Add to ORKGThis study involves the effect of organic acids on wettability for CO2 trapping capacities in deep saline aquifers and depleted hydrocarbon reservoirs. The minerals chosen for this study included calcite and quartz, the organic acids chosen were hexanoic acid (C6), lauric acid (C12), stearic acid (C18), and lignoceric acid (C24). The results showed that the mineral/ CO2/brine contact angle increased in the presence of organic acids, implying that rock is more CO2-wet, hence less trapping capacity
Interactions between injected CO2, brine, and rock during CO2 sequestration in deep saline aquifers ...
CO 2 and CH 4 wettabilities of organic-rich shale are important physicochemical parameters that sign...
Within the context of global warming, Carbon Dioxide (CO2) capture and its utilization in oil recove...
A small concentration of organic acid in carbon dioxide (CO2) storage formations and caprocks could ...
Hypothesis: Millions of tons of CO2 are stored in CO2 geological storage (CGS) formations (depleted ...
Wettability of CO 2 -brine-mineral systems plays a vital role during geological CO 2 -storage. Resid...
Carbon geo sequestration (CGS) is considered one of the promising approaches to reducing anthropogen...
AbstractChanges in wettability have been quantified by measuring the CO2 contact angle on some selec...
Wettability of oil-brine-carbonate system is an important petro-physical parameter, which governs su...
The underground geo-storage of carbon dioxide (CO2) is an essential component of the carbon capture ...
Wettability alteration is an important method for increasing oil recovery from oil-wet carbonate res...
In this study, we have investigated the effect of various organic acids (hexanoic, lauric, stearic, ...
This work is a collection of experimental wettability data of various rock/CO2/brine combinations in...
Wettability is a key reservoir characteristic influencing geological carbon sequestration (GCS) proc...
The wetting characteristics of CO2 in rock are of vital importance in carbon geo-storage as they det...
Interactions between injected CO2, brine, and rock during CO2 sequestration in deep saline aquifers ...
CO 2 and CH 4 wettabilities of organic-rich shale are important physicochemical parameters that sign...
Within the context of global warming, Carbon Dioxide (CO2) capture and its utilization in oil recove...
A small concentration of organic acid in carbon dioxide (CO2) storage formations and caprocks could ...
Hypothesis: Millions of tons of CO2 are stored in CO2 geological storage (CGS) formations (depleted ...
Wettability of CO 2 -brine-mineral systems plays a vital role during geological CO 2 -storage. Resid...
Carbon geo sequestration (CGS) is considered one of the promising approaches to reducing anthropogen...
AbstractChanges in wettability have been quantified by measuring the CO2 contact angle on some selec...
Wettability of oil-brine-carbonate system is an important petro-physical parameter, which governs su...
The underground geo-storage of carbon dioxide (CO2) is an essential component of the carbon capture ...
Wettability alteration is an important method for increasing oil recovery from oil-wet carbonate res...
In this study, we have investigated the effect of various organic acids (hexanoic, lauric, stearic, ...
This work is a collection of experimental wettability data of various rock/CO2/brine combinations in...
Wettability is a key reservoir characteristic influencing geological carbon sequestration (GCS) proc...
The wetting characteristics of CO2 in rock are of vital importance in carbon geo-storage as they det...
Interactions between injected CO2, brine, and rock during CO2 sequestration in deep saline aquifers ...
CO 2 and CH 4 wettabilities of organic-rich shale are important physicochemical parameters that sign...
Within the context of global warming, Carbon Dioxide (CO2) capture and its utilization in oil recove...