Staff

Émile Sylvestre

Extbase Variable Dump
'fileadmin/user_upload/tx_userprofiles/profileImages/sylvesem.jpg' (64 chars)

About Me

As a civil engineer specializing in water treatment and microbiology, my primary research interest centers on using quantitative microbial risk assessment (QMRA) to predict public health risks from exposure to pathogens in engineered water systems. I am drawn to this topic because of the intricate nature of assessing risks, which demands both specialized knowledge in microbiology and engineering, along with a foundational understanding of statistics and risk assessment procedures. The combination of complexity and practicality makes the field particularly fascinating and valuable.

For my Ph.D. at Polytechnique Montréal under Professors Michèle Prévost and Sarah Dorner, I developed approaches to evaluate microbial risks associated with weather events at drinking water treatment plants. My experience was enriched by two research stays at the KWR Water Research Institute, where I collaborated with Prof. Gertjan Medema and Dr. Patrick Smeets. After my Ph.D., I worked as a research associate with Prof. Prévost, and I am currently working in Dr. Tim Julian’s group at Eawag. This post-Ph.D. phase broadened my research to Legionella risk assessment and decentralized greywater reuse.

My research aims to identify, characterize and manage hazardous events in engineered water systems. Such events can occur at any stage of a water system, from the source to the point of use. They can be triggered by various factors, including treatment process failures or peaks in source water pathogen concentrations. Given the variable nature of pathogen concentrations, capable of causing human health effects from acute exposure, mitigating these events is a critical task. This topic takes importance as climate change amplifies extreme weather, and the rise of water scarcity demands more reuse, introducing new human exposure pathways.


[[ element.title ]]

Projects

NEST building
Sustainable urban water and wastewater management applied and implemented in the modular NEST building.
Inhalation of legionella bacteria – which thrive in warm water – can cause illness: in a new project, an Eawag-led multidisciplinary research team is investigating how the risks associated with these bacteria can best be managed.

[[ element.title ]]

[[ element.title ]]

[[ element.title ]]

[[ element.title ]]

This member of staff no longer works at Eawag. Please contact info@eawag.ch for further information.

[[ element.title ]]

[[ element.title ]]

[[ element.title ]]

[[ element.title ]]

[[ element.title ]]