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Pressure predictions during water entry of a 2D rigid cylinder using SPH method

Kameswara Vepa (UGent) , Diederik Van Nuffel (UGent) and Wim Van Paepegem (UGent)
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Abstract
Water entry of cylindrical shaped structures is important in the context of loads due to wave impact/slamming on floating buoys used for wave energy conversion [1]. Wave impact or slamming is a phenomenon characterized by high local pressures (10 bar or more) for very short durations (in the order of milliseconds). Slamming loads cause severe damage to the structure [2]. This forms the typical case of fluid-structure interaction between the floating buoys and the water surrounding the buoys [3]. Different numerical approximation methods are available for simulating fluid structure interaction problems. Traditional mesh techniques use nodes and elements for approximating the continuum equations whereas particle methods like smoothed particle hydrodynamics (SPH) approximate the continuum equations using the kernel approximation technique and hence can be used for a wide range of fluid dynamics problems [4].

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Please use this url to cite or link to this publication:

Chicago
Vepa, Kameswara, Diederik Van Nuffel, and Wim Van Paepegem. 2011. “Pressure Predictions During Water Entry of a 2D Rigid Cylinder Using SPH Method.” In 26th International Workshop on Water Waves and Floating Bodies, Proceedings, ed. SA Mavrakos and IK Chatjigeorgiou, 197–200.
APA
Vepa, Kameswara, Van Nuffel, D., & Van Paepegem, W. (2011). Pressure predictions during water entry of a 2D rigid cylinder using SPH method. In S. Mavrakos & I. Chatjigeorgiou (Eds.), 26th international workshop on water waves and floating bodies, Proceedings (pp. 197–200). Presented at the 26th International Workshop on Water Waves and Floating Bodies (IWWWFB - 2011).
Vancouver
1.
Vepa K, Van Nuffel D, Van Paepegem W. Pressure predictions during water entry of a 2D rigid cylinder using SPH method. In: Mavrakos S, Chatjigeorgiou I, editors. 26th international workshop on water waves and floating bodies, Proceedings. 2011. p. 197–200.
MLA
Vepa, Kameswara, Diederik Van Nuffel, and Wim Van Paepegem. “Pressure Predictions During Water Entry of a 2D Rigid Cylinder Using SPH Method.” 26th International Workshop on Water Waves and Floating Bodies, Proceedings. Ed. SA Mavrakos & IK Chatjigeorgiou. 2011. 197–200. Print.
@inproceedings{2077947,
  abstract     = {Water entry of cylindrical shaped structures is important in the context of loads due to wave impact/slamming on floating buoys used for wave energy conversion [1]. Wave impact or slamming is a phenomenon characterized by high local pressures (10 bar or more) for very short durations (in the order of milliseconds). Slamming loads cause severe damage to the structure [2]. This forms the typical case of fluid-structure interaction between the floating buoys and the water surrounding the buoys [3]. Different numerical approximation methods are available for simulating fluid structure interaction problems. Traditional mesh techniques use nodes and elements for approximating the continuum equations whereas particle methods like smoothed particle hydrodynamics (SPH) approximate the continuum equations using the kernel approximation technique and hence can be used for a wide range of fluid dynamics problems [4].},
  articleno    = {iwwwfb26-49},
  author       = {Vepa, Kameswara and Van Nuffel, Diederik and Van Paepegem, Wim},
  booktitle    = {26th international workshop on water waves and floating bodies, Proceedings},
  editor       = {Mavrakos, SA and Chatjigeorgiou, IK},
  isbn         = {9789602546949},
  language     = {eng},
  location     = {Athens, Greece},
  pages        = {iwwwfb26-49:197--iwwwfb26-49:200},
  title        = {Pressure predictions during water entry of a 2D rigid cylinder using SPH method},
  year         = {2011},
}