Wastewater

Optimise and overcome new challenges

The wastewater infrastructure in Switzerland is worth 125 billion Swiss francs. Nine hundred treatment plants clean the country’s wastewater around the clock. Part of the work of Eawag is to examine how this success story can be continuously optimised and tailored to suit the particular conditions in other countries, as well as to look at how to overcome new challenges

News

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Water quality reflected in trout genes

April 4, 2018

Monitoring the effects of chemicals on environmental systems with many species has always been a challenge. On behalf of the Federal Office for the Environment (FOEN), Eawag and the Ecotox Centre-EPFL investigated how the regulation of genes in fish and in single fish cells allow scientists to deduce water quality and fish health. Read more

Cocaine levels in wastewater higher than ever

March 7, 2018

In 2017, 68 cities (mostly in Europe) again took part in a large-scale project measuring drug levels in wastewater. The results for 2017 were published today by the European Monitoring Centre for Drugs and Drug Addiction (EMCDDA).  Read more

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Events

04.05.​2018,
11.00 am
Eawag Dübendorf
Nanotechnology-Enabled Water Treatment to Address Growing Challenges of the Water Energy Nexus
11.09.​2018,
9.30 am
Campus Eawag-Empa: AKADEMIE, Dübendorf, Switzerland
Waste Water as a Resource – trend-setting technologies for the recovery of recyclable waste

Scientific publications

Evaluation of a full-scale wastewater treatment plant upgraded with ozonation and biological post-treatments: abatement of micropollutants, formation of transformation products and oxidation by-products

To protect the ecosystem and drinking water resources in Switzerland and in the countries of the downstream catchments, a new Swiss water protection act entered into force in 2016 aiming to reduce the discharge of micropollutants from wastewater treatment plants (WWTPs). As a consequence, selected WWTPs must be upgraded by an advanced treatment for micropollutant abatement with suitable and economic options such as (powdered) activated carbon treatment or ozonation. WWTP Neugut (105′000 people equivalent) was the first WWTP in Switzerland to implement a long-term full-scale ozonation. Differing specific ozone doses in the range of 0.35–0.97 g O3/g DOC were applied to determine the adequate ozone dose to fulfill the requirements of the Swiss water protection act. Based on this assessment, a specific ozone dose of 0.55 g O3/g DOC is recommended at this plant to ensure an average abatement of the twelve selected indicator substances by ≥80% over the whole treatment. A monitoring of 550 substances confirmed that this dose was very efficient to abate a broad range of micropollutants by >79% on average. After ozonation, an additional biological post-treatment is required to eliminate possible negative ecotoxicological effects generated during ozonation caused by biodegradable ozonation transformation products (OTPs) and oxidation by-products (OBPs). Three biological treatments (sand filtration, moving bed, fixed bed) and granular activated carbon (GAC, fresh and pre-loaded) filtration were evaluated as post-treatments after ozonation. In parallel, a fresh GAC filter directly connected to the effluent of the secondary clarifier was assessed. Among the three purely biological post-treatments, the sand filtration performed best in terms of removal of dissolved organic carbon (DOC), assimilable organic carbon (AOC) and total suspended solids (TSS). The fresh activated carbon filtration ensured a significant additional micropollutants abatement after ozonation due to sorption. The relative abatement of the indicator substances ranged between 20 and 89% after 27′000 bed volumes (BV) and was still substantial at 50′000 BV. In an identical GAC filter running in parallel and being fed with the effluent of the secondary clarifier, the elimination was less efficient. Seven primary OTPs (chlorothiazide and six N-oxides) formed during ozonation could be quantified thanks to available reference standards. Their concentration decreased with increasing specific ozone doses with the concomitant formation of other OTPs. The seven OTPs were found to be stable compounds and were not abated in the biological post-treatments. They were sorbed in the fresh GAC filter, but less efficiently than the corresponding parent compounds. Two OBPs, bromate (BrO3) and N-nitrosodimethylamine (NDMA), were formed during ozonation but did not exceeded 5 μg/L for bromate and 30 ng/L for NDMA at the recommended specific ozone dose of 0.55 g O3/g DOC. NDMA was well abated in all post-treatments (minimum 41% during fixed bed filtration, maximum 83% during fresh GAC filtration), while bromate was very stable as expected.

