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个人简介
We study the fundamentals of reactive transport processes in porous media, with application ranging from geo-energy applications to industrial gas separations. As such, we deal with systems that possess distinct degrees of disorder in both their chemical and morphological characteristics. We work with a range of materials, extending across commercial adsorbents, rocks, cement and polymers. The research work is thus highly interdisciplinary and develops at the interface between chemical engineering and other disciplines, including material and earth sciences.
We shed light on the mechanisms that govern fluid phase-behaviour as well as single- and multi-phase flows in porous systems by using experiments, mathematical analysis and numerical models across a range of length scales. In this endeavour, we also make use of imaging techniques, such as x-ray tomographic microscopy, optical microscopy and positron emission tomography, to unravel processes that are “buried” within these opaque porous media. We deploy a range of computational methods to reconcile the experimental observations, including models that describe processes in individual pores to formulations that work at the continuum-scale and are therefore better suited to the study of large-scale processes. A major focus of this research is reducing CO2 emissions from industrial processes, including oil and gas extraction from the subsurface and power generation, by incorporating technologies, such as Carbon Capture and Storage (CCS).
We shed light on the mechanisms that govern fluid phase-behaviour as well as single- and multi-phase flows in porous systems by using experiments, mathematical analysis and numerical models across a range of length scales. In this endeavour, we also make use of imaging techniques, such as x-ray tomographic microscopy, optical microscopy and positron emission tomography, to unravel processes that are “buried” within these opaque porous media. We deploy a range of computational methods to reconcile the experimental observations, including models that describe processes in individual pores to formulations that work at the continuum-scale and are therefore better suited to the study of large-scale processes. A major focus of this research is reducing CO2 emissions from industrial processes, including oil and gas extraction from the subsurface and power generation, by incorporating technologies, such as Carbon Capture and Storage (CCS).
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Physical Review Fluidsno. 4 (2024)
ENERGY & FUELSno. 4 (2024): 2844-2854
Communications Engineeringno. 1 (2024): 1-10
Anne Streb,David Danaci,Ryan Lively,Philip Llewellyn, Akihiko Matsumoto,Marco Mazzotti,Ronny Pini,Benoit Coasne
Adsorptionpp.1-11, (2024)
Energy & fuels : an American Chemical Society journalno. 4 (2024): 2844-2854
Separation and Purification Technology (2023): 123990-123990
Neutron Newsno. 2 (2023): 8-9
CHEMICAL ENGINEERING RESEARCH & DESIGN (2023): 82-90
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