A novel Deep Reactive Ion Etched (DRIE) glass micro-model for two-phase flow experiments
Publication date
2012
Authors
Karadimitriou, N.K.
Joekar-Niasar, V.
Hassanizadeh, S.M.
Kleingeld, P.J.
Pyrak-Nolte, L.J.
Editors
Advisors
Supervisors
Document Type
Article
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(c) UU Universiteit Utrecht, 2012
Abstract
In the last few decades, micro-models have become popular experimental tools for two-phase flow
studies. In this work, the design and fabrication of an innovative, elongated, glass-etched micromodel
with dimensions of 5 6 35 mm2 and constant depth of 43 microns is described. This is the first
time that a micro-model with such depth and dimensions has been etched in glass by using a dry
etching technique. The micro-model was visualized by a novel setup that allowed us to monitor and
record the distribution of fluids throughout the length of the micro-model continuously. Quasi-static
drainage experiments were conducted in order to obtain equilibrium data points that relate capillary
pressure to phase saturation. By measuring the flow rate of water through the flow network for
known pressure gradients, the intrinsic permeability of the micro-model’s flow network was also
calculated. The experimental results were used to calibrate a pore-network model and test its validity.
Finally, we show that glass-etched micro-models can be valuable tools in single and/or multi-phase
flow studies and their applications