Assessment on rainfall behaviour at sinkhole tragedic area in Ipoh South / Dalilasuriani Johari

Sinkhole can be described as the hole in the earth’s surface, natural drain into the water table and sudden collapse that can swallow a highway or a building. It is a costly recurring problem faced by many countries such as Malaysia where some of the areas have limestone with underground cavities as...

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Main Author: Johari, Dalilasuriani
Format: Student Project
Language:English
Published: 2004
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Online Access:https://ir.uitm.edu.my/id/eprint/53893/1/53893.pdf
https://ir.uitm.edu.my/id/eprint/53893/
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spelling my.uitm.ir.538932021-12-02T03:44:59Z https://ir.uitm.edu.my/id/eprint/53893/ Assessment on rainfall behaviour at sinkhole tragedic area in Ipoh South / Dalilasuriani Johari Johari, Dalilasuriani Environmental engineering Engineering geology. Rock mechanics. Soil mechanics. Soil mechanics. Including properties of soils, water in soil, strength properties, consolidation, etc. Laboratory manuals. Testing of soils. Measurements Environmental auditing Environmental reporting Malaysia Sinkhole can be described as the hole in the earth’s surface, natural drain into the water table and sudden collapse that can swallow a highway or a building. It is a costly recurring problem faced by many countries such as Malaysia where some of the areas have limestone with underground cavities as the bedrock. Several researches have been done by various government and private agencies especially by Mineral & Geoscience Department of Malaysia relating to the occurrence of sinkhole failure. However, until now, there is no research of this kind in establishing the sinkhole failure index based on rainfall behaviour. The category of classifying the degree of sinkhole event named as “ROSE” Index (after the name of researchers, Roslan and Shafee 1999) can be used to indicate the risk level of sinkhole occurrence based on rainfall behaviour. “ROSE” Index Method is a simple method in determining the likelihood of sinkhole risk occurrence and is of great contribution to the nation in realizing issues related to sinkhole problems. In this context, rainfall is of major importance agent in causing sinkhole. Rainfall data for 7 days before and on the day of sinkhole occurrence were taken in Ipoh South to relate the rainfall behaviour with the occurrence of sinkhole. For better realization concerning the effects of the rainfall on sinkhole, intensity, energy and erosivity of rainfall must be taken into consideration. With the knowledge of the rainfall erosivity values, one can predict or forecast any areas that could lead to sinkhole event. “ROSE” Index which firmly indicates the relationship between rainfall erosivity and sinkhole events can be used as a tool in demarcating or categorizing the level of sinkhole risk namely low, moderate, high, very high and critical. From “ROSE” Index Method, majority of selected sinkhole locations are under high, very high and critical category. Only two locations out of twenty selected locations are in moderate category. Therefore, “ROSE” Index can be used as a tool to predict sinkhole for other area having limestone as the bedrock based on rainfall pattern. It is hoped that the outcome of this research work would make some tangible new contribution to the scientific community in moving a step closer to understanding and solving the severe problem of sinkhole. 2004-10 Student Project NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/53893/1/53893.pdf ID53893 Johari, Dalilasuriani (2004) Assessment on rainfall behaviour at sinkhole tragedic area in Ipoh South / Dalilasuriani Johari. [Student Project] (Unpublished)
institution Universiti Teknologi Mara
building Tun Abdul Razak Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
url_provider http://ir.uitm.edu.my/
language English
topic Environmental engineering
Engineering geology. Rock mechanics. Soil mechanics.
Soil mechanics. Including properties of soils, water in soil, strength properties, consolidation, etc.
Laboratory manuals. Testing of soils. Measurements
Environmental auditing
Environmental reporting
Malaysia
spellingShingle Environmental engineering
Engineering geology. Rock mechanics. Soil mechanics.
Soil mechanics. Including properties of soils, water in soil, strength properties, consolidation, etc.
Laboratory manuals. Testing of soils. Measurements
Environmental auditing
Environmental reporting
Malaysia
Johari, Dalilasuriani
Assessment on rainfall behaviour at sinkhole tragedic area in Ipoh South / Dalilasuriani Johari
description Sinkhole can be described as the hole in the earth’s surface, natural drain into the water table and sudden collapse that can swallow a highway or a building. It is a costly recurring problem faced by many countries such as Malaysia where some of the areas have limestone with underground cavities as the bedrock. Several researches have been done by various government and private agencies especially by Mineral & Geoscience Department of Malaysia relating to the occurrence of sinkhole failure. However, until now, there is no research of this kind in establishing the sinkhole failure index based on rainfall behaviour. The category of classifying the degree of sinkhole event named as “ROSE” Index (after the name of researchers, Roslan and Shafee 1999) can be used to indicate the risk level of sinkhole occurrence based on rainfall behaviour. “ROSE” Index Method is a simple method in determining the likelihood of sinkhole risk occurrence and is of great contribution to the nation in realizing issues related to sinkhole problems. In this context, rainfall is of major importance agent in causing sinkhole. Rainfall data for 7 days before and on the day of sinkhole occurrence were taken in Ipoh South to relate the rainfall behaviour with the occurrence of sinkhole. For better realization concerning the effects of the rainfall on sinkhole, intensity, energy and erosivity of rainfall must be taken into consideration. With the knowledge of the rainfall erosivity values, one can predict or forecast any areas that could lead to sinkhole event. “ROSE” Index which firmly indicates the relationship between rainfall erosivity and sinkhole events can be used as a tool in demarcating or categorizing the level of sinkhole risk namely low, moderate, high, very high and critical. From “ROSE” Index Method, majority of selected sinkhole locations are under high, very high and critical category. Only two locations out of twenty selected locations are in moderate category. Therefore, “ROSE” Index can be used as a tool to predict sinkhole for other area having limestone as the bedrock based on rainfall pattern. It is hoped that the outcome of this research work would make some tangible new contribution to the scientific community in moving a step closer to understanding and solving the severe problem of sinkhole.
format Student Project
author Johari, Dalilasuriani
author_facet Johari, Dalilasuriani
author_sort Johari, Dalilasuriani
title Assessment on rainfall behaviour at sinkhole tragedic area in Ipoh South / Dalilasuriani Johari
title_short Assessment on rainfall behaviour at sinkhole tragedic area in Ipoh South / Dalilasuriani Johari
title_full Assessment on rainfall behaviour at sinkhole tragedic area in Ipoh South / Dalilasuriani Johari
title_fullStr Assessment on rainfall behaviour at sinkhole tragedic area in Ipoh South / Dalilasuriani Johari
title_full_unstemmed Assessment on rainfall behaviour at sinkhole tragedic area in Ipoh South / Dalilasuriani Johari
title_sort assessment on rainfall behaviour at sinkhole tragedic area in ipoh south / dalilasuriani johari
publishDate 2004
url https://ir.uitm.edu.my/id/eprint/53893/1/53893.pdf
https://ir.uitm.edu.my/id/eprint/53893/
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score 13.211869