In-situ carbon dioxide mineralization in basalt rocks has been identified as a scalable, fast, safe, permanent, and cost-effective method to offset the anthropogenic carbon dioxide emissions. In-situ carbon dioxide mineralization refers to underground carbon dioxide transformation to carbonate minerals in basalt reservoirs. Although current field applications achieved fast in-situ carbon dioxide mineralization, limited petrophysical criteria have been proposed to screen a potential site to implement in-situ carbon dioxide mineralization. To fill this knowledge gap, geochemical modellings were performed to find an optimal petrophysical recipe, including pressure, temperature, pH, and mineral composition, to conduct in-situ carbon dioxide min...
The potential dangers with increased concentration of CO2 in the atmosphere, such as climate changes...
CO2 capture and geological storage (CCS) is recognized as an essential technolo-gy to achieve carbon...
The world adds about 51 Gt of greenhouse gases to the atmosphere each year, which will yield dire gl...
In situ mineral carbonation is facilitated by aqueous-phase chemical reactions with dissolved CO2. E...
AbstractIn situ mineral carbonation is facilitated by aqueous-phase chemical reactions with dissolve...
Climate change is taking place due to significant emissions of greenhouse gases into the atmosphere....
Developing a method for secure sequestration of anthropogenic carbon dioxide in geological formation...
International audienceDue to their widespread distribution in the Earth’s crust, it seems likely tha...
Due to their widespread distribution in the Earth’s crust, it seems likely that altered basalts coul...
Geologicalsequestration of carbon dioxide in deep reservoirs may provide alarge-scale option for red...
Atmospheric CO2 has increased 50% since the Industrial Revolution due to anthropogenic combustion of...
AbstractThe storage of large volumes of industrial CO2 emissions in deep geological formations is on...
In this work, the potential of CO2 mineral carbonation of brucite (Mg(OH)2) derived from the Mount T...
[1] Deep aquifers are potential long-term storage sites for anthropogenic CO2 emissions. The retenti...
We proposed to use volcanogenic sandstones for CO2 sequestration. Such sandstones with a relatively ...
The potential dangers with increased concentration of CO2 in the atmosphere, such as climate changes...
CO2 capture and geological storage (CCS) is recognized as an essential technolo-gy to achieve carbon...
The world adds about 51 Gt of greenhouse gases to the atmosphere each year, which will yield dire gl...
In situ mineral carbonation is facilitated by aqueous-phase chemical reactions with dissolved CO2. E...
AbstractIn situ mineral carbonation is facilitated by aqueous-phase chemical reactions with dissolve...
Climate change is taking place due to significant emissions of greenhouse gases into the atmosphere....
Developing a method for secure sequestration of anthropogenic carbon dioxide in geological formation...
International audienceDue to their widespread distribution in the Earth’s crust, it seems likely tha...
Due to their widespread distribution in the Earth’s crust, it seems likely that altered basalts coul...
Geologicalsequestration of carbon dioxide in deep reservoirs may provide alarge-scale option for red...
Atmospheric CO2 has increased 50% since the Industrial Revolution due to anthropogenic combustion of...
AbstractThe storage of large volumes of industrial CO2 emissions in deep geological formations is on...
In this work, the potential of CO2 mineral carbonation of brucite (Mg(OH)2) derived from the Mount T...
[1] Deep aquifers are potential long-term storage sites for anthropogenic CO2 emissions. The retenti...
We proposed to use volcanogenic sandstones for CO2 sequestration. Such sandstones with a relatively ...
The potential dangers with increased concentration of CO2 in the atmosphere, such as climate changes...
CO2 capture and geological storage (CCS) is recognized as an essential technolo-gy to achieve carbon...
The world adds about 51 Gt of greenhouse gases to the atmosphere each year, which will yield dire gl...