Add to ORKGThe present thesis focuses on the development of a rigorous, rate-based model for CO2 capture and SO2 removal by aqueous NH3. Using the model, an advanced process design is proposed to realise the NH3 recycling and simultaneous capture of CO2 and SO2. Technical and economic assessment are conducted to evaluate the techno-economic performance of the NH3 process and its process improvements integrated with a 650 MW coal fired power station
To reduce the costs of controlling emissions from coal-fired power stations, we propose an advanced ...
This thesis investigates the capture of CO2 from the flue gas of coal-fired power plants using an aq...
In this work, we have developed advanced process configurations for solvent-based CO2 capture proces...
The high NH3 loss to the gas stream (NH3 slip) is one of the major issues in the ammonia based CO2 c...
AbstractThe high NH3 loss to the gas stream (NH3 slip) is one of the major issues in the ammonia bas...
AbstractAqueous ammonia, as an emerging, promising but challenging solvent for CO2 capture, has gain...
An advanced NH3 abatement and recycling process that makes great use of the waste heat in flue gas w...
This paper focuses on carbon capture in an Ultra Super Critical power plant. The technology selected...
The Chilled Ammonia Process enables the separation of CO2 from flue gas of large-scale, stationary C...
Planet earth is warming up, and anthropogenic emission of CO2 is acknowledged as a principal contrib...
AbstractA rate-based model for CO2 regeneration in an ammonia-based CO2 capture process was develope...
This thesis work focuses on developing ammonia-based carbon capturing systems that produce useful ch...
AbstractCSIRO and Delta Electricity have developed, commissioned and operated an aqueous ammonia bas...
It is well known that CO2 capture and re-use is one of the main challenges to be pursued in order to...
Using a rigorous, rate-based model and a validated economic model, we investigated the technoeconomi...
To reduce the costs of controlling emissions from coal-fired power stations, we propose an advanced ...
This thesis investigates the capture of CO2 from the flue gas of coal-fired power plants using an aq...
In this work, we have developed advanced process configurations for solvent-based CO2 capture proces...
The high NH3 loss to the gas stream (NH3 slip) is one of the major issues in the ammonia based CO2 c...
AbstractThe high NH3 loss to the gas stream (NH3 slip) is one of the major issues in the ammonia bas...
AbstractAqueous ammonia, as an emerging, promising but challenging solvent for CO2 capture, has gain...
An advanced NH3 abatement and recycling process that makes great use of the waste heat in flue gas w...
This paper focuses on carbon capture in an Ultra Super Critical power plant. The technology selected...
The Chilled Ammonia Process enables the separation of CO2 from flue gas of large-scale, stationary C...
Planet earth is warming up, and anthropogenic emission of CO2 is acknowledged as a principal contrib...
AbstractA rate-based model for CO2 regeneration in an ammonia-based CO2 capture process was develope...
This thesis work focuses on developing ammonia-based carbon capturing systems that produce useful ch...
AbstractCSIRO and Delta Electricity have developed, commissioned and operated an aqueous ammonia bas...
It is well known that CO2 capture and re-use is one of the main challenges to be pursued in order to...
Using a rigorous, rate-based model and a validated economic model, we investigated the technoeconomi...
To reduce the costs of controlling emissions from coal-fired power stations, we propose an advanced ...
This thesis investigates the capture of CO2 from the flue gas of coal-fired power plants using an aq...
In this work, we have developed advanced process configurations for solvent-based CO2 capture proces...