Chapter Modeling of flow patterns and microbiological parameters for hazard assessment of bathing waters affected by combined sewer overflows

ARPA Puglia carried out a numerical study to simulate the evolution of the turbidity plume geometry and to describe the bacterial dispersion caused by the discharge of a mixture of raw sewage and surface runoff from the so called condotta Matteotti into the marine-coastal waterbody close to the urba...

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Autores principales: Locuratolo, Giuseppe, Barbone, Enrico, Giannuzzi, Cosimo Gaspare, Porfido, Antonietta, Ungaro, Nicola, Armenio, Elvira
Formato: Online
Lenguaje:inglés
Publicado: Firenze University Press 2025
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Acceso en línea:ONIX_20250801T173835_9791221505566_270
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author Locuratolo, Giuseppe
Barbone, Enrico
Giannuzzi, Cosimo Gaspare
Porfido, Antonietta
Ungaro, Nicola
Armenio, Elvira
author_browse Armenio, Elvira
Barbone, Enrico
Giannuzzi, Cosimo Gaspare
Locuratolo, Giuseppe
Porfido, Antonietta
Ungaro, Nicola
author_facet Locuratolo, Giuseppe
Barbone, Enrico
Giannuzzi, Cosimo Gaspare
Porfido, Antonietta
Ungaro, Nicola
Armenio, Elvira
author_sort Locuratolo, Giuseppe
collection Directory of Open Access Books
description ARPA Puglia carried out a numerical study to simulate the evolution of the turbidity plume geometry and to describe the bacterial dispersion caused by the discharge of a mixture of raw sewage and surface runoff from the so called condotta Matteotti into the marine-coastal waterbody close to the urban beach (bathing area) called “Pane e Pomodoro”. The condotta Matteotti is an underground concrete pipe connected with a spillway to the main sewer system: it acts as an emergency weir to prevent flooding during or soon after intense rainfall events. During these rainfalls the seaward sluice gates open, and the untreated sewage is discharged into the sea thus decreasing the water quality. The simulation, according to a heavy rainfall and overflow event occurred in July 2018, was implemented using the DHI's Mike 3 suite enhanced with the ECOlab module, both organized as step-by-step processes. The validation of the final model was performed by comparing the microbiological concentration resulted from the model application with the on-field measurements and samples collected by ARPA Puglia during its ordinary water monitoring activities.
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spelling doab-20.500.12854ir-1634162025-08-02T05:07:31Z Chapter Modeling of flow patterns and microbiological parameters for hazard assessment of bathing waters affected by combined sewer overflows Locuratolo, Giuseppe Barbone, Enrico Giannuzzi, Cosimo Gaspare Porfido, Antonietta Ungaro, Nicola Armenio, Elvira Overflow Bathing waters Water quality Flow pattern Bacterial dispersion ARPA Puglia carried out a numerical study to simulate the evolution of the turbidity plume geometry and to describe the bacterial dispersion caused by the discharge of a mixture of raw sewage and surface runoff from the so called condotta Matteotti into the marine-coastal waterbody close to the urban beach (bathing area) called “Pane e Pomodoro”. The condotta Matteotti is an underground concrete pipe connected with a spillway to the main sewer system: it acts as an emergency weir to prevent flooding during or soon after intense rainfall events. During these rainfalls the seaward sluice gates open, and the untreated sewage is discharged into the sea thus decreasing the water quality. The simulation, according to a heavy rainfall and overflow event occurred in July 2018, was implemented using the DHI's Mike 3 suite enhanced with the ECOlab module, both organized as step-by-step processes. The validation of the final model was performed by comparing the microbiological concentration resulted from the model application with the on-field measurements and samples collected by ARPA Puglia during its ordinary water monitoring activities. 2025-08-02T05:07:30Z 2025-08-02T05:07:30Z 2025-08-01T15:57:22Z 2024 chapter ONIX_20250801T173835_9791221505566_270 2975-0288 https://library.oapen.org/handle/20.500.12657/104820 9791221505566 https://directory.doabooks.org/handle/20.500.12854/163416 eng Monitoring of Mediterranean Coastal Areas: Problems and Measurement Techniques open access image/jpeg Attribution-NonCommercial-ShareAlike 4.0 International https://library.oapen.org/bitstream/20.500.12657/104820/1/43725.pdf Firenze University Press 10.36253/979-12-215-0556-6.80 10.36253/979-12-215-0556-6.80 2ec4474d-93b1-4cfa-b313-9c6019b51b1a 9791221505566 11 Florence open access
spellingShingle Overflow
Bathing waters
Water quality
Flow pattern
Bacterial dispersion
Locuratolo, Giuseppe
Barbone, Enrico
Giannuzzi, Cosimo Gaspare
Porfido, Antonietta
Ungaro, Nicola
Armenio, Elvira
Chapter Modeling of flow patterns and microbiological parameters for hazard assessment of bathing waters affected by combined sewer overflows
title Chapter Modeling of flow patterns and microbiological parameters for hazard assessment of bathing waters affected by combined sewer overflows
title_full Chapter Modeling of flow patterns and microbiological parameters for hazard assessment of bathing waters affected by combined sewer overflows
title_fullStr Chapter Modeling of flow patterns and microbiological parameters for hazard assessment of bathing waters affected by combined sewer overflows
title_full_unstemmed Chapter Modeling of flow patterns and microbiological parameters for hazard assessment of bathing waters affected by combined sewer overflows
title_short Chapter Modeling of flow patterns and microbiological parameters for hazard assessment of bathing waters affected by combined sewer overflows
title_sort chapter modeling of flow patterns and microbiological parameters for hazard assessment of bathing waters affected by combined sewer overflows
topic Overflow
Bathing waters
Water quality
Flow pattern
Bacterial dispersion
topic_facet Overflow
Bathing waters
Water quality
Flow pattern
Bacterial dispersion
url ONIX_20250801T173835_9791221505566_270
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