Reduction of N2O emissions from wastewater treatment plants - measurements, modeling and process optimization - Project

Reduction of N2O emissions from wastewater treatment plants - measurements, modeling and process optimization

Projekt będzie próbował określić wkład oczyszczania ścieków w całkowitą emisję N2O. Ponadto będzie stanowił znaczny wkład do identyfikacji mechanizmów emisji N2O (wraz z identyfikacją mikroorganizmów) i określenia zależności pomiędzy metodą oczyszczania ścieków a wielkością emisji.

Details

Project's acronym:

RENEMO

Financial Program Name:

Polsko-Niemiecki Program na Rzecz Zrównoważonego Rozwoju

Organization:

Narodowe Centrum Badań i Rozwoju (NCBR) (The National Centre for Research and Development)

Agreement:

WPN/7/2013 z dnia 2013-07-15

Realisation period:

2013-06-01 - 2016-09-30

Project manager:

prof. dr hab. inż. Jacek Mąkinia

Realised in:

Faculty of Civil and Environmental Engineering

External institutions participating in project:

Leibniz University of Hanover, Institute for Water Quality and Waste Management (Germany)

Project's value:

560 000.00 PLN

Request type:

International Research Programmes

Domestic:

International project

Verified by:

Gdańsk University of Technology

Papers associated with that project

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total: 3

Year 2021

Optimization of the Aeration Strategies in a Deammonification Sequencing Batch Reactor for Efficient Nitrogen Removal and Mitigation of N2O Production
Publication
- H. Al-Hazmi
- L. Xi
- J. Majtacz
- P. Kowal
- L. Xie
- J. Mąkinia
- ENVIRONMENTAL SCIENCE & TECHNOLOGY - Year 2021
In deammonification systems, nitrite-oxidizing bacteria (NOB) suppression and nitrous oxide (N2O) mitigation are two important operational objectives. To carry out this multivariable analysis of response, a comprehensive model for the N cycle was developed and evaluated against experimental data from a laboratory-scale deammonification granular sludge sequencing batch reactor. Different aeration strategies were tested, and the manipulated...

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Year 2019

Strategies for mitigating nitrous oxide production and decreasing the carbon footprint of a full-scale combined nitrogen and phosphorus removal activated sludge system
Publication
- E. Zaborowska
- X. Lu
- J. Mąkinia
- WATER RESEARCH - Year 2019
Nitrous oxide (N2O) emitted from biological nutrient removal activated sludge systems contributes significantly to the total carbon footprint of modern wastewater treatment plants. In the present study, N2O production and emissions were experimentally determined in a large-scale plant (220,000 PE) employing combined nitrogen (N) and phosphorus (P) removal. As a modelling tool, the Activated Sludge Model 2d (ASM2d) was extended...

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Year 2018

Modeling nitrous oxide production by a denitrifying-enhancedbiologically phosphorus removing (EBPR) activated sludge in thepresence of different carbon sources and electron acceptors
Publication
- K. Wiśniewski
- M. Kowalski
- J. Mąkinia
- WATER RESEARCH - Year 2018
In this study, the IWA Activated Sludge Model No. 2d (ASM2d) was expanded to identify the most important mechanisms leading to the anoxic nitrous oxide (N2O) production in the combined nitrogen (N) and phosphorus (P) removal activated sludge systems. The new model adopted a three-stage denitrification concept and was evaluated against the measured data from one/two-phase batch experiments carried out with activated sludge withdrawn...

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