Publications

Here you find a list of our most recent publications that are related to QBlade. All of this work has been published by one or more members of our team.

2022

S. Perez-Becker, J. Saverin, R. Behrens de Luna, C. Combreau, M.-L. Ducasse, D. Marten, A. Bianchini, 2022, “D2.2. Validation Report of QBlade-Ocean“, FLOATECH Deliverable, Technical Report

R. Bergua, A. Robertson, J. Jonkman, E. Branlard, … , D. Marten et al., 2022, “OC6 Project Phase III: Validation of the Aerodynamic Loading on a Wind Turbine Rotor Undergoing Large Motion Caused by a Floating Support Structure“, Wind Energ. Sci. Discuss. preprint – in review

R. Behrens de Luna, D. Marten, T. Barlas, S. G. Horcas, N. Ramos-García, A. Li and C. O. Paschereit, 2022, “Comparison of different fidelity aerodynamic solvers on the IEA 10 MW turbine including novel tip extension geometries“, J. Phys.: Conf. Ser. 2265 032002

J. Saverin, 2022, “D1.1. Hybrid EulerianLagrangian Aerodynamic Model“, FLOATECH Deliverable, Technical Report

J. Saverin, S. Perez-Becker, R. Behrens de Luna, D. Marten, J. C. Gilloteaux, R. Kurnia, 2022, “D1.2 Higher Order Hydroelastic Module“, FLOATECH Deliverable, Technical Report

 S. Perez-Becker, R. Behrens de Luna, 2022, “D2.1. AeroHydroElastic Model Definition in QBlade Ocean“, FLOATECH Deliverable, Technical Report

2021

S. Perez-Becker, D. Marten, C. O. Paschereit, 2021, “Active flap control with the trailing edge flap hinge moment as a sensor: using it to estimate local blade inflow conditions and to reduce extreme blade loads and deflections“, Wind Energ. Sci., 6, 791–814

S. Perez-Becker, D. Marten, C. N. Nayeri, C. O. Paschereit, 2021, “Implementation and Validation of an Advanced Wind Energy Controller in Aero-Servo-Elastic Simulations Using the Lifting Line Free Vortex Wake Model“, Energies, 14(3), 783

J. Saverin, 2021, “Multilevel vortex particle method for aerodynamic simulations“, PhD Thesis, TU Berlin

S. Perez-Becker, 2021, “Implementation and Validation of an Advanced Wind Energy Controller in Aero-Servo-Elastic Simulations Using the Lifting Line Free Vortex Wake Model“, PhD Thesis, TU Berlin

2020

D. Marten, 2020, “QBlade: A Modern Tool for the Aeroelastic Simulation of Wind Turbines“, PhD Thesis, TU Berlin
 

D. Marten, C. O. Paschereit, X. Huang, M. Meinke, W. Schröder, J. Müller, K. Oberleithner, 2020, “Predicting Wind Turbine Wake Breakdown Using a Free Vortex Wake Code“, AIAA Journal, Vol.58, No.11, November 2020

J. Saverin, D. Marten, C. N. Nayeri, C. O. Paschereit, 2020, “Advances Toward a Lightweight, Variable Fidelity Wake Simulation Tool“, J. Phys.: Conf. Ser. 1618 052070

S. Perez-Becker, F. Papi, J. Saverin, D. Marten, A. Bianchini, C, O. Paschereit, 2020, “Is the Blade Element Momentum theory overestimating wind turbine loads? – An aeroelastic comparison between OpenFAST’s AeroDyn and QBlade’s Lifting-Line Free Vortex Wake method“, Wind Energy Science, 5, 721–743

2019

J. Saverin, D. Marten, C. N. Nayeri, C. O. Paschereit, 2019, “Simulation of Multiple Turbine Aerodynamic Interaction using a Multilevel Method“, AIAA 2019-1574

M. Lennie, S. Dominin, D. Marten, G. Pechlivanoglou, C. O. Paschereit, 2019, “Development of Ice Throw Model for Wind Turbine Simulation Software QBlade“, AIAA 2019-1800

D. Marten, M. Lennie, G. Pechlivanoglou, C. O. Paschereit, A. Bianchini, G. Ferrara, L. Ferrari, 2019, “Benchmark of a Novel Aero-Elastic Simulation Code for Small Scale VAWT Analysis“, J. Eng. Gas Turbines Power. Apr 2019, 141(4): 041014