Bourgin, M.; Beck, B.; Boehler, M.; Borowska, E.; Fleiner, J.; Salhi, E.; Teichler, R.; von Gunten, U.; Siegrist, H.; McArdell, C. S. (2018) Evaluation of a full-scale wastewater treatment plant upgraded with ozonation and biological post-treatments: abatement of micropollutants, formation of transformation products and oxidation by-products, Water Research, 129, 486-498, doi:10.1016/j.watres.2017.10.036, Institutional Repository

Identifying the best locations to install flow control devices in sewer networks to enable in-sewer storage

The activation of available in-sewer storage volume has been suggested as a low-cost flood and combined sewer overflow mitigation measure. However, it is currently unknown what the attributes for suitable objective functions to identify the best location for flow control devices are and the impact of those attributes on the results. In this study, we present a novel location model and efficient algorithm to identify the best location(s) to install flow limiters. The model is a screening tool that does not require hydraulic simulations but rather considers steady state instead of simplistic static flow conditions. It also maximises in-sewer storage according to different reward functions that also considers the potential impact of flow control device failure. We demonstrate its usefulness on two real sewer networks, for which an in-sewer storage potential of approximately 2,000 m3 and 500 m3 was estimated with five flow control devices installed.
Leitão, J. P.; Carbajal, J. P.; Rieckermann, J.; Simões, N. E.; Sá Marques, A.; de Sousa, L. M. (2018) Identifying the best locations to install flow control devices in sewer networks to enable in-sewer storage, Journal of Hydrology, 556, 371-383, doi:10.1016/j.jhydrol.2017.11.020, Institutional Repository

Soft-sensing with qualitative trend analysis for wastewater treatment plant control

Ammonia control in municipal wastewater treatment plants typically requires maintenance-intensive instrumentation. A low maintenance alternative is sought for small- to medium-scale applications. To this end, a pH-based soft-sensor is proposed to detect ammonia peak load events. This soft-sensor is based on a newly developed technique for qualitative trend analysis and is combined with a rule-based controller. The use of qualitative trend analysis makes this soft-sensor tolerant towards sensor drifts and thereby reduces the maintenance effort. The method allows controlling any process in which relative changes in the measured output are informative about the system output.
Thürlimann, C. M.; Dürrenmatt, D. J.; Villez, K. (2018) Soft-sensing with qualitative trend analysis for wastewater treatment plant control, Control Engineering Practice, 70, 121-133, doi:10.1016/j.conengprac.2017.09.015, Institutional Repository

Fate of organic microcontaminants in wastewater treatment and river systems: an uncertainty assessment in view of sampling strategy, and compound consumption rate and degradability

The growing awareness of the relevance of organic microcontaminants on the environment has led to a growing number of studies on attenuation of these compounds in wastewater treatment plants (WWTP) and rivers. However, the effects of the sampling strategies (frequency and duration of composite samples) on the attenuation estimates are largely unknown. Our goal was to assess how frequency and duration of composite samples influence uncertainty of the attenuation estimates in WWTPs and rivers. Furthermore, we also assessed how compound consumption rate and degradability influence uncertainty. The assessment was conducted through simulating the integrated wastewater system of Puigcerdà (NE Iberian Peninsula) using a sewer pattern generator and a coupled model of WWTP and river. Results showed that the sampling strategy is especially critical at the influent of WWTP, particularly when the number of toilet flushes containing the compound of interest is small (≤100 toilet flushes with compound day-1), and less critical at the effluent of the WWTP and in the river due to the mixing effects of the WWTP. For example, at the WWTP, when evaluating a compound that is present in 50 pulses.d-1 using a sampling frequency of 15-min to collect a 24-h composite sample, the attenuation uncertainty can range from 94% (0% degradability) to 9% (90% degradability). The estimation of attenuation in rivers is less critical than in WWTPs, as the attenuation uncertainty was lower than 10% for all evaluated scenarios. Interestingly, the errors in the estimates of attenuation are usually lower than those of loads for most sampling strategies and compound characteristics (e.g. consumption and degradability), although the opposite occurs for compounds with low consumption and inappropriate sampling strategies at the WWTP. Hence, when designing a sampling campaign, one should consider the influence of compounds' consumption and degradability as well as the desired level of accuracy in attenuation estimations.
Aymerich, I.; Acuña, V.; Ort, C.; Rodríguez-Roda, I.; Corominas, L. (2017) Fate of organic microcontaminants in wastewater treatment and river systems: an uncertainty assessment in view of sampling strategy, and compound consumption rate and degradability, Water Research, 125, 152-161, doi:10.1016/j.watres.2017.08.011, Institutional Repository

floodX: urban flash flood experiments monitored with conventional and alternative sensors

The data sets described in this paper provide a basis for developing and testing new methods for monitoring and modelling urban pluvial flash floods. Pluvial flash floods are a growing hazard to property and inhabitants’ well-being in urban areas. However, the lack of appropriate data collection methods is often cited as an impediment for reliable flood modelling, thereby hindering the improvement of flood risk mapping and early warning systems. The potential of surveillance infrastructure and social media is starting to draw attention for this purpose. In the floodX project, 22 controlled urban flash floods were generated in a flood response training facility and monitored with state-of-the-art sensors as well as standard surveillance cameras. With these data, it is possible to explore the use of video data and computer vision for urban flood monitoring and modelling. The floodX project stands out as the largest documented flood experiment of its kind, providing both conventional measurements and video data in parallel and at high temporal resolution. The data set used in this paper is available at doi.org/10.5281/zenodo.830513.
Moy de Vitry, M.; Dicht, S.; Leitão, J. P. (2017) floodX: urban flash flood experiments monitored with conventional and alternative sensors, Earth System Science Data, 9(2), 657-666, doi:10.5194/essd-9-657-2017, Institutional Repository
To the library

