Modelling of Three-Phase Flow Functions for Applications in Enhanced Oil Recovery
Doctoral thesis
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https://hdl.handle.net/1956/3592Utgivelsesdato
2009-05-22Metadata
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Paper I: Holm, R.; van Dijke, M. I. J.; Geiger, S.; Espedal, M., 2009, Consistent Capillary Pressure and Relative Permeability for Mixed-wet Systems in Macroscopic Three-phase Flow Simulation. Full text not available in BORA.Paper II: Holm, R.; van Dijke, M. I. J.; Geiger, S.; Espedal, M., 2009, Three-phase flow modelling using pore-scale capillary pressures and relative permeabilities for mixed-wet systems. Full text not available in BORA.
Paper III: Holm, R.; van Dijke, M. I. J.; Geiger, S., 2009, Three-phase flow modelling using pore-scale capillary pressures and relative permeabilities for mixed-wet media at the continuum-scale. Full text not available in BORA.
Paper IV: Communications in Computational Physics 6(1), Holm, R.; Kaufmann, R.; Dale, E. I.; Aanonsen, S.; Fladmark, G. E.; Espedal, M.; Skauge, A., Constructing three-phase capillary pressure functions by parameter matching using a modified Ensemble Kalman Filter, pp. 24-48. Copyright 2009 Global-Science Press. Full text not available in BORA. The published version is available at: http://www.global-sci.com/freedownload/v6_24.pdf
Paper V: Numerical Linear Algebra with Applications 13(9), Holm, R.; Kaufmann, R.; Heimsund, B.-O.; Øian, E.; Espedal, M. S., Meshing of domains with complex internal geometries, pp. 717-731. Copyright 2006 John Wiley & Sons, Ltd. Full text not available in BORA due to publisher restrictions. The published version is available at: http://dx.doi.org/10.1002/nla.505