A5029804032- Carbon Dioxide Capture Technologies
- Phase Equilibria and Thermodynamics
- Membrane Separation and Gas Transport
- CO2 Sequestration and Geologic Interactions
- Atmospheric and Environmental Gas Dynamics
- Gas Dynamics and Kinetic Theory
- Catalysts for Methane Reforming
- Chemical Looping and Thermochemical Processes
Pentair (United Kingdom)
2022
X Flow (Netherlands)
2022
Post-combustion carbon capture is a well-established technology for removing CO2 from industrial emissions. However, research still underway to optimise the process and make it more energy efficient. The current work aims present results pilot-scale (with capacity of 1 tonne CO2/day) studies conducted at Amager Bakke, Waste-to-Energy facility in Copenhagen, Denmark. pilot operation fully automated, control structure helps achieve multiple steady states regular intervals. In addition, capable...
Post-combustion carbon capture is a well-established technology to limit CO2 from industrial emissions. However, challenges such as high energy requirements for solvent regeneration persist. Research still being conducted improve the efficiency of process. This study aims present results process intensification in pilot-scale plant. The investigations were carried out at Amager Bakke, Waste-to-Energy facility Copenhagen, Denmark. tests by implementing split flow configuration method...
Large-scale reduction of greenhouse gasses is necessary to abate the climate crisis, for which technological development will pave way. Advancing research from academia industry crucial progress. Pilot scale studies are intermediate step bench industry. New challenges arise during technology upscaling, many have not been previously described in literature. This article provides a guide do's and don'ts researchers venturing into pilot work. The learnings experiences gained by working with...
Biogas upgrading enables distribution of biogas to the national gas grid and can potentially provide society with a carbon-negative fuel that uses existing infrastructure. Amine-based chemical scrubbing using 30 weight percent (wt%) monoethanolamine (MEA) is one most developed carbon capture technologies but energy consumption related process very high. This work pilot unit determine effects advanced configurations wt% MEA for upgrading. It found rich recycle cold split are able reduce significantly.