Effective design and planning specification of low impact development practices using water management analysis module (WMAM): case of Malaysia
Developers are increasingly looking for the best management practices to reduce the risk of floods in rapidly growing urban areas. Low impact development (LID) is regarded as one of the most suitable solutions for urban stormwater management and thus the U.S. EPA's (Environmental Protection Age...
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my.utm.755612018-04-15T08:04:39Z http://eprints.utm.my/id/eprint/75561/ Effective design and planning specification of low impact development practices using water management analysis module (WMAM): case of Malaysia Ahmed, K. Chung, E. S. Song, J. Y. Shahid, S. TA Engineering (General). Civil engineering (General) Developers are increasingly looking for the best management practices to reduce the risk of floods in rapidly growing urban areas. Low impact development (LID) is regarded as one of the most suitable solutions for urban stormwater management and thus the U.S. EPA's (Environmental Protection Agency) SWMM5.1 (Storm Water Management Model) added the hydrological simulation function for LID structures in 2009. However, SWMM5.1 cannot consider the optimal or best physical specifications of LID design and planning fitted to a study area, nor can it instantly derive the best combination for multiple LID designs and plans. Therefore, in this study, a web-based decision support system (DSS) for the EPA'sSWMM5.1, referred to as theWater Management Analysis Module (WMAM) is used to decide the most effective specifications of design and planning parameters for LID structure. This study was carried out over an urban catchment of University Technology Malaysia campus located in Johor, Malaysia. The hydrologic cycles with and without LID were simulated using EPA SWMM5.1. The sensitivity analysis and multiple scenario analysis were performed using WMAM. As a result, the effective specification of LID design parameters indicates that peak flow is reduced to 20.95% and 17.5% for two sub-catchments, S1 (highest by area) and S6 (lowest by area) by installing an LID structure. Thus, this study provides a tool for the best solution for what values for physical parameters will be the best for a specified LID type and what capacities can achieve the particular objectives using WMAM. MDPI AG 2017 Article PeerReviewed Ahmed, K. and Chung, E. S. and Song, J. Y. and Shahid, S. (2017) Effective design and planning specification of low impact development practices using water management analysis module (WMAM): case of Malaysia. Water (Switzerland), 9 (3). ISSN 2073-4441 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85014950054&doi=10.3390%2fw9030173&partnerID=40&md5=07327ddb48f0c7574984cd7aa3b64bfc |
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TA Engineering (General). Civil engineering (General) Ahmed, K. Chung, E. S. Song, J. Y. Shahid, S. Effective design and planning specification of low impact development practices using water management analysis module (WMAM): case of Malaysia |
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Developers are increasingly looking for the best management practices to reduce the risk of floods in rapidly growing urban areas. Low impact development (LID) is regarded as one of the most suitable solutions for urban stormwater management and thus the U.S. EPA's (Environmental Protection Agency) SWMM5.1 (Storm Water Management Model) added the hydrological simulation function for LID structures in 2009. However, SWMM5.1 cannot consider the optimal or best physical specifications of LID design and planning fitted to a study area, nor can it instantly derive the best combination for multiple LID designs and plans. Therefore, in this study, a web-based decision support system (DSS) for the EPA'sSWMM5.1, referred to as theWater Management Analysis Module (WMAM) is used to decide the most effective specifications of design and planning parameters for LID structure. This study was carried out over an urban catchment of University Technology Malaysia campus located in Johor, Malaysia. The hydrologic cycles with and without LID were simulated using EPA SWMM5.1. The sensitivity analysis and multiple scenario analysis were performed using WMAM. As a result, the effective specification of LID design parameters indicates that peak flow is reduced to 20.95% and 17.5% for two sub-catchments, S1 (highest by area) and S6 (lowest by area) by installing an LID structure. Thus, this study provides a tool for the best solution for what values for physical parameters will be the best for a specified LID type and what capacities can achieve the particular objectives using WMAM. |
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Article |
author |
Ahmed, K. Chung, E. S. Song, J. Y. Shahid, S. |
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Ahmed, K. Chung, E. S. Song, J. Y. Shahid, S. |
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Ahmed, K. |
title |
Effective design and planning specification of low impact development practices using water management analysis module (WMAM): case of Malaysia |
title_short |
Effective design and planning specification of low impact development practices using water management analysis module (WMAM): case of Malaysia |
title_full |
Effective design and planning specification of low impact development practices using water management analysis module (WMAM): case of Malaysia |
title_fullStr |
Effective design and planning specification of low impact development practices using water management analysis module (WMAM): case of Malaysia |
title_full_unstemmed |
Effective design and planning specification of low impact development practices using water management analysis module (WMAM): case of Malaysia |
title_sort |
effective design and planning specification of low impact development practices using water management analysis module (wmam): case of malaysia |
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MDPI AG |
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2017 |
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http://eprints.utm.my/id/eprint/75561/ https://www.scopus.com/inward/record.uri?eid=2-s2.0-85014950054&doi=10.3390%2fw9030173&partnerID=40&md5=07327ddb48f0c7574984cd7aa3b64bfc |
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13.214268 |