Recent tests conducted at the Albany Research Center have addressed the possibility of in-situ storage of carbon dioxide in geological formations, particularly in deep brackish to saline non-potable aquifers, and the formation of secondary carbonate minerals over time within these aquifers. Various rock types including Columbia River Basalt Group (CRBG) drill core samples, blocks of ultra-mafic rock and sandstone were used. A solution formulated from aquifer data, a bicarbonate salt solution, and distilled water were tested. Pressure and temperature regimens were used to mimic existing in-situ conditions, higher temperatures were used to simulate longer time frames, and higher pressures were used to simulate enhanced oil recovery (EOR) pres...
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The feasibility of sequestering CO2 in saline aquifers of Lamotte Formation sandstone was investigat...
CO2 capture and geological storage (CCS) is recognized as an essential technolo-gy to achieve carbon...
Geologicalsequestration of carbon dioxide in deep reservoirs may provide alarge-scale option for red...
The Albany Research Center (ARC) of the U.S. Dept. of Energy (DOE) has been conducting a series of m...
[1] Deep aquifers are potential long-term storage sites for anthropogenic CO2 emissions. The retenti...
In situ mineral carbonation is facilitated by aqueous-phase chemical reactions with dissolved CO2. E...
Carbonation of magnesium- and calcium-silicate minerals to form their respective carbonates is one m...
Direct aqueous mineral carbonation has been investigated as a process to convert gaseous CO2 into a ...
Atmospheric CO2 has increased 50% since the Industrial Revolution due to anthropogenic combustion of...
In situ sequestration of CO2 in mantle peridotites has been proposed as a method to alleviate the am...
The process developed for carbon dioxide sequestration utilizes a slurry of water mixed with olivine...
AbstractCombustion of fossil fuels, as well as exploration and production operations in petroleum in...
Developing a method for secure sequestration of anthropogenic carbon dioxide in geological formation...
International audienceCarbon dioxide sequestration in deep aquifers and depleted oilfields is a pote...
AbstractIn situ mineral carbonation is facilitated by aqueous-phase chemical reactions with dissolve...
The feasibility of sequestering CO2 in saline aquifers of Lamotte Formation sandstone was investigat...
CO2 capture and geological storage (CCS) is recognized as an essential technolo-gy to achieve carbon...
Geologicalsequestration of carbon dioxide in deep reservoirs may provide alarge-scale option for red...
The Albany Research Center (ARC) of the U.S. Dept. of Energy (DOE) has been conducting a series of m...
[1] Deep aquifers are potential long-term storage sites for anthropogenic CO2 emissions. The retenti...
In situ mineral carbonation is facilitated by aqueous-phase chemical reactions with dissolved CO2. E...
Carbonation of magnesium- and calcium-silicate minerals to form their respective carbonates is one m...
Direct aqueous mineral carbonation has been investigated as a process to convert gaseous CO2 into a ...
Atmospheric CO2 has increased 50% since the Industrial Revolution due to anthropogenic combustion of...
In situ sequestration of CO2 in mantle peridotites has been proposed as a method to alleviate the am...
The process developed for carbon dioxide sequestration utilizes a slurry of water mixed with olivine...
AbstractCombustion of fossil fuels, as well as exploration and production operations in petroleum in...
Developing a method for secure sequestration of anthropogenic carbon dioxide in geological formation...
International audienceCarbon dioxide sequestration in deep aquifers and depleted oilfields is a pote...
AbstractIn situ mineral carbonation is facilitated by aqueous-phase chemical reactions with dissolve...
The feasibility of sequestering CO2 in saline aquifers of Lamotte Formation sandstone was investigat...
CO2 capture and geological storage (CCS) is recognized as an essential technolo-gy to achieve carbon...
Geologicalsequestration of carbon dioxide in deep reservoirs may provide alarge-scale option for red...
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