines and wind farms. Firstly, two introductory chapters are devoted to the physics of the flow around a wind turbine and the existing engineering models for blade and wake aerodynamics. The focus of this work is however on the numerical modeling of wakes. The...
report 2009
Searched for: author:"Sanderse, B."
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