Marie Hedayati
PhD student at Department of Earth Sciences; Program for Air, Water and Landscape Sciences; Hydrology
- Telephone:
- +46 18 471 22 72
- E-mail:
- marie.hedayati@geo.uu.se
- Visiting address:
- Geocentrum, Villavägen 16
752 36 Uppsala - Postal address:
- Villavägen 16
752 36 UPPSALA
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Biography
Marie Hedayati is a PhD student in Hydrogeology at Uppsala University. She received her master degree in Hydrogeology from Uppsala University in 2014. Her research is focused on modeling and model development of so-called coupled hydrogeochemical processes in deep geological systems, both natural and as influenced by humans.
Research
She is involved in the following research projects:
- CO2Quest: Impact of quality of CO2 on storage and transport
- Fracrisk: Furthering the knowledge base for reducing the environmental footprint of shale gas development
- COSC1: Developing a geohydrogeological and geohydromechanical model for the Swedish deep borehole COSC-1 Site.
- Reduced diffusion and enhanced retention of multiple radionuclides from pore structure characterization of barrier materials for enhanced repository performance
Publications
Recent publications
- Characterizing CO2 residual trapping in-situ by means of single-well push-pull experiments at Heletz, Israel, pilot injection site (2020)
- Impacts of SO2 gas impurity within a CO2 stream on reservoir rock of a CCS pilot site (2018)
- Study of CO2 Residual Trapping In-Situ – Results from Push- Pull Experiments at Heletz (Israel) Pilot CO2 Injection Site (2018)
- Transport and retention of carbon-based engineered and natural nanoparticles through saturated porous media (2016)
- Effect of organic matter on the transport and retention of TiO2 nanoparticles in saturated porous media (2015)
All publications
Articles
- Characterizing CO2 residual trapping in-situ by means of single-well push-pull experiments at Heletz, Israel, pilot injection site (2020)
- Impacts of SO2 gas impurity within a CO2 stream on reservoir rock of a CCS pilot site (2018)
- Transport and retention of carbon-based engineered and natural nanoparticles through saturated porous media (2016)
Conferences
- Study of CO2 Residual Trapping In-Situ – Results from Push- Pull Experiments at Heletz (Israel) Pilot CO2 Injection Site (2018)
- Effect of organic matter on the transport and retention of TiO2 nanoparticles in saturated porous media (2015)
- Transport of carbon-based nanoparticles in saturated porous media (2015)