Urban stormwater runoff reduction through low impact development (LID) on a city-scale catchment: A case study on San Juan City, Philippines

As urbanization and development occur, the natural hydrolic cycle is affected. This is due to the change of land use and cover, making most of the lands impervious. With that, stormwater runoff tends to increase, resulting to occurrence of flooding and degrade the quality of water. To compensate for...

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Main Authors: Abundo, Ralph Eleazar A., Hontomin, Michael Angelo P., Pauco, Jan Benedick R., Rivera, Rafael C.
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Language:English
Published: Animo Repository 2018
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Online Access:https://animorepository.dlsu.edu.ph/etd_bachelors/8587
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Institution: De La Salle University
Language: English
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spelling oai:animorepository.dlsu.edu.ph:etd_bachelors-92322021-08-24T05:31:44Z Urban stormwater runoff reduction through low impact development (LID) on a city-scale catchment: A case study on San Juan City, Philippines Abundo, Ralph Eleazar A. Hontomin, Michael Angelo P. Pauco, Jan Benedick R. Rivera, Rafael C. As urbanization and development occur, the natural hydrolic cycle is affected. This is due to the change of land use and cover, making most of the lands impervious. With that, stormwater runoff tends to increase, resulting to occurrence of flooding and degrade the quality of water. To compensate for the negative effect of urbanization, low impact development (LID) is applied on the urban catchment. LID restores the natural way of managing storm water wherein it stores water or allow it to infiltrate into the ground instead of generating stormwater runoof that leads to flooding and adds up to the pollution problems. The researchers intend to determine the effect of applying retention and detention type of LID in terms of water quantity in the City of San Juan. In which, the group simulated the predevelopment state, and the current condition of the stormwater in the area, and 14 scenarios of the current condition having LID. These scenarios differ in LID types and percent of area covered. The simulation was done in EPA Stormwater Management Model (SWMM) where hydrologic information of the catchment was considered. The findings of the model show that applicaton of LID results to 0.35% to 47.65% reduction in runoff volume, 0.12% to 45.68% peak runoff reduction, 1 to 11 minutes of delay in runoff, and 0 to 1-hour delay in runoff peak. More so, different types of LID result to different LID effects, with rain barrel being the most applicable LID type to the area since most of its land use is for residential purpose. Also, the results indicate that the percent coverage of LID has a direct relationship with runoff volume reduction, peak runoff reduction, and delay in start of runoff. 2018-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/etd_bachelors/8587 Bachelor's Theses English Animo Repository Urban runoff--Management Stormwater infiltration Hydraulics Hydraulic engineering
institution De La Salle University
building De La Salle University Library
continent Asia
country Philippines
Philippines
content_provider De La Salle University Library
collection DLSU Institutional Repository
language English
topic Urban runoff--Management
Stormwater infiltration
Hydraulics
Hydraulic engineering
spellingShingle Urban runoff--Management
Stormwater infiltration
Hydraulics
Hydraulic engineering
Abundo, Ralph Eleazar A.
Hontomin, Michael Angelo P.
Pauco, Jan Benedick R.
Rivera, Rafael C.
Urban stormwater runoff reduction through low impact development (LID) on a city-scale catchment: A case study on San Juan City, Philippines
description As urbanization and development occur, the natural hydrolic cycle is affected. This is due to the change of land use and cover, making most of the lands impervious. With that, stormwater runoff tends to increase, resulting to occurrence of flooding and degrade the quality of water. To compensate for the negative effect of urbanization, low impact development (LID) is applied on the urban catchment. LID restores the natural way of managing storm water wherein it stores water or allow it to infiltrate into the ground instead of generating stormwater runoof that leads to flooding and adds up to the pollution problems. The researchers intend to determine the effect of applying retention and detention type of LID in terms of water quantity in the City of San Juan. In which, the group simulated the predevelopment state, and the current condition of the stormwater in the area, and 14 scenarios of the current condition having LID. These scenarios differ in LID types and percent of area covered. The simulation was done in EPA Stormwater Management Model (SWMM) where hydrologic information of the catchment was considered. The findings of the model show that applicaton of LID results to 0.35% to 47.65% reduction in runoff volume, 0.12% to 45.68% peak runoff reduction, 1 to 11 minutes of delay in runoff, and 0 to 1-hour delay in runoff peak. More so, different types of LID result to different LID effects, with rain barrel being the most applicable LID type to the area since most of its land use is for residential purpose. Also, the results indicate that the percent coverage of LID has a direct relationship with runoff volume reduction, peak runoff reduction, and delay in start of runoff.
format text
author Abundo, Ralph Eleazar A.
Hontomin, Michael Angelo P.
Pauco, Jan Benedick R.
Rivera, Rafael C.
author_facet Abundo, Ralph Eleazar A.
Hontomin, Michael Angelo P.
Pauco, Jan Benedick R.
Rivera, Rafael C.
author_sort Abundo, Ralph Eleazar A.
title Urban stormwater runoff reduction through low impact development (LID) on a city-scale catchment: A case study on San Juan City, Philippines
title_short Urban stormwater runoff reduction through low impact development (LID) on a city-scale catchment: A case study on San Juan City, Philippines
title_full Urban stormwater runoff reduction through low impact development (LID) on a city-scale catchment: A case study on San Juan City, Philippines
title_fullStr Urban stormwater runoff reduction through low impact development (LID) on a city-scale catchment: A case study on San Juan City, Philippines
title_full_unstemmed Urban stormwater runoff reduction through low impact development (LID) on a city-scale catchment: A case study on San Juan City, Philippines
title_sort urban stormwater runoff reduction through low impact development (lid) on a city-scale catchment: a case study on san juan city, philippines
publisher Animo Repository
publishDate 2018
url https://animorepository.dlsu.edu.ph/etd_bachelors/8587
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