Dynamics of Earth Dam Stability caused by Rapid Rising and Drawdown of Water Level

Failure in an earth dam mostly occurs due to extreme water level fluctuation in the upstream. This research is aiming at analyzing the effect of rapid rising and rapid drawdown of water level to the structural integrity of an earth dam. The earth dam is modeled physically in a laboratory experiment....

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Main Authors: Fathani, Teuku Faisal, Legono, Djoko
Format: Conference or Workshop Item PeerReviewed
Language:English
Published: 2012
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Online Access:https://repository.ugm.ac.id/136796/1/3rd%20Int%20Workshop%20MSD%202012-Dynamics%20of%20Earth%20Dam%20Stability%20caused%20by%20Rapid%20Rising%20and%20Drawdown%20of%20Water%20Level.pdf
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spelling id-ugm-repo.1367962016-09-28T06:54:46Z https://repository.ugm.ac.id/136796/ Dynamics of Earth Dam Stability caused by Rapid Rising and Drawdown of Water Level Fathani, Teuku Faisal Legono, Djoko Civil Geotechnical Engineering Civil Engineering Engineering Failure in an earth dam mostly occurs due to extreme water level fluctuation in the upstream. This research is aiming at analyzing the effect of rapid rising and rapid drawdown of water level to the structural integrity of an earth dam. The earth dam is modeled physically in a laboratory experiment. The monitoring instruments used in the experiment are soil moisture sensors, deformation sensor with pressure range detection, dial gauges, and capacity level meter. Furthermore, dam stability analysis, deformation analysis, and seepage analysis are conducted with consideration to water level fluctuation, dam slope inclination, and type of the soil composing the dam body. The results from physical model experiment were compared to the results of stress-deformation analysis of plane strain idealization. The result shows a decrease in safety factor of downstream slope due to the rising of upstream water level, whereas almost every model variation experienced failure in the downstream during the experiment. The obtained safety factor varies depending upon the material composing the dam model. Rapid drawdown of water level increases the landslide risk, indicated by a significant decrease of safety factor of upstream slope. The safety factor in rapid drawdown is generally slightly higher than in rapid rising of upstream water level. 2012-09 Conference or Workshop Item PeerReviewed application/pdf en https://repository.ugm.ac.id/136796/1/3rd%20Int%20Workshop%20MSD%202012-Dynamics%20of%20Earth%20Dam%20Stability%20caused%20by%20Rapid%20Rising%20and%20Drawdown%20of%20Water%20Level.pdf Fathani, Teuku Faisal and Legono, Djoko (2012) Dynamics of Earth Dam Stability caused by Rapid Rising and Drawdown of Water Level. In: The 3rd International Workshop on Multimodal Sediment Disasters - Challenge to Huge Sediment Disaster Mitigation.
institution Universitas Gadjah Mada
building UGM Library
country Indonesia
collection Repository Civitas UGM
language English
topic Civil Geotechnical Engineering
Civil Engineering
Engineering
spellingShingle Civil Geotechnical Engineering
Civil Engineering
Engineering
Fathani, Teuku Faisal
Legono, Djoko
Dynamics of Earth Dam Stability caused by Rapid Rising and Drawdown of Water Level
description Failure in an earth dam mostly occurs due to extreme water level fluctuation in the upstream. This research is aiming at analyzing the effect of rapid rising and rapid drawdown of water level to the structural integrity of an earth dam. The earth dam is modeled physically in a laboratory experiment. The monitoring instruments used in the experiment are soil moisture sensors, deformation sensor with pressure range detection, dial gauges, and capacity level meter. Furthermore, dam stability analysis, deformation analysis, and seepage analysis are conducted with consideration to water level fluctuation, dam slope inclination, and type of the soil composing the dam body. The results from physical model experiment were compared to the results of stress-deformation analysis of plane strain idealization. The result shows a decrease in safety factor of downstream slope due to the rising of upstream water level, whereas almost every model variation experienced failure in the downstream during the experiment. The obtained safety factor varies depending upon the material composing the dam model. Rapid drawdown of water level increases the landslide risk, indicated by a significant decrease of safety factor of upstream slope. The safety factor in rapid drawdown is generally slightly higher than in rapid rising of upstream water level.
format Conference or Workshop Item
PeerReviewed
author Fathani, Teuku Faisal
Legono, Djoko
author_facet Fathani, Teuku Faisal
Legono, Djoko
author_sort Fathani, Teuku Faisal
title Dynamics of Earth Dam Stability caused by Rapid Rising and Drawdown of Water Level
title_short Dynamics of Earth Dam Stability caused by Rapid Rising and Drawdown of Water Level
title_full Dynamics of Earth Dam Stability caused by Rapid Rising and Drawdown of Water Level
title_fullStr Dynamics of Earth Dam Stability caused by Rapid Rising and Drawdown of Water Level
title_full_unstemmed Dynamics of Earth Dam Stability caused by Rapid Rising and Drawdown of Water Level
title_sort dynamics of earth dam stability caused by rapid rising and drawdown of water level
publishDate 2012
url https://repository.ugm.ac.id/136796/1/3rd%20Int%20Workshop%20MSD%202012-Dynamics%20of%20Earth%20Dam%20Stability%20caused%20by%20Rapid%20Rising%20and%20Drawdown%20of%20Water%20Level.pdf
https://repository.ugm.ac.id/136796/
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