Real Time Forecasting of Flows and Loads to WWTPs for Enhanced Hydraulic and Biological Capacity during Stormwater Events

Peter Alexander Stentoft, Luca Vezzaro, Vianney Courdent, Jonas Wied Pedersen, Henrik A. R. Thomsen, Peter Steen Mikkelsen, Bruno Tisserand, Cristophe Amiel

Research output: Chapter in Book/Report/Conference proceedingArticle in proceedingsResearchpeer-review

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Abstract

Advanced control of integrated urban drainage-wastewater systems can be a smart way to increase the capacity of wastewater treatment plants during stormwater events. We demonstrate tools to forecast flows and loads from the urban drainage system to a wastewater treatment plant based on online data in terms of ammonium measurements at the inflow to the plant, radar nowcasts and flow measurements. These forecasts make it possible to prepare and improve the treatment at the plant so that the risk of discharging insufficiently treated water is minimized. Hence the capacity of the wastewater treatment plant is increased.
Original languageEnglish
Title of host publicationProceedings of 10th edition of the Novatech conference
Number of pages4
Publication date2019
Publication statusPublished - 2019
Event10th edition of the Novatech conference - LyonTech la Doua EcoCampus , Lyon, France
Duration: 1 Jul 20195 Jul 2019
Conference number: 10
https://www.novatech.graie.org/a_index.php

Conference

Conference10th edition of the Novatech conference
Number10
LocationLyonTech la Doua EcoCampus
CountryFrance
CityLyon
Period01/07/201905/07/2019
Internet address

Keywords

  • Integrated control
  • Real time
  • Stochastic models
  • Stormwater
  • Water Quality

Cite this

Stentoft, Peter Alexander ; Vezzaro, Luca ; Courdent, Vianney ; Pedersen, Jonas Wied ; Thomsen, Henrik A. R. ; Mikkelsen, Peter Steen ; Tisserand, Bruno ; Amiel, Cristophe . / Real Time Forecasting of Flows and Loads to WWTPs for Enhanced Hydraulic and Biological Capacity during Stormwater Events. Proceedings of 10th edition of the Novatech conference. 2019.
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abstract = "Advanced control of integrated urban drainage-wastewater systems can be a smart way to increase the capacity of wastewater treatment plants during stormwater events. We demonstrate tools to forecast flows and loads from the urban drainage system to a wastewater treatment plant based on online data in terms of ammonium measurements at the inflow to the plant, radar nowcasts and flow measurements. These forecasts make it possible to prepare and improve the treatment at the plant so that the risk of discharging insufficiently treated water is minimized. Hence the capacity of the wastewater treatment plant is increased.",
keywords = "Integrated control, Real time, Stochastic models, Stormwater, Water Quality",
author = "Stentoft, {Peter Alexander} and Luca Vezzaro and Vianney Courdent and Pedersen, {Jonas Wied} and Thomsen, {Henrik A. R.} and Mikkelsen, {Peter Steen} and Bruno Tisserand and Cristophe Amiel",
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Stentoft, PA, Vezzaro, L, Courdent, V, Pedersen, JW, Thomsen, HAR, Mikkelsen, PS, Tisserand, B & Amiel, C 2019, Real Time Forecasting of Flows and Loads to WWTPs for Enhanced Hydraulic and Biological Capacity during Stormwater Events. in Proceedings of 10th edition of the Novatech conference. 10th edition of the Novatech conference, Lyon, France, 01/07/2019.

Real Time Forecasting of Flows and Loads to WWTPs for Enhanced Hydraulic and Biological Capacity during Stormwater Events. / Stentoft, Peter Alexander; Vezzaro, Luca; Courdent, Vianney; Pedersen, Jonas Wied; Thomsen, Henrik A. R.; Mikkelsen, Peter Steen; Tisserand, Bruno; Amiel, Cristophe .

Proceedings of 10th edition of the Novatech conference. 2019.

Research output: Chapter in Book/Report/Conference proceedingArticle in proceedingsResearchpeer-review

TY - GEN

T1 - Real Time Forecasting of Flows and Loads to WWTPs for Enhanced Hydraulic and Biological Capacity during Stormwater Events

AU - Stentoft, Peter Alexander

AU - Vezzaro, Luca

AU - Courdent, Vianney

AU - Pedersen, Jonas Wied

AU - Thomsen, Henrik A. R.

AU - Mikkelsen, Peter Steen

AU - Tisserand, Bruno

AU - Amiel, Cristophe

PY - 2019

Y1 - 2019

N2 - Advanced control of integrated urban drainage-wastewater systems can be a smart way to increase the capacity of wastewater treatment plants during stormwater events. We demonstrate tools to forecast flows and loads from the urban drainage system to a wastewater treatment plant based on online data in terms of ammonium measurements at the inflow to the plant, radar nowcasts and flow measurements. These forecasts make it possible to prepare and improve the treatment at the plant so that the risk of discharging insufficiently treated water is minimized. Hence the capacity of the wastewater treatment plant is increased.

AB - Advanced control of integrated urban drainage-wastewater systems can be a smart way to increase the capacity of wastewater treatment plants during stormwater events. We demonstrate tools to forecast flows and loads from the urban drainage system to a wastewater treatment plant based on online data in terms of ammonium measurements at the inflow to the plant, radar nowcasts and flow measurements. These forecasts make it possible to prepare and improve the treatment at the plant so that the risk of discharging insufficiently treated water is minimized. Hence the capacity of the wastewater treatment plant is increased.

KW - Integrated control

KW - Real time

KW - Stochastic models

KW - Stormwater

KW - Water Quality

M3 - Article in proceedings

BT - Proceedings of 10th edition of the Novatech conference

ER -