Students
| Student Name | Photo | University | University Level | Year | Research Project | Axis | Industrial Partner |
|---|---|---|---|---|---|---|---|
| Alarie, Hugo |  |  | Ph.D. | Study of the toxicity of trace organic compounds by the study of the metabolite of the water flea (D. Magna) | Axis 1 – Development of new analytical methods | ||
| Alokpa, Komla |  | | Ph.D. | 2019-2022 | Formation of a biocatalyst by immobilization of laccase and its use in a continuously operated fixed bed reactor for the removal of active pharmaceutical products (PhACs) in municipal and hospital wastewater | Axis 3 – Development of innovative and ecological technologies adapted to decentralized sanitation |  |
| Ardila, Andres Felipe |  |  | Ph.D. | 2020-2023 | Optimization tools for monitoring contaminants in drinking water | Axis 2 – Development of new concepts and technologies to improve existing water and wastewater decontamination systems for urban communities |  |
| Bharti |  |  | Ph.D. | 2018-2021 | Production of polyhydroxyalkanoates (PHA) using pulp and paper mill activated sludge (PPMAS) as a raw material | Axis 2 – Development of new technologies to improve existing water and wastewater decontamination systems |  |
| Boyle, Kellie |  | Ph.D. | 2019-2022 | ||||
| Cerutti, Jérôme |  |  | Ph.D. | 2017-2020 | Identify and implement actions to protect sources of drinking water on the territory: Explore and use knowledge and past experiences. | Axis 3 – Development of innovative and ecological technologies adapted to decentralized sanitation | |
| Compaore, Cynthia |  | | Ph.D. | 2020-2023 | Preparedness of water supply systems to the impacts of climate changes on source and drinking water | Axis 2 – Development of new concepts and technologies to improve existing water and wastewater decontamination systems for urban communities |  |
| Davoodi, Seyyed Mohammadreza |  | | Ph.D. | 2018-2021 | Concomitant production of enzymes and degradation of contaminants in wastewater | Axis 2 – Development of new technologies to improve existing water and wastewater decontamination systems |  |
| El Yagoubi, Younes |  | | Ph.D. | 2019-2022 | Studies on the potential of fungal enzymes to remove traces of organic contaminants in wastewater | Axis 1 – Development of new analytical methods | |
| Erdem, Kemal Fahir |  | | M.Sc. | 2019-2021 | Fate and impact of per and polyfluoroalkyl substances (PFAS) during treatment and after land application of biosolids | Axis 2 – Development of new technologies to improve existing water and wastewater decontamination systems |  |
| Fakhari, Milad |  | | Ph.D. | 2019-2022 | Assessment of the contribution of groundwater to the quantity, quality and temperature of surface water in the rivers of northern Quebec | Axis 1 – Development of new analytical methods |  |
| Favet, Thomas |  | | Ph.D. | 2017-2020 | Development of new photoanodes based on chemically manufactured TiO2 nanotubes for photoelectrochemical water applications | ||
| Gao, Jianan |  | | Ph.D. | 2017-2020 | Emerging disinfection byproducts in ozonated drinking water | Axis 1 – Development of new analytical methods | |
| Garcia Lopez, Cristian-Ruben | | M.Sc. | 2019-2021 | Methods for Evaluating the Sources of Drinking Water Sources: The Case of Northern Communities in Ninaviq | Axis 1 – Development of new analytical methods |  |
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| Gerrior, Daniel |  |  | M.Sc. | Life cycle assessment of a new integrated corn ethanol biorefinery | Axis 5 – Recovery and reuse of resources from wastewater | ||
| Guérette, Cassandra |  | | M.Sc. | 2019-2021 | Fate of pharmaceuticals in hospital wastewater after treatment by an advanced oxidation process | Axis 1 – Development of new analytical methods |  |
| Gholami Shirkooh, Majidi |  | | Ph.D. | 2018-2021 | Modeling and optimization of electrochemical processes in wastewater treatment using artificial neural networks (ANNs) | Axis 2 – Development of new technologies to improve existing water and wastewater decontamination systems |  |
| Ibsaine, Fatima |  | | Ph.D. | 2019-2022 | Study of the valorization potential of aluminosilicates generated during the extraction of lithium by the production of zeolites usable for commercial purposes | Axis 6 – Use of research equipment to scale up innovative processes |  |
| Khajvand, Mahdieh |  | | Ph.D. | 2020-2023 | Treatment of laundry wastewater by using electrochemical, adsorption, and membrane processes | Axis 5 – Recovery and reuse of resources from wastewater |  |
