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  Introduces key concepts such as porous media flow, capillary pressure, permeability, and wettability. The course also covers well logging and technologies for low-carbon energy production, including COâ‚‚ capture and storage (CCS). This foundational knowledge is essential for understanding fluid behavior in subsurface reservoirs.
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  Offers hands-on training in laboratory methods used in porous media research. Students perform experiments on porosity, permeability, and displacement efficiency, and learn how to integrate experimental data into numerical models. These skills are directly applicable to thesis projects involving core analysis and flow experiments.
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  Focuses on the theoretical and computational aspects of simulating multiphase flow using models such as the black oil model. Students gain experience with simulation tools and learn to analyze complex flow scenarios, which are critical for modeling-based thesis work. 

• provides the students with a detailed insight into the physical and thermodynamic nature of hydrate as they appear as and industrial problem, as well as in nature as energy source, environmental problem and potential geohazard 

These courses are tightly integrated with the research activities of our group. Students apply what they learn in coursework directly to their thesis projects, whether through: 

• Designing and conducting experiments in our labs
• Developing and validating simulation models
• Analyzing real data from ongoing research projects
• Engaging with current literature and scientific communication 

This synergy ensures that students are well-prepared to contribute meaningfully to our research and are equipped with the skills needed for careers in academia, industry, or government.