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Performance of artificial wetland in removing contaminants from storm water under tropical climate

Rapid growth has resulted in increased storm water flow into receiving waters, with increases in flooding through drainage of storm water runoff from urban areas to receiving water bodies. The design philosophy of the conventional storm water drainage system was based on solving localized floods, ei...

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Main Authors: Asmaliza M.N.N., Lariyah M.S., Rozi A., Aminuddin A.G.
Other Authors: 55889419700
Format: Conference paper
Published: 2023
Subjects:
Artificial wetland
Removal efficiency
Storm water
Urban drainage
Water quality
Catchments
Drainage
Flood control
Floods
Storm sewers
Water pollution control
Best management practice (BMPs)
Removal efficiencies
Stormwaters
Sustainable urban drainage systems
Water quality improvements
Water quality parameters
concentration (composition)
dissolved oxygen
drainage
flooding
performance assessment
pollutant removal
runoff
stormwater
tropical environment
turbidity
urban area
water quality
wetland
Storms
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id my.uniten.dspace-30012
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spelling my.uniten.dspace-300122023-12-29T15:43:58Z Performance of artificial wetland in removing contaminants from storm water under tropical climate Asmaliza M.N.N. Lariyah M.S. Rozi A. Aminuddin A.G. 55889419700 35070506500 56627088400 7006814462 Artificial wetland Removal efficiency Storm water Urban drainage Water quality Catchments Drainage Flood control Floods Storm sewers Water pollution control Water quality Artificial wetland Best management practice (BMPs) Removal efficiencies Stormwaters Sustainable urban drainage systems Urban drainage Water quality improvements Water quality parameters concentration (composition) dissolved oxygen drainage flooding performance assessment pollutant removal runoff stormwater tropical environment turbidity urban area water quality wetland Storms Rapid growth has resulted in increased storm water flow into receiving waters, with increases in flooding through drainage of storm water runoff from urban areas to receiving water bodies. The design philosophy of the conventional storm water drainage system was based on solving localized floods, either by transferring excessive flow in drainage systems downstream by upgrading the drainage system, or relieving localized problems by constructing storm overflows. In response to these issues there are needs for a paradigm shift in the way storm water is managed. There are various Best Management Practices (BMPs) techniques which can be used to control storm water runoff to achieve the target for water quality index similar to that before the development started. The artificial wetland system is part of the sustainable urban drainage system and this system has a main function in water quality improvement. The objective of this study was to determine the removal efficiency of contaminants in urban storm water by a wetland constructed in the Universiti Sains Malaysia (USM) Penang catchment. The result showed that the average removal efficiency of BOD was 9.7-80%, DO was 6.5-17.8%, turbidity was 25.9-30.0% and TP was 24-46%. In addition, strong positive correlations were found between water quality parameters at the inlet and water quality parameters at the outlet. However, a weak positive correlation between DO concentration at the inlet with BOD concentration at the inlet was identified throughout this study. � 2013 IAHS Press. Final 2023-12-29T07:43:58Z 2023-12-29T07:43:58Z 2013 Conference paper 2-s2.0-84883351887 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84883351887&partnerID=40&md5=38c45c8cd906e8575b2a16634f4d2827 https://irepository.uniten.edu.my/handle/123456789/30012 357 208 216 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Artificial wetland
Removal efficiency
Storm water
Urban drainage
Water quality
Catchments
Drainage
Flood control
Floods
Storm sewers
Water pollution control
Water quality
Artificial wetland
Best management practice (BMPs)
Removal efficiencies
Stormwaters
Sustainable urban drainage systems
Urban drainage
Water quality improvements
Water quality parameters
concentration (composition)
dissolved oxygen
drainage
flooding
performance assessment
pollutant removal
runoff
stormwater
tropical environment
turbidity
urban area
water quality
wetland
Storms
spellingShingle Artificial wetland
Removal efficiency
Storm water
Urban drainage
Water quality
Catchments
Drainage
Flood control
Floods
Storm sewers
Water pollution control
Water quality
Artificial wetland
Best management practice (BMPs)
Removal efficiencies
Stormwaters
Sustainable urban drainage systems
Urban drainage
Water quality improvements
Water quality parameters
concentration (composition)
dissolved oxygen
drainage
flooding
performance assessment
pollutant removal
runoff
stormwater
tropical environment
turbidity
urban area
water quality
wetland
Storms
Asmaliza M.N.N.
Lariyah M.S.
Rozi A.
Aminuddin A.G.
Performance of artificial wetland in removing contaminants from storm water under tropical climate
description Rapid growth has resulted in increased storm water flow into receiving waters, with increases in flooding through drainage of storm water runoff from urban areas to receiving water bodies. The design philosophy of the conventional storm water drainage system was based on solving localized floods, either by transferring excessive flow in drainage systems downstream by upgrading the drainage system, or relieving localized problems by constructing storm overflows. In response to these issues there are needs for a paradigm shift in the way storm water is managed. There are various Best Management Practices (BMPs) techniques which can be used to control storm water runoff to achieve the target for water quality index similar to that before the development started. The artificial wetland system is part of the sustainable urban drainage system and this system has a main function in water quality improvement. The objective of this study was to determine the removal efficiency of contaminants in urban storm water by a wetland constructed in the Universiti Sains Malaysia (USM) Penang catchment. The result showed that the average removal efficiency of BOD was 9.7-80%, DO was 6.5-17.8%, turbidity was 25.9-30.0% and TP was 24-46%. In addition, strong positive correlations were found between water quality parameters at the inlet and water quality parameters at the outlet. However, a weak positive correlation between DO concentration at the inlet with BOD concentration at the inlet was identified throughout this study. � 2013 IAHS Press.
author2 55889419700
author_facet 55889419700
Asmaliza M.N.N.
Lariyah M.S.
Rozi A.
Aminuddin A.G.
format Conference paper
author Asmaliza M.N.N.
Lariyah M.S.
Rozi A.
Aminuddin A.G.
author_sort Asmaliza M.N.N.
title Performance of artificial wetland in removing contaminants from storm water under tropical climate
title_short Performance of artificial wetland in removing contaminants from storm water under tropical climate
title_full Performance of artificial wetland in removing contaminants from storm water under tropical climate
title_fullStr Performance of artificial wetland in removing contaminants from storm water under tropical climate
title_full_unstemmed Performance of artificial wetland in removing contaminants from storm water under tropical climate
title_sort performance of artificial wetland in removing contaminants from storm water under tropical climate
publishDate 2023
_version_ 1806424182403104768
score 13.214268

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