AbstractGeological storage of CO2 is a viable option for the mitigation of greenhouse gas emissions. Formations such as saline aquifers and coal seams have distinct storage mechanisms; in saline aquifers, the CO2 is mainly stored by compression and/or dissolution in the formation fluid, whereas in coal seams, the CO2 is primarily stored by adsorption. To investigate the impact of CO2 dissolution in formation fluid on CO2 storage in coal and enhanced coalbed methane production, two scenarios are considered (1) CO2 injection and coalbed methane production for a single coal seam, (2) CO2 injection in two coal seams with an aquifer in-between while coalbed methane is produced in the upper coal seam. It is found that although CO2 dissolution in ...
Although enhanced coal bed methane recovery (ECBM) and CO2 sequestration are effective approaches fo...
Injecting carbon dioxide into deep unminable coal seams can enhance the amount of methane ...
Understanding reservoir dynamics from a geotechnical and petrophysical perspective is essential for ...
AbstractGeological storage of CO2 is a viable option for the mitigation of greenhouse gas emissions....
Studies have shown that, coal seam, an un-conventional reservoir, is considered as a promising optio...
One of the approaches suggested for sequestering CO2 is by injecting it in coal-bed methane (CBM) re...
One of the pressing problems of CO2 sequestration is to guarantee a long-term storage of carbon diox...
The steady increase of human activities over the years has led to high atmospheric concentrations of...
AbstractDeep coal-bearing formation (DCBF) has many advantages in geological CO2 storage such as lar...
AbstractEnhanced coalbed methane (ECBM) production by CO2 injection offers the potential of increasi...
CO2 emissions can be reduced by storing it in underground geologic formations such as coal seams, ma...
International audienceInjecting carbon dioxide in coal bed methane reservoirs facilitates the recove...
International audienceInjecting carbon dioxide into deep unminable coal seams can enhance the amount...
High-CO2 coal seams occur in many sedimentary basins world-wide and provide natural analogues of the...
Rising atmospheric concentrations of CO2, and their role in global warming, have prompted efforts t...
Although enhanced coal bed methane recovery (ECBM) and CO2 sequestration are effective approaches fo...
Injecting carbon dioxide into deep unminable coal seams can enhance the amount of methane ...
Understanding reservoir dynamics from a geotechnical and petrophysical perspective is essential for ...
AbstractGeological storage of CO2 is a viable option for the mitigation of greenhouse gas emissions....
Studies have shown that, coal seam, an un-conventional reservoir, is considered as a promising optio...
One of the approaches suggested for sequestering CO2 is by injecting it in coal-bed methane (CBM) re...
One of the pressing problems of CO2 sequestration is to guarantee a long-term storage of carbon diox...
The steady increase of human activities over the years has led to high atmospheric concentrations of...
AbstractDeep coal-bearing formation (DCBF) has many advantages in geological CO2 storage such as lar...
AbstractEnhanced coalbed methane (ECBM) production by CO2 injection offers the potential of increasi...
CO2 emissions can be reduced by storing it in underground geologic formations such as coal seams, ma...
International audienceInjecting carbon dioxide in coal bed methane reservoirs facilitates the recove...
International audienceInjecting carbon dioxide into deep unminable coal seams can enhance the amount...
High-CO2 coal seams occur in many sedimentary basins world-wide and provide natural analogues of the...
Rising atmospheric concentrations of CO2, and their role in global warming, have prompted efforts t...
Although enhanced coal bed methane recovery (ECBM) and CO2 sequestration are effective approaches fo...
Injecting carbon dioxide into deep unminable coal seams can enhance the amount of methane ...
Understanding reservoir dynamics from a geotechnical and petrophysical perspective is essential for ...