Parameters affecting the performance of wetting and drying in a two-dimensional finite element long wave hydrodynamic model

Nielsen, C and Apelt, C. (2003) Parameters affecting the performance of wetting and drying in a two-dimensional finite element long wave hydrodynamic model. Journal of Hydraulic Engineering, 129 8: 628-636. doi:10.1061/(ASCE)0733-9429(2003)129:8(628)


Author Nielsen, C
Apelt, C.
Title Parameters affecting the performance of wetting and drying in a two-dimensional finite element long wave hydrodynamic model
Journal name Journal of Hydraulic Engineering   Check publisher's open access policy
ISSN 0733-9429
Publication date 2003-01-01
Sub-type Article (original research)
DOI 10.1061/(ASCE)0733-9429(2003)129:8(628)
Volume 129
Issue 8
Start page 628
End page 636
Total pages 9
Place of publication USA
Publisher Amercian Society Civil Engineers
Collection year 2003
Language eng
Subject C1
290802 Water and Sanitary Engineering
770402 Land and water management
Abstract The marsh porosity method, a type of thin slot wetting and drying algorithm in a two-dimensional finite element long wave hydrodynamic model, is discussed and analyzed to assess model performance. Tests, including comparisons to simple examples and theoretical calculations, examine the effects of varying the marsh porosity parameters. The findings demonstrate that the wetting and drying concept of marsh porosity, often used in finite element hydrodynamic modeling, can behave in a more complex manner than initially expected.
Keyword Engineering, Civil
Engineering, Mechanical
Water Resources
Marshes
Hydrologic Models
Finite Elements
Long Waves
Coastal Environment
Rivers
Estuaries
Numerical-simulation
Shallow-water
Q-Index Code C1

Document type: Journal Article
Sub-type: Article (original research)
Collections: School of Civil Engineering Publications
2004 Higher Education Research Data Collection
 
Versions
Version Filter Type
Citation counts: TR Web of Science Citation Count  Cited 13 times in Thomson Reuters Web of Science Article | Citations
Scopus Citation Count Cited 18 times in Scopus Article | Citations
Google Scholar Search Google Scholar
Created: Wed, 15 Aug 2007, 12:19:30 EST