Methods of compliance evaluation for ocean outfall design and analysis

Sewage discharge from an ocean outfall is subject to water quality standards, which are often stated in probabilistic terms. Monte Carlo simulation (MCS) has been used in the past to evaluate the ability of a designed outfall to meet water quality standards or compliance guidelines associated with s...

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Veröffentlicht in:	Environmental management (New York) 2002-10, Vol.30 (4), p.536-546
Hauptverfasser:	MUKHTASOR, LYE, L. M, SHARP, J. J
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Sprache:	eng
Schlagworte:	Animal, plant and microbial ecology Applied ecology Applied sciences Biological and medical sciences Ecotoxicology, biological effects of pollution Environmental management Escherichia coli Exact sciences and technology Failure analysis Fundamental and applied biological sciences. Psychology Guideline Adherence Marine Marine and brackish environment Monte Carlo Method Monte Carlo simulation Natural water pollution Newfoundland and Labrador Oceans Outfalls Pollution Seawaters, estuaries Sewage Sewage analysis Sewage disposal Waste Disposal, Fluid Water Pollutants - analysis Water pollution Water Pollution - prevention & control Water quality Water quality standards Water treatment and pollution
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creator	MUKHTASOR LYE, L. M SHARP, J. J
description	Sewage discharge from an ocean outfall is subject to water quality standards, which are often stated in probabilistic terms. Monte Carlo simulation (MCS) has been used in the past to evaluate the ability of a designed outfall to meet water quality standards or compliance guidelines associated with sewage discharges. In this study, simpler and less computer-intensive probabilistic methods are considered. The probabilistic methods evaluated are the popular mean first-order second-moment (MFOSM) and the advance first-order second-moment (AFOSM) methods. Available data from the Spaniard's Bay Outfall located on the east coast of New-foundland, Canada, were used as inputs for a case study. Both methods were compared with results given by MCS. It was found that AFOSM gave a good approximation of the failure probability for total coliform concentration at points remote from the outfall. However, MFOSM was found to be better when considering only the initial dilutions between the discharge point and the surface. Reasons for the different results may be the difference in complexity of the performance function in both cases. This study does not recommend the use of AFOSM for failure analysis in ocean outfall design and analysis because the analysis requires computational efforts similar to MCS. With the advancement of computer technology, simulation techniques, available software, and its flexibility in handling complex situations, MCS is still the best choice for failure analysis of ocean outfalls when data or estimates on the parameters involved are available or can be assumed.
doi_str_mv	10.1007/s00267-002-2642-6
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However, MFOSM was found to be better when considering only the initial dilutions between the discharge point and the surface. Reasons for the different results may be the difference in complexity of the performance function in both cases. This study does not recommend the use of AFOSM for failure analysis in ocean outfall design and analysis because the analysis requires computational efforts similar to MCS. 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M</au><au>SHARP, J. J</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Methods of compliance evaluation for ocean outfall design and analysis</atitle><jtitle>Environmental management (New York)</jtitle><addtitle>Environ Manage</addtitle><date>2002-10-01</date><risdate>2002</risdate><volume>30</volume><issue>4</issue><spage>536</spage><epage>546</epage><pages>536-546</pages><issn>0364-152X</issn><eissn>1432-1009</eissn><coden>EMNGDC</coden><abstract>Sewage discharge from an ocean outfall is subject to water quality standards, which are often stated in probabilistic terms. Monte Carlo simulation (MCS) has been used in the past to evaluate the ability of a designed outfall to meet water quality standards or compliance guidelines associated with sewage discharges. In this study, simpler and less computer-intensive probabilistic methods are considered. The probabilistic methods evaluated are the popular mean first-order second-moment (MFOSM) and the advance first-order second-moment (AFOSM) methods. Available data from the Spaniard's Bay Outfall located on the east coast of New-foundland, Canada, were used as inputs for a case study. Both methods were compared with results given by MCS. It was found that AFOSM gave a good approximation of the failure probability for total coliform concentration at points remote from the outfall. However, MFOSM was found to be better when considering only the initial dilutions between the discharge point and the surface. Reasons for the different results may be the difference in complexity of the performance function in both cases. This study does not recommend the use of AFOSM for failure analysis in ocean outfall design and analysis because the analysis requires computational efforts similar to MCS. 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subjects	Animal, plant and microbial ecology Applied ecology Applied sciences Biological and medical sciences Ecotoxicology, biological effects of pollution Environmental management Escherichia coli Exact sciences and technology Failure analysis Fundamental and applied biological sciences. Psychology Guideline Adherence Marine Marine and brackish environment Monte Carlo Method Monte Carlo simulation Natural water pollution Newfoundland and Labrador Oceans Outfalls Pollution Seawaters, estuaries Sewage Sewage analysis Sewage disposal Waste Disposal, Fluid Water Pollutants - analysis Water pollution Water Pollution - prevention & control Water quality Water quality standards Water treatment and pollution
title	Methods of compliance evaluation for ocean outfall design and analysis
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