Print Email Facebook Twitter Validation of a simple aerodynamic model capable to predict the interaction effects occuring between two generic wind propulsion systems Title Validation of a simple aerodynamic model capable to predict the interaction effects occuring between two generic wind propulsion systems Author Bordogna, G. (TU Delft Ship Hydromechanics and Structures) Keuning, J.A. (TU Delft Ship Hydromechanics and Structures) Huijsmans, R.H.M. (TU Delft Ship Hydromechanics and Structures) Fossati, Fabio Vittorio (Politecnico di Milano) Belloli, Marco (Politecnico di Milano) Contributor Huijsmans, R.H.M. (editor) Date 2016 Abstract In recent years wind-assisted propulsion for commercial ships has gained an increasing interest as valuable alternative to reduce fuel pollutant emissions. However, the development of feasible and commercially viable wind propulsion systems to partially (or fully) propel a ship is nowadays hindered by the difficulties of modelling the complicated aerodynamic and hydrodynamic aspects involved. From an aerodynamic point of view, it appears that one of the main challenges of predicting the performance of a wind-assisted ship, is to properly evaluate the interaction effects that occur between the various wind propulsion systems mounted on the deck of the ship. This research deals with the validation of a simple and quick-to-use aerodynamic model that is capable of evaluating such effects, i.e. upwash, downwash and wake, occurring between two generic propulsion systems placed at any given relative position on the ship's deck. The wind propulsion systems might assume any given angle of attack; the flow can be attached as well as separated. Such aerodynamic model, that was first presented in [1], consists of the horseshoe vortex method modified with semi-empirical formulas to take into account the effects of viscosity. First, the results provided by the aerodynamic model were compared with results obtained by using more sophisticated tools, i.e. a CFD body force model and RANS CFD. Then, experimental validation was carried out by means of dedicated wind-tunnel tests. It can be concluded that, despite the simplicity of the aerodynamic model employed, it proved to give reasonable results when compared to more sophisticated tools and to experimental data. REFERENCES [1] K. Roncin and J.M. Kobus, “Dynamic simulation of two sailing boats in match racing”, Sports Engineering , Vol. 7, pp. 139-152, (2004). Subject Ship hydrodynamics resistancepropulsionpoweringseakeepingmanoeuvrabilityslammingsloshingimpactgreen waterComputational Fluid Dynamics To reference this document use: http://resolver.tudelft.nl/uuid:2a87ac4a-a939-43d9-bba3-21a0a882392e Source Proceedings of the12th International Conference on Hydrodynamics-ICHD 2016 Event ICHD 2016: 12th International Conference on Hydrodynamics, 2016-09-18 → 2016-09-23, Egmond aan Zee, Netherlands Part of collection Institutional Repository Document type conference paper Rights © 2016 G. Bordogna, J.A. Keuning, R.H.M. Huijsmans, Fabio Vittorio Fossati, Marco Belloli Files PDF 16.pdf 706.86 KB Close viewer /islandora/object/uuid:2a87ac4a-a939-43d9-bba3-21a0a882392e/datastream/OBJ/view