This paper presents the results of the experimental investigation of the stability, wave runup and rundown characteristics of the statically stable berm breakwater with a wide berm. Armour weight calculated using Hudson's formula for design wave height has been reduced to an extent of 20% in the present study. The variations of non-dimensional runup values (R<inf>d</inf>/H<inf>o</inf>) and the rundown values (R<inf>d</inf>/H<inf>o</inf>) with deep- water wave steepness (H<inf>o</inf>/gT2), damage level (S) with stability number (Ns) are investigated for different depths of still water level (SWL). A decrease in runup and rundown with wave steepness has been observed. Location of berm near SWL has been found to be more effective in reducing the wave runup. Damage level increases with decrease in wave period within the limits of experimental variables studied. © 2005 Taylor & Francis Group, LLC.

Rao, S.; Subrahmanya, K.; Balakrishna Rao, K.B.; Chandramohan, V.R.

This paper presents the results of the experimental investigation of the stability, wave runup and rundown characteristics of the statically stable berm breakwater with a wide berm. Armour weight calculated using Hudson's formula for design wave height has been reduced to an extent of 20% in the present study. The variations of non-dimensional runup values (R<inf>d</inf>/H<inf>o</inf>) and the rundown values (R<inf>d</inf>/H<inf>o</inf>) with deep- water wave steepness (H<inf>o</inf>/gT2), damage level (S) with stability number (Ns) are investigated for different depths of still water level (SWL). A decrease in runup and rundown with wave steepness has been observed. Location of berm near SWL has been found to be more effective in reducing the wave runup. Damage level increases with decrease in wave period within the limits of experimental variables studied. © 2005 Taylor & Francis Group, LLC.

dc.contributor.author	Rao, S.
dc.contributor.author	Subrahmanya, K.
dc.contributor.author	Balakrishna Rao, K.B.
dc.contributor.author	Chandramohan, V.R.
dc.date.accessioned	2026-02-05T11:00:18Z
dc.date.issued	Wave runup, rundown and stability analysis on berm breakwater with 20% reduced armour weight
dc.description.abstract	2005
dc.identifier.citation	ISH Journal of Hydraulic Engineering, 2005, 11, 2, pp. 90-100
dc.identifier.issn	9715010
dc.identifier.uri	https://doi.org/10.1080/09715010.2005.10514783
dc.identifier.uri	https://idr.nitk.ac.in/handle/123456789/27930
dc.subject	Damage and Stability Number
dc.subject	Rundown
dc.subject	Runup
dc.subject	SWL
dc.subject	Wave steepness
dc.title	This paper presents the results of the experimental investigation of the stability, wave runup and rundown characteristics of the statically stable berm breakwater with a wide berm. Armour weight calculated using Hudson's formula for design wave height has been reduced to an extent of 20% in the present study. The variations of non-dimensional runup values (R<inf>d</inf>/H<inf>o</inf>) and the rundown values (R<inf>d</inf>/H<inf>o</inf>) with deep- water wave steepness (H<inf>o</inf>/gT2), damage level (S) with stability number (Ns) are investigated for different depths of still water level (SWL). A decrease in runup and rundown with wave steepness has been observed. Location of berm near SWL has been found to be more effective in reducing the wave runup. Damage level increases with decrease in wave period within the limits of experimental variables studied. © 2005 Taylor & Francis Group, LLC.

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