Search results for "urban drainage modelling"

showing 10 items of 17 documents

The influence of the prior distribution on the uncertainty analysis assessment of an urban drainage stormwater quality model

2009

Bayesian methods uncertainty analysis urban drainage modelling

Integrated urban water modelling with uncertainty analysis

2006

In the last twenty years, the scientific world has paid particular care towards the problems that involve the environment. Accordingly, several researches were developed to describe phenomena that take place during both wet and dry periods and to increase the knowledge in this field. In particular, attention was addressed towards the problems linked with receiving water body pollution because of the impact of rain water in the urban environment. In order to obtain a good description of the problem, it is important to analyse both quantity and quality aspects connected with all the transformation phases that characterise the urban water cycle. Today, according to this point, integrated model…

Environmental EngineeringComputer scienceCalibration (statistics)media_common.quotation_subjectIntegrated urban drainage modelling modelling uncertainty analysis receiving water impact urban water qualityOrder (exchange)Water MovementsQuality (business)CitiesQuality characteristicsUncertainty analysisReliability (statistics)Water Science and Technologymedia_commonSewageSettore ICAR/03 - Ingegneria Sanitaria-Ambientalebusiness.industryDrainage SanitaryWater PollutionEnvironmental resource managementUncertaintyEnvironmental engineeringModels TheoreticalField (geography)ItalyUrban waterbusinessWater Science and Technology

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Modelling of E. colidistribution in coastal areas subjected to combined sewer overflows

2013

Rivers, lakes and the sea were the natural receivers of raw urban waste and storm waters for a long time but the low sustainability of such practice, the increase of population and a renewed environmental sensibility increased researcher interest in the analysis and mitigation of the impact of urban waters on receiving water bodies (RWB). In Europe, the integrated modelling of drainage systems and RWB has been promoted as a promising approach for implementing the Water Framework Directive. A particular interest is given to the fate of pathogens and especially of Escherichia coli, in all the cases in which an interaction between population and the RWB is foreseen. The present paper aims to p…

Environmental Engineeringcoastal water quality Escherichia coli propagation integrated urban drainage modelling receiving water bodiesPopulationSewageSettore ICAR/01 - IdraulicaRiversDrainage system (geomorphology)Numerical modelingEnvironmental monitoringEscherichia coliDrainageeducationWater Science and Technologyeducation.field_of_studySewagebusiness.industryEnvironmental engineeringHydrodynamicModels TheoreticalWater Framework DirectiveEnvironmental scienceCoastal areaCombined sewerWater qualitybusinessEnvironmental Monitoring

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An urban drainage stormwater quality model: model development and uncertainty quantification

2010

Summary The evaluation of urban stormwater quality is of relevant importance for urban drainage, and mathematical models may be of great interest in this respect. To date, several detailed mathematical models are available to predict stormwater quantity–quality characteristics in urban drainage systems. However, only a few models take sewer sediments into account, considering their cohesive-like properties that influence the build-up process of the pollutant load. Furthermore, the model data requirements, especially for the quality aspects, are extensive, which limit their applicability and affect model results with large uncertainty. Uncertainty analysis provides a measure or index regardi…

HydrologyMathematical modelSettore ICAR/03 - Ingegneria Sanitaria-Ambientalemedia_common.quotation_subjectStormwaterSettore ICAR/02 - Costruzioni Idrauliche E Marittime E IdrologiaContext (language use)Civil engineeringWater qualitySewer sedimentConceptual modelEnvironmental scienceUncertainty analysisSanitary sewerUrban drainage modellingUncertainty quantificationDrainageUncertainty analysisWater Science and Technologymedia_common

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Uncertainty assessment of an integrated urban drainage model

2009

Over the last few years, the use of mathematical models has gained importance in urban drainage system management; indeed, such models enable the combined analysis of different components that constitute a drainage system; the sewer system, wastewater treatment plant and the receiving water body. The effectiveness of an integrated approach has been widely demonstrated in the past and is presented in the EU Water Framework Directive, which also introduces a new point of view regarding the water quality management of the whole system, requiring a global analysis at the river basin scale for pollutant sources. However, integrated urban drainage models introduce several uncertain factors that a…

Hydrologygeographygeography.geographical_feature_categorySettore ICAR/03 - Ingegneria Sanitaria-AmbientaleSettore ICAR/02 - Costruzioni Idrauliche E Marittime E IdrologiaDrainage basinCivil engineeringIntegrated urban drainage modelling Environmental water quality management Pollution evaluation Uncertainty analysisHydrology (agriculture)Water Framework DirectiveUrban planningDrainage system (geomorphology)Environmental scienceSanitary sewerDrainageUncertainty analysisWater Science and TechnologyJournal of Hydrology

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Assessment of the integrated urban water quality model complexity through identifiability analysis

2010

Urban sources of water pollution have often been cited as the primary cause of poor water quality in receiving water bodies (RWB), and recently many studies have been conducted to investigate both continuous sources, such as wastewater-treatment plant (WWTP) effluents, and intermittent sources, such as combined sewer overflows (CSOs). An urban drainage system must be considered jointly, i.e., by means of an integrated approach. However, although the benefits of an integrated approach have been widely demonstrated, several aspects have prevented its wide application, such as the scarcity of field data for not only the input and output variables but also parameters that govern intermediate st…

