This discussion will include a review pore-scale imaging and modeling, with an emphasis on X-ray methods
to produce three-dimensional images of rocks followed by the simulation of
single and multiphase flow and transport through them.Successes of this approach in predicting
flow properties are shown, together with an assessment of the potential of
the technology, current limitations, and challenges for the future.
Martin Blunt joined Imperial in June 1999 as a Professor of Petroleum Engineering. He served as Head of the Department of Earth Science and Engineering from 2006-2011. Previous to this he was Associate Professor of Petroleum Engineering at Stanford University in California. Before joining Stanford in 1992, he was a research reservoir engineer with BP in Sunbury-on-Thames. He holds MA and PhD (1988) degrees in theoretical physics from Cambridge University.
Professor Blunt's research interests are in multiphase flow in porous media with applications to oil and gas recovery, contaminant transport and clean-up in polluted aquifers and geological carbon storage. He performs experimental, theoretical and numerical research into many aspects of flow and transport in porous systems, including pore-scale modeling of displacement processes and large-scale simulation using streamline-based methods. He has written over 200 scientific papers and is on the editorial boards of three international journals. In 2011 he was awarded the Uren Award from the Society of Petroleum Engineers for outstanding contributions to the technology of petroleum engineering made before the age of 45. Biography:
Herman Lemmens is a product manager with FEI, based in the Netherlands. His current role is with translating the needs for imaging in the O&G industry into product specifications for new electron microscopy tools. Herman’s primary areas of interest are imaging of porosity in the organic phases in shale, integrating imaging at different length scales and relating mineral textures to fracturing efficiency. Herman represents FEI in the Digital Core Consortium at Australian National University. This consortium develops imaging and analysis technology for characterizing core via microCT to FIB/SEM scales. Herman holds a PhD in Physics from the University of Antwerp. His thesis focused on phase transformations and microstructure in tridymite and perovskite type minerals, studied by transmission electron microscopy. His email address is firstname.lastname@example.org