| Kiendrebeogo, Marthe | | Ph.D. | 2019-2022 | Degradation of MPs and NPs in the treated water leaving the treatment plants by photoelectro and photo-catalytic techniques | Axis 4 – Development of integrated approaches using renewable energy sources |  |
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| Kumar, Sushil |  | | Ph.D. | 2019-2022 | Development of a hybrid process for the decontamination of reuse of wastewater from commercial laundries | Axis 2 – Development of new technologies to improve existing water and wastewater decontamination systems | |
| Kumari, Anita |  | | Ph.D. | 2018-2021 | PHA production using different waste substrates as a carbon source | Axis 3 – Development of innovative and ecological technologies adapted to decentralized sanitation | |
| Liu, Zhen |  |  | Ph.D. | 2018-2021 | Removal of natural organic matter by biological ion exchange resin | Axis 3 – Development of innovative and ecological technologies adapted to decentralized sanitation | |
| Maleki, Mahnoush |  | | Ph.D. | 2019-2022 | Control of hydraulic variables for water quality management | Axis 2 – Development of new technologies to improve existing water and wastewater decontamination systems | |
| Malhotra, Amitesh |  | | Ph.D. | 2017-2020 | Development of innovative and sustainable microalgae-based wastewater treatment technologies | ||
| Miri, Saba | | Ph.D. | 2019-2022 | Biodegradation of xylene in groundwater and soil | Axis 3 – Development of innovative and ecological technologies adapted to decentralized sanitation |  |
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| Nayrac, Nicolas |  | | Ph.D. | 2019-2022 | Quantification and fate of commercial polymers in the aquatic environment | Axis 1 – Development of new analytical methods |  |
| Ortiz, Christian |  | | Ph.D. | 2020-2023 | Modeling the temporal variability of contaminants from surface drinking water sources related to climate | Axis 2 – Development of new concepts and technologies to improve existing water and wastewater decontamination systems for urban communities | |
| Orton, Aba Marie |  | | Ph.D. | 2019-2022 | Optimization of the purification of lithium extracted from spodumene by the Nemaska Lithium process and reuse of process water | Axis 6 – Use of research equipment to scale up innovative processes | |
| Ouarda, Yassine |  | | Ph.D. | 2017-2020 | Source removal of drug residues from hospital wastewater: an innovative approach to treating emerging contaminants | ||
| Pandey, Aishwarya |  | | Ph.D. | 2019-2022 | Generation of high PHA producing wastewater sludge native strain through horizontal gene transfer | Axis 5 – Recovery and reuse of resources from wastewater | |
| Pichon, Loïck |  | | Ph.D. | 2020-2023 | Development of new nanostructured electrodes of n-Ti4O7 and n-C by plasma processes for the development of advanced electrocatalytic processes for the degradation of persistent organic pollutants (POPs) in water | Axis 2 – Development of new concepts and technologies to improve existing water and wastewater decontamination systems for urban communities | |
| Pohkrel, Sameer |  | | Ph.D. | Recovery method optimization for PHA produced using pulp and paper activated sludge | Axis 5 – Recovery and reuse of resources from wastewater | |
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| Roy, Dany |  | | Ph.D. | 2017-2020 | Development of an innovative BRM technology for the treatment of leachates from static pile composting processes | |
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| Sebastian, Joseph |  | | Ph.D. | 2018-2021 | Bioproduction of fumaric acid and its derivatives using agro-industrial residues as raw material | Axis 5 – Recovery and reuse of resources from wastewater | |
| Souidi, Rania |  | | M.Sc. | Fertilizer recovery from wastewater and sludge | Axis 5 – Recovery and reuse of resources from wastewater | ||
| Tardif, Françoise |  | | M.Sc. | 2018-2020 | Travel time and water flow in a context of source protection for drinking water | Axis 3 – Development of innovative and ecological technologies adapted to decentralized sanitation | |
| Yadav, Bhoomika |  | | Ph.D. | 2019-2022 | Recovery of microbial proteins in the production of polyhydroxyalkanoates (PHAs) from activated pulp and paper sludge | Axis 5 – Recovery and reuse of resources from wastewater | |
For the names and projects of our graduates and former interns