Identifiability analysiEnvironmental EngineeringOperations researchProcess (engineering)Computer scienceWater supplyWater SupplyRiver water-quality modellingDrainage system (geomorphology)Environmental monitoringIntegrated urban drainage modellingUncertainty assessmentSensitivity (control systems)Waste Management and DisposalReliability (statistics)Water Science and TechnologyCivil and Structural EngineeringSewageSettore ICAR/03 - Ingegneria Sanitaria-Ambientalebusiness.industryEcological ModelingWater PollutionSettore ICAR/02 - Costruzioni Idrauliche E Marittime E IdrologiaUncertaintyEnvironmental engineeringModels TheoreticalPollutionIdentifiabilityCombined sewerbusinessEnvironmental MonitoringWater Research

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Global sensitivity analysis for urban water quality modelling: comparison of different methods

2012

Sensitivity analysis represents an important step in improving the understanding and use of environmental models. Indeed, by means of global sensitivity analysis (GSA), modellers may identify both important (factor prioritization) and non-influential (factor fixing) model input factors. However, despite the potentialities of GSA methods, only few applications have been published in the field of urban drainage modelling. In order to fill this gap this paper presents a comparison among three GSA methods (SRC, Extended-FAST and Morris screening) on an urban drainage storm-water model. In particular, an exhaustive discussion on their peculiarities, applicability, and reliability is presented. S…

Influence of model input factorSettore ICAR/03 - Ingegneria Sanitaria-Ambientaleurban drainage modellinguncertaintysewer sediment

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Greenhouse gas emissions from integrated urban drainage systems: where do we stand?

2018

As sources of greenhouse gas (GHG) emissions, integrated urban drainage systems (IUDSs) (i.e., sewer systems, wastewater treatment plants and receiving water bodies) contribute to climate change. This paper, produced by the International Working Group on Data and Models, which works under the IWA/IAHR Joint Committee on Urban Drainage, reviews the state-of-the-art and modelling tools developed recently to understand and manage GHG emissions from IUDS. Further, open problems and research gaps are discussed and a framework for handling GHG emissions from IUDSs is presented. The literature review reveals that there is a need to strengthen already available mathematical models for IUDS to take …

Mathematical modellingSettore ICAR/03 - Ingegneria Sanitaria-Ambientale0208 environmental biotechnologyEnvironmental engineeringClimate change02 engineering and technology010501 environmental sciencesInternational working group01 natural sciences020801 environmental engineeringWater quality/dk/atira/pure/sustainabledevelopmentgoals/climate_actionGreenhouse gasSDG 13 - Climate ActionEnvironmental scienceIntegrated urban drainage modellingSewage treatmentGHGWater qualityDrainage0105 earth and related environmental sciencesWater Science and Technology

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Global sensitivity analysis for urban water quality modelling: Terminology, convergence and comparison of different methods

2015

Abstract Sensitivity analysis represents an important step in improving the understanding and use of environmental models. Indeed, by means of global sensitivity analysis (GSA), modellers may identify both important ( factor prioritisation ) and non-influential ( factor fixing ) model factors. No general rule has yet been defined for verifying the convergence of the GSA methods. In order to fill this gap this paper presents a convergence analysis of three widely used GSA methods (SRC, Extended FAST and Morris screening) for an urban drainage stormwater quality–quantity model. After the convergence was achieved the results of each method were compared. In particular, a discussion on peculiar…

Mathematical optimizationMathematical modelSettore ICAR/03 - Ingegneria Sanitaria-AmbientaleUncertaintyContrast (statistics)Numerical method6. Clean waterTerm (time)law.inventionSystems analysisMathematical modelMathematical models; Numerical methods; Sewer sediments; Systems analysis; Uncertainty; Urban drainage modelling; Water Science and TechnologySystems analysilawSewer sedimentConvergence (routing)StatisticsVenn diagramSensitivity (control systems)Urban drainage modellingReliability (statistics)MathematicsWater Science and Technology

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Uncertainty Propagation in Integrated Urban Water Quality Modelling

2018

Sensitivity and uncertainty assessment of integrated urban drainage water quality models are crucial steps in the evaluation of the reliability of model results. Indeed, the assessment of the reliability of the results of complex water quality models is crucial in understanding their significance. In the case of integrated urban drainage water quality models, due to the fact that integrated approaches are basically a cascade of sub-models (simulating the sewer system, wastewater treatment plant and receiving water body), uncertainty produced in one sub-model propagates to the following ones in a manner dependent on the model structure, the estimation of parameters and the availability and u…

Mathematical optimizationPropagation of uncertaintySettore ICAR/03 - Ingegneria Sanitaria-AmbientaleComputer scienceStandard deviationpollution evaluationKeywords: Integrated urban drainage modelling Environmental water quality management Pollution evaluation Uncertainty analysisIntegrated urban drainage modellingSensitivity (control systems)Water qualityDrainageGLUEuncertainty analysisenvironmental water quality managementUncertainty analysisReliability (statistics)

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