Thursday 10 December, 15:00 - 16:00 CET
Welcome to this very special delivery of our EAGE e-Summit series! As it's December, we will be looking back, in a live session, to the last twelve months.
How has Covid-19 affected your academic work and career outlooks? Will it have a lasting effect on the way we learn and network?
Alexander Jüstel, RWTH Aachen
Alexander concluded his Bachelor studies in Geosciences from Bonn University in August 2016. Thereafter, he spent one year at the UiT – Norways Arctic University in Tromsø, Norway majoring in Geology. During this time, he also took two courses in Spitzbergen/Svalbard. He started his master studies at RWTH Aachen University in April 2018 and concluded them in August 2020 with a Master of Science RWTH in the field of Applied Geosciences with specialization in Energy and Mineral Resources. Read more
Myrna Staring, Fugro
Myrna finished her PhD degree in Applied Geophysics at Delft University of Technology this year and started her job as a Technologist at Fugro. Her PhD was on the field data application of Marchenko methods and she is currently working on seismic methods for near surface characterization. As President of the Dutch section of EAGE Women in Geoscience & Engineering, she organizes a range of webinars and workshops aimed at empowering and retaining women in the geoscience & engineering world.
Valérie Krampe, ETH Zürich
Valérie started working as a PhD student at ETH Zürich in 2018. Prior to that, she studied Geophysics in Karlsruhe and developed there a strong interest in numerical simulations and especially in full waveform inversion. Her current research focuses on the optimization of acquisition designs for seismic full waveform inversion.
Rumbidzai Nhunduru, Heriot-Watt University
Rumbidzai is a subsurface flow PhD researcher in the Research Centre for Carbon Solutions (RCCS) at Heriot-Watt University. Her research focuses on investigating multi-phase flow and transport in porous media at the pore-scale for CCS and EOR applications. Her areas of expertise are microfluidics and direct numerical simulations (pore-scale modelling).