thesis, Université catholique de Louvain, Faculté des sciences appliiquées (2006) G. Daeninck, Developments in hybrid approaches: Vortex method with known separation location Vortex method with near-wall Eulerian solver RANS-LES coupling. Salihi, Vortex methods with spatially varying cores. (Cambridge University Press, Cambridge, 2000) Cottet, P. Koumoutsakos, Vortex Methods: Theory and Practice. Roger Cocle, Gr Winckelmans, Go Daeninck, Combining the vortex-in-cell and parallel fast multipole methods for efficient domain decomposition simulations. Master’s thesis, University of Victoria (2011) S. Cline, Potential flow modelling of wind turbines. 27(3), 428–442 (1978)Ĭhristiansen, Numerical simulation of hydrodynamics by the method of point vortices. Chorin, Vortex sheet approximation of boundary-layers. Chattot, Design and analysis of wind turbines using helicoidal vortex model. Chattot, Optimization of propellers using helicoidal vortex model. Kern, Large eddy simulation of wind turbine wakes. Larsen, Aeroelastic large eddy simulations using vortex methods: unfrozen turbulent and sheared inflow. Brandenborg Sørensen, N. Troldborg, Validation of vortex code viscous models using lidar wake measurements and CFD, in Proceedings of EWEA - The European Wind Energy Association (2014)Į. Machefaux, Investigation of a new model accounting for rotors of finite tip-speed ratio in yaw or tilt. 7(4), 311–320 (2013)Į. Branlard, M. Gaunaa, Impact of a wind turbine on turbulence: un-freezing the turbulence by means of a simple vortex particle approach (2016)Į. Gaunaa, Vortex methods to answer the need for improved understanding and modelling of tip-loss factors. thesis, Technical University of Denmark (DTU), Wind Energy Department (2015)Į. 55–76Į. Branlard, Analysis of wind turbine aerodynamics and aeroelasticity using vortex-based methods. (American Mathematical Society, 1962), pp. G. Birkhoff, Helmholtz and taylor instability, in Proceedings of Symposia in Applied Mathematics. (Pearson Prentice Hall, Upper Saddle River, 2009) Cummings, Aerodynamics for engineers, 5th edn. thesis, California Institute of technology (2004) Barba, Vortex Method for computing high-Reynolds number flows: Increased accuracy with a fully mesh-less formulation. This process is experimental and the keywords may be updated as the learning algorithm improves. These keywords were added by machine and not by the authors. More details about vortex methods are found in the book of Cottet and Koumoustakos , Katz and Plotkin and Lewis . Wind energy applications of vortex methods by the author are discussed in Part V. The last part provides references to existing vortex codes and examples of applications in the field of wind energy. Specific details for each of these aspects are given in Chap. The fourth part presents different aspects according to which vortex methods can be classified. The third part attempts to list the major historical achievements in vortex methods. The second part of the chapter provides a list of pros and cons of vortex methods. The chapter begins by briefly introducing vortex methods. The current chapter presents some general considerations related to vortex methods and provides key references on the topic.
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