February 2021, s::can is excited to invite you to following webinar:
Presenters: Benjamin Buysschaert, FARYS – Belgium; Jordi Raich, s::can Iberia – Spain; Philipp Proksch, University of Natural Resources and Life Sciences – Austria
Moderator: Elisabeth Ebner, s::can
Date: February 11, 2021, 3 – 4 pm CET
Topic: Are you interested in learning about three different pipe::scan(Se abre en una nueva pestaña o ventana) applications in three countries?
During this webinar you will learn from our speakers where and how they are using pipe::scan systems, which challenges they faced and which benefits they gain from using a smart water quality monitoring solution. At the end of the session you will have a chance to ask questions that might occur during the webinar.
About the applications and the presenters:
Monitoring Belgian drinking water quality from source to tap with the pipe::scan.
Benjamin Buysschaert graduated in 2014 as a bioscience engineer and pursued a PhD in environmental microbiology at the Ghent University. In 2018 he joined the water utility FARYS as a project engineer. With his scientific background he manages both innovative projects in collaboration with research institutes and water reuse projects.
Multiple pipe::scans monitoring water quality allow a smart water operation of the distribution network.
The importance of continuous online water quality monitoring in drinking water production, storage and distribution in regard to climate change, observed in Austria.
Philipp Proksch has a background in Molecular Biology and Civil Engineering and Water Management. He works at the Institute of Sanitary Engineering and Water Pollution Control (SIG) at the University of Natural Resources and Life Sciences in Vienna, starting as a research assistant in 2017. Since early 2020 he has been leading the institutes microbiology lab, which strongly emphasizes the characterization of bacterial communities in drinking water resources using flow cytometry and DNA-sequencing methods. Together with s::can several projects have been conducted using s::cans water monitoring methods and Online-Flow-Cytometry side by side.