Zobrazeno 1 - 10
of 14
pro vyhledávání: '"Bo Terp Paulsen"'
Publikováno v:
Coastal Engineering. 143:76-95
Physical model tests were analyzed with the objective to establish a formulae for the probability of wave slamming on offshore wind turbine foundations and the associated slamming force. Furthermore, the effect of wave slamming is analyzed for a mono
Publikováno v:
Ocean Engineering. 147:647-658
Numerical models are becoming a valid supplement, and even a substitute, to physical model testing for the investigation of fluid-structure interaction due to improved methods and a continuous increase in computational power. This research presents a
Autor:
Bo Terp Paulsen, Irene Rivera-Arreba, Niek Bruinsma, Niels Gjøl Jacobsen, Axelle Viré, Erin Elizabeth Bachynski
Publikováno v:
Journal of Offshore Mechanics and Arctic Engineering. 141
Floating offshore wind platforms may be subjected to severe sea states, which include both steep and long waves. The hydrodynamic models used in the offshore industry are typically based on potential-flow theory and/or Morison’s equation. These met
Autor:
Philipp Gujer, Christof Wehmeyer, Erik Jan de Ridder, Tim Bunnik, Johan M. Peeringa, Bo Terp Paulsen, Erik Asp
Publikováno v:
Volume 10: Ocean Renewable Energy.
The objective of the Joint Industry Project Wave impact on Fixed foundations (WiFi JIP) was to increase the understanding of breaking and steep wave impact’s on fixed foundations of offshore wind turbines (OWT). The project was set-up as a Joint In
Publikováno v:
Journal of Fluid Mechanics. 755:1-34
Forcing by steep regular water waves on a vertical circular cylinder at finite depth was investigated numerically by solving the two-phase incompressible Navier–Stokes equations. Consistently with potential flow theory, boundary layer effects were
Publikováno v:
Coastal Engineering. 86:57-76
A fully nonlinear domain decomposed solver is proposed for efficient computations of wave loads on surface piercing structures in the time domain. A fully nonlinear potential flow solver was combined with a fully nonlinear Navier–Stokes/VOF solver
Publikováno v:
Tribology Transactions. 54:282-299
Modern turbo-machinery applications, high-speed machine tools, and laboratory equipment require ever-growing rotational speeds and high degree of precision and reliability. Gas journal bearings are often employed because they meet the demands of high
Publikováno v:
Volume 1: Offshore Technology; Offshore Geotechnics.
Aibel is developing an offshore power converter platform concept. Its foundation is gravity-based and consists of four columns interconnected by a ring-shaped pontoon at the seabed. The platform is intended for water depths in the order of 20 to 40m.
Publikováno v:
Volume 4: Offshore Geotechnics; Ronald W. Yeung Honoring Symposium on Offshore and Ship Hydrodynamics.
The higher-harmonic response of a vertical cantilever beam to fully nonlinear wave loads is investigated. Such responses are also known as ‘ringing’ and is of practical interest in the context of offshore wind turbine foundations which, in contra
Publikováno v:
Technical University of Denmark Orbit
Paulsen, B T, Bredmose, H & Bingham, H B 2012, Accurate computation of wave loads on a bottom fixed circular cylinder . in International Workshop on Water Waves and Floating Bodies . IWWWFB27, Copenhagen, Denmark, 22/04/2012 .
Paulsen, B T, Bredmose, H & Bingham, H B 2012, Accurate computation of wave loads on a bottom fixed circular cylinder . in International Workshop on Water Waves and Floating Bodies . IWWWFB27, Copenhagen, Denmark, 22/04/2012 .
This abstract describes recent progress in the development of a fast and accurate tool for computations of wave-structure interactions of realistic sea states that include breaking waves. The practical motivation is extreme wave loads on offshore win
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=dedup_wf_001::2eb97c6c505a1d63aa7e09b8dcc007fe
https://orbit.dtu.dk/en/publications/4c2b3d7f-8c22-4818-8ccc-09da5cc12efb
https://orbit.dtu.dk/en/publications/4c2b3d7f-8c22-4818-8ccc-09da5cc12efb