We present an evolution of the Accelerated Weathering of Limestone (AWL) method to store CO2 in seawater in the form of bicarbonates. Buffered Accelerated Weathering of Limestone (BAWL) is designed to produce a buffered ionic solution, at seawater pH, which derives from the reaction between a CO2 stream and a powder of micron-sized calcium carbonate particles in a long tubular reactor. Addition of calcium hydroxide to buffer the unreacted CO2 before the discharge in seawater is also provided. BAWL aims to overcome the main limitations of AWL, such as the high amount of water needed, the large size of the reactor, the risk of CO2 degassing back into the atmosphere, if the ionic solution is released into shallow waters, as well as the induced...
[1] The feasibility of enhancing the absorption of CO2 from the atmosphere by adding calcium carbona...
Carbon dioxide (CO2) sequestration has emerged as a crucial action to mitigate the unprecedented cha...
Over the coming century humanity may need to find reservoirs to store several trillions of tons of c...
We present an evolution of the Accelerated Weathering of Limestone (AWL) method to store CO2 in seaw...
Carbon dioxide storage technologies are needed not only to store the carbon captured in the emission...
The reduction in CO2 emissions is a major task for the coming decades. Accelerated weathering of lim...
We describe an approach to CO2 capture and storage from the atmosphere that involves enhancing the s...
AbstractWe describe an approach to CO2 capture and storage from the atmosphere that involves enhanci...
According to modelling studies, ocean alkalinity enhancement (OAE) is one of the proposed carbon dio...
Limestone can be used to generate a sorbent suitable for CO2 capture via the reversible carbonation ...
In the first half of the second contractual year the High Pressure Flow Reactor (HPFR) was fully des...
AbstractSuccessful mineral trapping of carbon dioxide faces the challenge of effectively titrating a...
The cement industry is currently responsible for approximately 5 % of the global greenhouse gas emis...
Successful mineral trapping of carbon dioxide faces the challenge of effectively titrating a CO2-cha...
This semi-annual progress report includes our latest research on deep ocean sequestration of CO{sub ...
[1] The feasibility of enhancing the absorption of CO2 from the atmosphere by adding calcium carbona...
Carbon dioxide (CO2) sequestration has emerged as a crucial action to mitigate the unprecedented cha...
Over the coming century humanity may need to find reservoirs to store several trillions of tons of c...
We present an evolution of the Accelerated Weathering of Limestone (AWL) method to store CO2 in seaw...
Carbon dioxide storage technologies are needed not only to store the carbon captured in the emission...
The reduction in CO2 emissions is a major task for the coming decades. Accelerated weathering of lim...
We describe an approach to CO2 capture and storage from the atmosphere that involves enhancing the s...
AbstractWe describe an approach to CO2 capture and storage from the atmosphere that involves enhanci...
According to modelling studies, ocean alkalinity enhancement (OAE) is one of the proposed carbon dio...
Limestone can be used to generate a sorbent suitable for CO2 capture via the reversible carbonation ...
In the first half of the second contractual year the High Pressure Flow Reactor (HPFR) was fully des...
AbstractSuccessful mineral trapping of carbon dioxide faces the challenge of effectively titrating a...
The cement industry is currently responsible for approximately 5 % of the global greenhouse gas emis...
Successful mineral trapping of carbon dioxide faces the challenge of effectively titrating a CO2-cha...
This semi-annual progress report includes our latest research on deep ocean sequestration of CO{sub ...
[1] The feasibility of enhancing the absorption of CO2 from the atmosphere by adding calcium carbona...
Carbon dioxide (CO2) sequestration has emerged as a crucial action to mitigate the unprecedented cha...
Over the coming century humanity may need to find reservoirs to store several trillions of tons of c...