eBiltegia

    • Euskara
    • Español
    • English
  • Contact Us
  • English 
    • Euskara
    • Español
    • English
  • About eBiltegia  
    • What is eBiltegia? 
    •   About eBiltegia
    •   Publish your research in open access
    • Open Access at MU 
    •   What is Open Science?
    •   Open Access institutional policy
    •   The Library compiles and disseminates your publications
  • Login
View Item 
  •   eBiltegia MONDRAGON UNIBERTSITATEA
  • Scientific production - Conferences
  • Conferences - Engineering
  • View Item
  •   eBiltegia MONDRAGON UNIBERTSITATEA
  • Scientific production - Conferences
  • Conferences - Engineering
  • View Item
JavaScript is disabled for your browser. Some features of this site may not work without it.
Thumbnail
View/Open
Bemrosetta An open-source hydrodynamic coefficients converter and viewer integrated with Nemoh and Foamm.pdf (2.837Mb)
Full record
Impact
Google Scholar
Microsoft Academic
Share
Save the reference
Mendely

untranslated

Mets

Mods

Rdf

Marc
Title
Bemrosetta: An open-source hydrodynamic coefficients converter and viewer integrated with Nemoh and Foamm
Author
Penalba, Markel ccMondragon Unibertsitatea
Author (from another institution)
Zabala, Iñaki
Peña-Sánchez, Yerai
Kelly, Thomas
Henriques, João C.C.
Faedo, Nicolás
Ringwood, John V.
Blanco Ilzarbe, Jesús M.
Research Group
Mecánica de fluidos
Published Date
2021
Publisher
EWTEC
Keywords
BEM
Nemoh
FOAMM
Capytaine ... [+]
BEM
Nemoh
FOAMM
Capytaine
HAMS [-]
Abstract
Boundary Element Method (BEM) solvers are extensively used to obtain the hydrodynamic coefficients required to model hydrodynamic forces in oating marine structures. BEM solvers require the discretiza ... [+]
Boundary Element Method (BEM) solvers are extensively used to obtain the hydrodynamic coefficients required to model hydrodynamic forces in oating marine structures. BEM solvers require the discretization of the submerged device surface as a mesh to compute the hydro-dynamic coefficients as radiation damping and added mass, response amplitude operators and linear and second-order exciting forces. Each of these solvers need particular input files and mesh formats, and save the results in specific file formats. Typically, the input and output files are incompatible between different solvers. Researchers handle this problem by converting model results through homemade spreadsheets or macros made in scripting languages. BEMRosetta was created to allow loading and saving the input files, mesh geometries and the hydrodynamic coefficients, in different formats. Furthermore, it also includes a mesh viewer. Additionally, BEM-Rosetta can calculate di erent parameters from the mesh and the hydrodynamic coefficients. Through its integration with the Finite-Order hydrodynamic Approximation by Moment-Matching (FOAMM) toolbox, BEMRossetta allows the state- space model of the radiation convolution term for the desired degrees of freedom be obtained. [-]
URI
https://hdl.handle.net/20.500.11984/5845
ISSN
2706-6940
Published at
Proceedings of the European Wave and Tidal Energy Conference 
Document type
Conference paper
Version
Postprint – Accepted Manuscript
Rights
© 2021 EWTEC
Access
Open Access
Collections
  • Conferences - Engineering [244]

Browse

All of eBiltegiaCommunities & CollectionsBy Issue DateAuthorsTitlesSubjectsResearch groupsPublished atThis CollectionBy Issue DateAuthorsTitlesSubjectsResearch groupsPublished at

My Account

LoginRegister

Statistics

View Usage Statistics

Harvested by:

OpenAIREBASE

Validated by:

OpenAIRERebiun
MONDRAGON UNIBERTSITATEA | Library
Contact Us | Send Feedback
DSpace
 

 

Harvested by:

OpenAIREBASE

Validated by:

OpenAIRERebiun
MONDRAGON UNIBERTSITATEA | Library
Contact Us | Send Feedback
DSpace