Capillarity in Porous Media at Different Scale (RES 428)
Capillarity in Porous Media at Different Scale (RES 428)
COURSE SCHEDULE
| Code | Date | Location | price (€)* |
|---|---|---|---|
| RES 428 | 13 - 16 Jan 2026 | Online | 1980 |
| RES 428 | 17 - 20 Nov 2026 | Online | 1980 |
| RES 428 | 21 – 24 Apr 2026 | Oslo | 2640 |
| RES 428 | 13 – 16 Oct 2026 | Abu Dhabi | 2640 |
COURSE OVERVIEW
The aim of this course is to provide an in-depth understanding of capillarity in porous media across different scales. This is achieved through a systematic approach that revisits conventional definitions of capillary pressure and demonstrates how they represent special cases of a more advanced and comprehensive capillarity framework. The course thoroughly explores the role of capillarity in controlling the behavior and fate of fluids flowing through porous media.
The program begins by explaining the fundamental mechanisms of capillarity at various scales. Key concepts—such as immiscibility, fluid–fluid interfaces, surface tension, surface energy, hydrophobicity, wettability, and pressure—are introduced from a molecular perspective to establish a solid physical foundation.
Capillary pressure is then defined at the pore scale, followed by its extension to the core (Darcy) scale. Methods for measuring capillary pressure–saturation relationships are explained, and the causes and implications of capillary hysteresis are discussed. The course concludes with the introduction of an advanced theory of capillarity, providing participants with a deeper conceptual framework for understanding and modeling multiphase flow in porous media.
COURSE OUTLINE
4 days
Day 1
o Molecular considerations
o Surface tension vs interfacial tension
o Wettability, hydrophobicity, and capillarity
o Rise (or fall) of fluids in a capillary tube
o Definitions of capillary pressure
o Young’s equation and Young-Laplace equation
o Two-phase displacement in a tube
Day 2
o Concepts of representative Elementary Volume (REV) and averaging *
o Link between capillary pressure-saturation curve and pore-scale capillarity *
o Measurement of capillary pressure-saturation curves at core scale
o Features of capillary pressure-saturation curves for hydrophobic & hydrophilic porous media o Derivation of capillarity equation based on principles of rational thermodynamics
Day 3
o Lab measurement of capillary pressure curves: Porous Plate, Centrifuge, and Mercury injection methods
oCapillary pressure-saturation curves under flow conditions; dynamic capillarity theory
o Practical significance of dynamic capillarity in modelling two-phase flow
o Equations of two-phase flow
o Pore size distribution calculation
Day 4
o Equations of two-phase flow including dynamic capillarity and their behavior
o Non-equilibrium interphase heat and mass transfer during two-phase flow
in porous media
INSTRUCTOR
Professor Majid Hassanizadeh
Majid Hassanizadeh is a Professor of Petroleum Engineering with 40 years of experience in theoretical, experimental, and computational studies of flow and transport in porous media. He has authored more than 300 publications on flow and transport theory, pore-network modeling, and experimental investigations of two-phase flow.
He has served as (Associate) Editor of several leading journals, including Advances in Water Resources, Vadose Zone Journal, Water Resources Research (2004–2009), and Transport in Porous Media. He is also Co-Founder and Managing Director of the International Society for Porous Media (InterPore).
His numerous honors include an honorary Doctor-Ingenieur degree from the University of Stuttgart (2008), the von Humboldt Prize (2010), the Don and Betty Kirkham Soil Physics Award (2011), and selection as the 2012 Darcy Lecturer by the U.S. National Groundwater Association. In 2015, he was awarded the Royal Medal of Honor as Knight in the Order of the Netherlands Lion, and in 2019, he received the Robert E. Horton Medal from the American Geophysical Union.
FAQ
DESIGNED FOR
The course is designed for petroleum engineers, reservoir engineers, experimentalists, and modelers.
COURSE LEVEL
- Intermediate
LEARNING OBJECTIVES
The participants will learn:
o Origin of properties such as wettability and capillarity
o Basic formulas for capillarity at the pore scale
o Capillarity at the core scale
o Laboratory measurement of capillary pressure-saturation relationship
o Capillarity at the reservoir scale and the link to laboratory measurements
o Advanced theories of capillarity and their consequences for modelling two-phase flow through porous media
REGISTER
Registration is now OPEN!
Ph.D. students, group and early bird registrants are eligible to DISCOUNT!
For more details and registration please send email to: register@petro-teach.com
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