INE2
Project: Innovative Engineering Injection Extraction systems for in-situ groundwater remediation
Collaborating departments: Civil, Geo and Environmental Engineering (TUM); Department of Environmental and Resource Engineering (DTU)
From model- and laboratory-based evidence to stakeholder involvement
Engineered groundwater remediation methods based on mixing enhancement through Engineered Injection and Extraction (EIE) systems have been recently proposed in the scientific literature. However, the application of these methods at the field-scale, particularly by practitioners, is still rare. The main reasons are both of technical and social nature. In this project, we aim at conducting two field scale feasibility studies in which we propose the use of EIE in two different hydrological, hydrogeochemical and social environments, namely (1) the contaminated capture zone of a drinking water well in Italy and (2) a bank filtration field site contaminated by treated wastewater in Jordan. Our hypothesis is that through the collection of laboratory and model-based evidence of the feasibility of the proposed remediation action, it is possible to enhance the stakeholder involvement, positive evaluation and testing of innovative remediation technologies.
The partner at the Technical University of Denmark will focus on the experimental investigation of reactive solute transport in flow-through systems also considering the specific contaminants of concerns for the two case studies and their specific hydrogeochemical conditions. The partner at TUM will focus on field-scale modeling of the proposed engineered remediation strategy and the scientific challenge will rely on EIE application under highly transient flow conditions (Italy) and under high hydrogeochemical uncertainty (Jordan). Moreover, TUM will perform an in depth stakeholder analysis, including stakeholder engagement, workshops, interviews and co-development of a graphical user interface for planning EIE.
Mohammad Alqadi, Ala Al Dwairi, Pablo Merchán-Rivera, Gabriele Chiogna (2022): Presentation of DeMa (Decision Support Software and Database for Wellfield Management) and Its Application for the Wadi Al Arab Wellfield. In: Water 2023 15 (2): p. 331; DOI: 10.3390/w15020331.
Francesca Ziliotto, M. Basilio Hazas, M. Rolle, and Gabriele Chiogna (2021): Mixing Enhancement Mechanisms in Aquifers Affected by Hydropeaking: Insights From Flow-Through Laboratory Experiments. In: Geophysical Research Letters 48 (21); DOI: 10.1029/2021GL095336.
Study project/Master thesis
- C. Cochrane (2021): Innovative Engineering Injection Extraction systems for in-situ groundwater remediation - Stakeholder Involvement in Innovative Engineering Injection Extraction Systems for In-Situ Groundwater Remediation Strategies. Study project, Technical University of Munich.
- L. Ackermann (2022): Sensitivity analysis of a numerical model representing an engineered injection-extraction system for in-situ groundwater remediation. Study project, Technical University of Munich.
- Sultan Irshidat (2022): Feasibility Study of Engineered Injection and Extraction in the Zarqa River, Jordan: Cost Estimation and Legislation. Study project, Technical University of Munich.
Conferences
- Mohammad Alqadi (2022): Development of a User-friendly Tool for Groundwater Wellfields Management. At the 39th IAHR World Congress (19-24th June, 2022). Granada, Spain, Oral presenation. DOI: 10.3850/IAHR-39WC252171192022884
- Mohammad Alqadi (2022): Decision Support Software and Database for Wellfield Management (DeMa). At Doctoral Candidates’ Day 2022. 14th of July 2022.TUM, Munich, Germany.
- Francesca Ziliotto (2022): Flow-through experiments to investigate mixing processes in transient flow fields. At Doctoral Candidates’ Day 2022. 14th of July 2022. TUM, Munich, Germany.
Team
Coordinating Postdoc
Dr. Markus Muhr
Chair of Numerical Analysis | TUM
Doctoral Candidate
Mohammed Munther Al-Qadi
Chair of Hydrology and River Basin Management | TUM
Doctoral Candidate
Francesca Ziliotto
Chair of Hydrology and River Basin Management | TUM
Principal Investigator
Prof. Dr. Gabriele Chiogna
Chair of Hydrology and River Basin Management | TUM
Principal Investigator
Associate Professor Massimo Rolle
Department of Environmental and Resource Engineering | DTU