Publications for practicioners

Verfahrenstechnik Mikroverunreinigungen. www.micropoll.ch - Wissensplattform des VSA

Noch liegen in der Schweiz erst wenige grosstechnische Erfahrungen mit den Technologien zur Elimination organischer Spurenstoffe auf Abwasserreinigungsanlagen vor. Deswegen wurde 2012 die Plattform «Verfahrenstechnik Mikroverunreinigungen» gegründet und innerhalb des Verbands der Schweizer Abwasser- und Gewässerschutzfachleute (VSA) angesiedelt. Sie soll helfen, Wissen aufzubauen, den Austausch unter den Akteuren zu fördern sowie offene Fragen zu bearbeiten.
Wunderlin, P.; Joss, A.; Siegrist, H.; Abegglen, C.; Schärer, M. (2015) Verfahrenstechnik Mikroverunreinigungen. www.micropoll.ch - Wissensplattform des VSA, Aqua & Gas, 95(2), 14-19, Institutional Repository

Verstecktes Potenzial in Kläranlagendaten. Anlageoptimierung dank systematischer Datenauswertung

Auf einer durchschnittlichen Kläranlage werden Tausende Signale aufgezeichnet. Ihr Potenzial für einen besseren Anlagebetrieb ist beachtlich. Dennoch werden sie selten systematisch genutzt und ausgewertet. Dank einer spezialisierten Software ist es jetzt möglich, eine Anlage und ihre Prozesse schneller und besser zu verstehen, zu überwachen und zu optimieren.
Kaufmann, M.; Dürrenmatt, D.; Villez, K. (2015) Verstecktes Potenzial in Kläranlagendaten. Anlageoptimierung dank systematischer Datenauswertung, Aqua & Gas, 95(2), 76-81, Institutional Repository

Abwassertrennung und Dezentralisierung

Ist eine ressourcenschonende Abwasserreinigung durch Abwassertrennung und Dezentralisierung realistisch? Rund 40 international bekannte Wissenschafter und Wissenschafterinnen behandeln auf 520 Seiten in einem 2013 erschienenen Buch nuanciert diese Fragestellung. Die Editoren der Eawag diskutieren das Thema des Buches im Schweizer Kontext.
Larsen, T. A.; Udert, K. M.; Lienert, J. (2014) Abwassertrennung und Dezentralisierung, Aqua & Gas, 94(1), 52-54, Institutional Repository

Anaerobic digestion of biowaste in developing countries. Practical information and case studies

Anaerobic digestion (AD) reduces the amount of waste and generates products of value, such as biogas and nutrient-rich digestate. Contrary to the wide dissemination of digesters in rural areas where animal manure is used as feedstock and despite its apparent potential, AD still plays a negligible role as a treatment option for organic kitchen and market waste in cities of low-and middle-income countries.
This book compiles existing and recently generated knowledge on AD of urban biowaste at small and medium scale with special consideration given to the conditions prevailing in developing countries. Written for actors working in the waste and renewable energy sector, the book is divided into two parts: Part 1 focuses on practical information related to the AD supply chain (substrate-, process-, and product chain), and Part 2 presents selected case studies from around the world.
Vögeli, Y.; Lohri, C. R.; Gallardo, A.; Diener, S.; Zurbrügg, C. (2014) Anaerobic digestion of biowaste in developing countries. Practical information and case studies, 135 p, Institutional Repository

Consulting and knowledge transfer

VSA Platform for “Micropollutants Process Engineering”

Blue Diversion AUTARKY: Wastewater Treatment off the Grid

NEST - Sustainable construction and energy Technologies

VUNA - Nutrient harvesting in South Africa

Most relevant research departments

Current research projects and programs

An inter- and transdisciplinary strategic research program that strives to develop novel non-gridconnected water and sani- tation systems that can function as comparable alternatives to network-based systems.

Water and sanitation innovations for non-grid solutions (Wings)
The National Research Programme "Sustainable Water Management" (NRP 61) developed scientific foundations and methods for sustainable management of Switzerland's water resources.

Sustainable Water Management (NRP 61)

Experts

Dr. Christian Binz
Marc Böhler
  • wastewater treatment
  • micropollutants
  • ozonation
Dr. Nicolas Derlon
  • wastewater
  • wastewater treatment
  • wastewater treatment plant
Dr. Adriano Joss
  • wastewater
  • micropollutants
  • ozonation
Prof. Dr. Tove Larsen
Dr. Joao Paulo Leitao
Prof. Dr. Max Maurer
Dr. Christa McArdell
Prof. Dr. Eberhard Morgenroth
Dr. Christoph Ort
Dr. Jörg Rieckermann
Prof. Dr. Kai Udert
Dr. Kris Villez