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Leila Hashemi
Leila Hashemi
Scientist, Heat transfer & Fluid dynamics department, TNO
Email verificata su tno.nl - Home page
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Pore-scale modelling and sensitivity analyses of hydrogen-brine multiphase flow in geological porous media
L Hashemi, M Blunt, H Hajibeygi
Scientific reports 11 (1), 8348, 2021
1952021
Contact angle measurement for hydrogen/brine/sandstone system using captive-bubble method relevant for underground hydrogen storage
L Hashemi, W Glerum, R Farajzadeh, H Hajibeygi
Advances in Water Resources 154, 103964, 2021
1802021
A comparative study for H2–CH4 mixture wettability in sandstone porous rocks relevant to underground hydrogen storage
L Hashemi, M Boon, W Glerum, R Farajzadeh, H Hajibeygi
Advances in Water Resources 163, 104165, 2022
1002022
Microfluidics-based analysis of dynamic contact angles relevant for underground hydrogen storage
W van Rooijen, L Hashemi, M Boon, R Farajzadeh, H Hajibeygi
Advances in Water Resources 164, 104221, 2022
692022
Critical assessment of the validity of quasi-static pore network modeling in the application of underground hydrogen storage
L Hashemi, C Vuik
Advances in Water Resources 193, 104812, 2024
12024
Modelling the heat transition
M Ahsan, L van der Bijl, F Buccoliero, Y Chen, J Correia, L Hashemi, ...
2024
Hydrogen energy storage in porous media
L Hashemi
2024
# SWI2023 DHM: The Heat Transition--Mathematical Models and Optimization
M Ahsan, L van der Bijl, S Bodas, F Buccoliero, Y Chen, J Correia, ...
# SWI2023 Study Group Mathematics with Industry 2023, 2023
2023
Direct Experimental Characterization of Intrinsic Contact Angle of Pure H2 and H2-CH4 Mixtures in Contact with Brine and Reservoir Rocks
L Hashemi, M Boon, W van Rooijen, W Glerum, R Farajzadeh, ...
AGU Fall Meeting Abstracts 2021, H21D-02, 2021
2021
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
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