3 dagen geleden - Academic Medical Center (AMC) - Amsterdam
You will initiate emerging, cutting-edge genome modification technologies across the AMC/VUmc alliance, and advance our expertise in functional cancer genomics…
Developing a model for foam applicable to a wide variety of fracture geometries
The candidate will conduct research on foam for Enhanced Oil Recovery (EOR), specifically on spontaneous foam generation and flow, and foam mobility, in fractured geological formations. The research will focus on laboratory experiments in a variety of model fractures to represent the range of fracture geometries encountered in nature, followed by numerical modelling of the results. Foam is a promising means of controlling gas and liquid flow in geological formations in processes for enhanced oil recovery and aquifer remediation. It is difficult, though, to observe foam directly in opaque geological fractures and to extrapolate results from one fracture to another. Recently, we developed a set of model fractures in glass with a wide range of geometrical properties and modelled trapping and flow in these fractures. Foam generation, propagation, bubble size and mobility can all be observed directly in these fractures. Experimental studies are exploring the mechanisms of foam generation and foam mobility in the model fractures. The candidate will work on extending these model fractures to longer lengths (at least 1 m), in order to verify that foam has reached local steady state, and to combine the results for all the various geometries in one overall model for foam mobility as a function of fracture aperture, roughness, and correlation scales for roughness along the fracture. The ultimate goal is a model for foam in natural fractures that can be applied widely to fractured geological formations with a wide variety of fracture geometries.
Applicants should have a Master of Science degree in a quantitative science or engineering field, as well as experience and demonstrated aptitude in experimental work, and an analytical approach to problem-solving. Moreover, the candidate should be a good communicator, have broad interests and learn quickly. The candidate should also possess excellent writing and verbal communication skills in English.
Delft University of Technology (TU Delft) is a multifaceted institution offering education and carrying out research in the technical sciences at an internationally recognised level. Education, research and design are strongly oriented towards applicability. TU Delft develops technologies for future generations, focusing on sustainability, safety and economic vitality. At TU Delft you will work in an environment where technical sciences and society converge. TU Delft comprises eight faculties, unique laboratories, research institutes and schools.
Civil Engineering & Geosciences
The Department of Geoscience and Engineering resides within the Faculty of Civil Engineering and Geosciences and encompasses five sections: Applied Geology, Applied Petrophysics and Geophysics, Geo-Engineering, Resource Engineering, and Petroleum Engineering. Within the Department there is considerable scope and encouragement for interdisciplinary research.
PhD candidates, post-docs and staff in the Petroleum Engineering section cooperate in a collegial atmosphere in a fundamental research programme directed towards developing cutting-edge technology for production, storage and remediation of underground fluid resources, including petroleum and natural gas, geothermal resources, groundwater, and sequestration of CO2. PhD candidates are stimulated to present their research at international conferences, to publish in high-ranked scientific journals, and to form an international professional network. Graduates of the section find employment in the petroleum industry and related fields and in the academic world.
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