Essentials of Rock Physics Course – Stavanger
Eleanor Oldham will be heading to Stavanger, Norway, for 22-25th April to deliver the Essentials of Rock Physics and Seismic Amplitude Interpretation course.
Eleanor Oldham will be heading to Stavanger, Norway, for 22-25th April to deliver the Essentials of Rock Physics and Seismic Amplitude Interpretation course.
Understanding flow physics is important in modelling the movement of CO₂ underground. Continue reading to learn more about these modelling techniques, focusing on invasion percolation.
We have announced the winner of the competition we held at BEOS 2024 to win a copy of Phil Copestake's Jurassic book and an ammonite. Continue reading to find out who the lucky person is!
The fluid dynamics of CO₂ differ significantly from those of hydrocarbons due to variations in density, viscosity, and phase behaviour. A nuanced understanding of CO₂ flow physics is imperative for effective modelling and prediction. Continue reading our latest blog to find out more.
Eleanor Oldham will be heading to Stavanger, Norway, for 22-25th April to deliver the Essentials of Rock Physics and Seismic Amplitude Interpretation course.
Understanding the properties of supercritical CO₂ is pivotal for accurate subsurface modelling. Read our latest blog post to learn more about this unfamiliar phase.
Only 4 days left until the BEOS show in London, where Merlin will be showcasing the East October Prospect, a ‘nugget’ located in the Gulf of Suez. Continue reading to find out more.
Knowledge gathered from decades of hydrocarbon exploration is vital to help us with our efforts in Carbon Capture and Storage (CCS). However, despite many parallels, there is a significant difference between natural migration of hydrocarbons and the flow of injected CO₂ underground. Robust modelling and simulation of CO₂ plumes is therefore required to fully understand fluid movements to ensure the safe and efficient storage of CO₂. This article looks at these similarities and differences and what it all means for the advancement of CCS going forward.
Bill Wilks, Eleanor Oldham and Georgina Lockham will be attending BEOS 2024! Come and say hello, we will be located at booth 46. Continue reading to find out more about the conference.
In her third and final article on rock physics for CCS, Eleanor Oldham discusses the pitfalls of seismic trace modelling for CCS workflows. The article focuses on how fluids are parametrised and how fluid substitution for CO₂ differs from hydrocarbons. Continue reading to learn more.
Following on from last week's blog, Eleanor Oldham continues to discuss the uses of Rock Physics for CCS with her latest article on 4D Seismic and Inversion. Learn about how 4D seismic can be used to visualise the movement of a CO₂ plume through time, how rock physics workflows can be utilised to make sure 4D surveys will be cost effective, and how seismic inversion provides a useful method of relating seismic amplitudes to CO₂ saturations and/or pressure increase.