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Dear reader,
Welcome to the last issue of e-Refinery newsletter in 2022. This edition offers our new collaborations, publications, vacancies and activities. We are looking forward to expanding the scope of our newsletter to include more e-Refinery related news from all involved faculties. If you are interested in contributing, please let us know. Enjoy reading!
Maryam Alimoradi Jazi |
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| Partnership between e-Refinery and HyET Group to develop low-carbon technologies |
| e-Refinery will work with HyET E-Trol and HyET NoCarbon to develop and scale up technologies for electrolysis and carbon capture and utilisation. |
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| NWO Grant for e-HEAT: understanding and controlling heat to enable large-scale electrolysers |
| The grant from NWO's Open Technology Programme has been awarded to Jurriaan Peeters' e-HEAT project at TU Delft. |
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| David Vermaas about filtering CO2 from seawater in podcast BNR Eyeopeners |
David Vermaas is one of three researchers speaking in this podcast. He talks about how to take CO2 out of the air instead of trapping it in chimneys and how this could lead to a CO2-neutral society by 2050.
Podcast is in Dutch.
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| Meet Ana Somoza-Tornos |
| Ana Somoza-Tornos joined the Department of Chemical Engineering (TNW) as an assistant professor in August 2022. From her expertise in sustainable chemical processes, she is also involved in e-Refinery. She introduces herself. |
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| International interest in the e-Refinery |
| That the work of e-Refinery does not go unnoticed is shown by the amount of requests for visits and lectures. Every now and then there is an extra special request among them. |
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| Midterm meeting Electrons-to-Chemical-Bonds |
| What better way to 'get to know' each other than in a friendly competition? For E2CB, there was finally an opportunity to get together physically. |
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| Electrochemical Reduction of CO2 in Tubular Flow Cells under Gas–Liquid Taylor Flow |
| Electrochemical reduction of CO2 using renewable energy is a promising avenue for sustainable production of bulk chemicals. However, CO2 electrolysis in aqueous systems is severely limited by mass transfer, leading to low reactor performance insufficient for industrial application. This paper by Isabell Bagemihl and co-workers shows that structured reactors operated under gas–liquid Taylor flow can overcome these limitations and significantly improve the reactor performance. |
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| Vacancy in Scalable production of large-area materials with nano-precision for the energy transition |
| A Post-doc position in the group of Ruud van Ommen (TU Delft) In collaboration with prof.dr. D. Segets (Universität Duisburg-Essen, DE), Coatema Machinery (DE) & Johnson Matthey (UK) |
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