The oxidation of fossil fuels produces billions of tons of anthropogenic carbon dioxide (CO 2) emissions from stationary and nonstationary sources per annum, contributing to global …
Carbon capture and sequestration are feasible techniques for achieving net-zero carbon emissions. In this respect, the storage capacity and fluid flow dynamics during carbon geo …
CO2 capture and storage (CCS) is an important method to mitigate greenhouse gas (GHG) emissions by injecting CO2 into deep geological formations such as depleted hydrocarbon …
CO2 injection into geological reservoirs is considered as a promising technology to improve oil recovery from oil reservoirs and to reduce greenhouse gas emissions. However, due to …
Deep saline aquifers are among the most favorable geological sites for short-and long-term carbon geosequestration. Injection of CO2 into aquifers causes various hydro-physical …
Carbon geo-sequestration (CGS) is considered a mitigation technology for removing harmful CO2 accumulations from the environment contributing toward a low-carbon future. One of …
F Ali, BM Negash, S Ridha, H Abdulelah - Earth-Science Reviews, 2023 - Elsevier
Geological carbon storage (GCS) in deep saline aquifers can potentially lessen the detrimental environmental effects of carbon dioxide (CO 2). However, the long-term viability …
In this study, we have investigated the effect of various organic acids (hexanoic, lauric, stearic, and lignoceric acid) and nanoparticles (silica and alumina) on various geo-storage …
CO 2-rock wettability is a key factor which determines the fluid dynamics and CO 2 geo- storage capacity. However, the full understanding of real reservoir CO 2-wettability is yet to …