Is CCS Really So Expensive?
Results from a collaboration between SINTEF and Delft University of Technology (TU Delft), in connection with the Norwegian CCS Research Centre (NCCS), show that CCS implementation can have a minimal cost impact for end users while avoiding a significant amount of CO2 emissions.
Cement bond to rock and steel: the Achilles heel of well integrity
Portland cement is the most common material used in the construction and plugging of wells – however, cement bond to other materials is the weakest link in the well’s integrity. At the Norwegian CCS Research Centre (NCCS), new methods have been developed to measure bond strength, as well as evaluate them under more realistic field conditions.
‘Welcome Back’: NCCS Consortium Days 2021
For the first time in two years, the Norwegian CCS Research Centre (NCCS) consortium was able to meet in person for the 2021…
Salt Precipitation Experiments for Improved CO2 Storage
Authors from NCCS: Pierre Cerasi, Jelena Todorovic, Martin Raphaug and Alv-Arne Grimstad. CO2 sequestration in the subsurface should be undertaken immediately and at…
TCCS-11: A Virtual Success
Since last year’s Longship funding announcement, global interest in CO2 capture, transport and storage (CCS) technologies has never been greater. As such, the…
TCCS-11: Recognising Breakthroughs in CCS Research
Professor Marco Mazzotti from ETH Zürich is the latest winner of the SINTEF and NTNU CCS Award. He received the award during a…