Simulation-based risk analysis of water pollution accidents combining multi-stressors and multi-receptors in a coastal watershed

As environmentally important ecosystems, coastal watersheds are vulnerable to abrupt water pollution events. Previous researches of accidental pollution in coastal watersheds mostly focused on oil leakages from mobile sources, pipelines, or stationary sources; however few considered chemical polluti...

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Main Authors: Dong, Lei, Liu, Jing, Du, Xi, Dai, Chao, Liu, Renzhi
Other Authors: School of Civil and Environmental Engineering
Format: Article
Language:English
Published: 2020
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Online Access:https://hdl.handle.net/10356/144563
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1445632020-11-13T01:04:04Z Simulation-based risk analysis of water pollution accidents combining multi-stressors and multi-receptors in a coastal watershed Dong, Lei Liu, Jing Du, Xi Dai, Chao Liu, Renzhi School of Civil and Environmental Engineering Engineering::Civil engineering Environmental Risk Assessment Numerical Simulation As environmentally important ecosystems, coastal watersheds are vulnerable to abrupt water pollution events. Previous researches of accidental pollution in coastal watersheds mostly focused on oil leakages from mobile sources, pipelines, or stationary sources; however few considered chemical pollution accidents from terrestrial stationary sources. The present paper uses one-dimensional and MIKE 21 convection-diffusion models to simulate chemical transport processes in coastal rivers and in near-shore seas. Based on the simulation results, a Coastal Accidental Water Pollution Risk Analysis (CAWPRA) method is proposed. CAWPRA considers acute pollution risk passing from upstream to downstream, and to estuary and near-shore sea areas in a coastal watershed. The method is applied to Beihai City, a typical coastal area of rising economic development, to provide a risk assessment based on simulations of water accidental pollution from terrestrial stationary sources. A leakage event of hydrochloric acid from Wenkehaiyang Co. Ltd is taken as an example. Water quality simulation results indicate that after 6, 12, 18, and 24 h the peak concentrations of hydrochloric acid would be 3.72, 0.91, 0.75, and 0.68 mg/l, respectively, and accordingly, the areas of coastal water exceeding the seawater quality standard would be 5.56, 4.92, 9.71, and 45.01 km2, respectively. Hydrochloric acid would reach Dangjiang Mangrove Nature Reserve a time 14 h after the leakage event first occurred. The resultant map indicates high, medium, and low risk sub-areas. The map is useful at identifying the most risky sources and the most vulnerable receptors for the Beihai coastal watershed. 2020-11-13T01:04:04Z 2020-11-13T01:04:04Z 2018 Journal Article Dong, L., Liu, J., Du, X., Dai, C., & Liu, R. (2018). Simulation-based risk analysis of water pollution accidents combining multi-stressors and multi-receptors in a coastal watershed. Ecological Indicators, 92, 161-170. doi: 10.1016/j.ecolind.2017.06.018 1470-160X https://hdl.handle.net/10356/144563 10.1016/j.ecolind.2017.06.018 92 161 170 en Ecological Indicators © 2017 Elsevier Ltd. All rights reserved.
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering::Civil engineering
Environmental Risk Assessment
Numerical Simulation
spellingShingle Engineering::Civil engineering
Environmental Risk Assessment
Numerical Simulation
Dong, Lei
Liu, Jing
Du, Xi
Dai, Chao
Liu, Renzhi
Simulation-based risk analysis of water pollution accidents combining multi-stressors and multi-receptors in a coastal watershed
description As environmentally important ecosystems, coastal watersheds are vulnerable to abrupt water pollution events. Previous researches of accidental pollution in coastal watersheds mostly focused on oil leakages from mobile sources, pipelines, or stationary sources; however few considered chemical pollution accidents from terrestrial stationary sources. The present paper uses one-dimensional and MIKE 21 convection-diffusion models to simulate chemical transport processes in coastal rivers and in near-shore seas. Based on the simulation results, a Coastal Accidental Water Pollution Risk Analysis (CAWPRA) method is proposed. CAWPRA considers acute pollution risk passing from upstream to downstream, and to estuary and near-shore sea areas in a coastal watershed. The method is applied to Beihai City, a typical coastal area of rising economic development, to provide a risk assessment based on simulations of water accidental pollution from terrestrial stationary sources. A leakage event of hydrochloric acid from Wenkehaiyang Co. Ltd is taken as an example. Water quality simulation results indicate that after 6, 12, 18, and 24 h the peak concentrations of hydrochloric acid would be 3.72, 0.91, 0.75, and 0.68 mg/l, respectively, and accordingly, the areas of coastal water exceeding the seawater quality standard would be 5.56, 4.92, 9.71, and 45.01 km2, respectively. Hydrochloric acid would reach Dangjiang Mangrove Nature Reserve a time 14 h after the leakage event first occurred. The resultant map indicates high, medium, and low risk sub-areas. The map is useful at identifying the most risky sources and the most vulnerable receptors for the Beihai coastal watershed.
author2 School of Civil and Environmental Engineering
author_facet School of Civil and Environmental Engineering
Dong, Lei
Liu, Jing
Du, Xi
Dai, Chao
Liu, Renzhi
format Article
author Dong, Lei
Liu, Jing
Du, Xi
Dai, Chao
Liu, Renzhi
author_sort Dong, Lei
title Simulation-based risk analysis of water pollution accidents combining multi-stressors and multi-receptors in a coastal watershed
title_short Simulation-based risk analysis of water pollution accidents combining multi-stressors and multi-receptors in a coastal watershed
title_full Simulation-based risk analysis of water pollution accidents combining multi-stressors and multi-receptors in a coastal watershed
title_fullStr Simulation-based risk analysis of water pollution accidents combining multi-stressors and multi-receptors in a coastal watershed
title_full_unstemmed Simulation-based risk analysis of water pollution accidents combining multi-stressors and multi-receptors in a coastal watershed
title_sort simulation-based risk analysis of water pollution accidents combining multi-stressors and multi-receptors in a coastal watershed
publishDate 2020
url https://hdl.handle.net/10356/144563
_version_ 1688665428506705920