On the estimation of design wave forces

On the estimation of design wave forces

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The determination of wave-induced loads on ocean structures is a key aspect in the design of such structures. In the present study, five alternative approaches to estimating the load levels associated with a specified return period are described. The alternative approaches are based on different...

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Main Author: Ganapathy, Sumathy
Format: Others
Language:English
Published: 2009
Online Access:http://hdl.handle.net/2429/5808
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spelling ndltd-UBC-oai-circle.library.ubc.ca-2429-58082018-01-05T17:32:46Z On the estimation of design wave forces Ganapathy, Sumathy The determination of wave-induced loads on ocean structures is a key aspect in the design of such structures. In the present study, five alternative approaches to estimating the load levels associated with a specified return period are described. The alternative approaches are based on different treatments of available wave data, rather than on new force formulations. The approaches include the estimation of a maximum wave height directly from the longterm distribution of significant wave heights (Method A); from the long-term distribution of individual wave heights (Method B); from the joint distribution of heights and periods (Method C); from a first order reliability method applied to estimating the maximum wave height (Method D); and from a first order reliability method applied to estimating the maximum wave force directly (Method E). These approaches to estimating the maximum wave force are carried out for small and large vertical circular cylinders. The analyses are also carried out to indicate the influence of wave period and the type of analytical distribution of significant wave height that is adopted. The results show that the most conventional approach, Method A, predicts relatively low values of the maximum wave force for both the slender and large cylinder. The estimation by Method C is closer to Method A. The force values by other methods are significantly higher for the large cylinder than the slender cylinder. The Type HI distribution for H s gives lower force values than Type I distribution. The force values are higher when T = 4.43 -Jns than T is constant. In general, the results indicate that For both slender and large cylinder, the estimation of wave force by the Methods B, D and E might be on the conservative side, while by the Methods A and C may be less conservative. Applied Science, Faculty of Civil Engineering, Department of Graduate 2009-03-09T21:45:13Z 2009-03-09T21:45:13Z 1997 1997-05 Text Thesis/Dissertation http://hdl.handle.net/2429/5808 eng For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use. 1924364 bytes application/pdf
collection NDLTD
language English
format Others
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description The determination of wave-induced loads on ocean structures is a key aspect in the design of such structures. In the present study, five alternative approaches to estimating the load levels associated with a specified return period are described. The alternative approaches are based on different treatments of available wave data, rather than on new force formulations. The approaches include the estimation of a maximum wave height directly from the longterm distribution of significant wave heights (Method A); from the long-term distribution of individual wave heights (Method B); from the joint distribution of heights and periods (Method C); from a first order reliability method applied to estimating the maximum wave height (Method D); and from a first order reliability method applied to estimating the maximum wave force directly (Method E). These approaches to estimating the maximum wave force are carried out for small and large vertical circular cylinders. The analyses are also carried out to indicate the influence of wave period and the type of analytical distribution of significant wave height that is adopted. The results show that the most conventional approach, Method A, predicts relatively low values of the maximum wave force for both the slender and large cylinder. The estimation by Method C is closer to Method A. The force values by other methods are significantly higher for the large cylinder than the slender cylinder. The Type HI distribution for H s gives lower force values than Type I distribution. The force values are higher when T = 4.43 -Jns than T is constant. In general, the results indicate that For both slender and large cylinder, the estimation of wave force by the Methods B, D and E might be on the conservative side, while by the Methods A and C may be less conservative. === Applied Science, Faculty of === Civil Engineering, Department of === Graduate
author Ganapathy, Sumathy
spellingShingle Ganapathy, Sumathy
On the estimation of design wave forces
author_facet Ganapathy, Sumathy
author_sort Ganapathy, Sumathy
title On the estimation of design wave forces
title_short On the estimation of design wave forces
title_full On the estimation of design wave forces
title_fullStr On the estimation of design wave forces
title_full_unstemmed On the estimation of design wave forces
title_sort on the estimation of design wave forces
publishDate 2009
url http://hdl.handle.net/2429/5808
work_keys_str_mv AT ganapathysumathy ontheestimationofdesignwaveforces
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