PRODUCT
RPB
- Rotating Packed Bed Type CO2 Absorption and Stripping
- High gas flow rate in a compact volume.
- RPB stripper and Ultrasonic reboiler in single highly efficient unit for CO2 release.
- Unique designs for offshore and onshore application versions.
- Energy Efficient and High Throughput in Compact Volume
- High Throughput in compact volume
RPB Lab-scale System
Processing Capacity
CO2 Capture Efficiency at High Gas Flow Rates
Operational Range
400 up to 2,400 LPM
0.1 up to 0.4 TPD CO2 captures
65-100%
G/L [voL/oL] 50-800
Processing Volume Reduction
CV’s bench scale RPB absorber at 330 LPM of simulated flue gas.
Performance compared with conventional column systems from proprietary equipment (at 9 LPM capacity) and outside reference (1200 LPM).
3-10 X less processing volume relative to column systems at minimum.
Absorber
Compact absorber solution with high gas processing capacity and G/L ratio.
Improved CO2 absorption performance.
Capable of handling various types of solvent including chemical, physical, viscous solvents, etc.
Optimally designed for ship motions, sloshing effect, etc.
Energy Reduction
Comparison of gross SRD profiles for column and RPB system at various inlet CO2 concentrations.
CV guarantee : 20-50 % SRD reduction compared to column system and at 10 x more gas processed in same volume.
Superior CO2 Release with RPB and Ultrasound
Reboiler design derived by ultrasonic application.
Optimized internal structure and flow logic.
Optimal reboiler design with efficient heat exchange.
Ultrasound application with low operating temperature and reduced required regeneration energy (~50%).
Improved rich-solvent regeneration performance and reduced solvent degradation.
Reboiler design derived by ultrasonic application.
Optimized internal structure and flow logic.
Optimal reboiler design with efficient heat exchange.
Ultrasound application with low operating temperature and reduced required regeneration energy (~50%).
Improved rich-solvent regeneration performance and reduced solvent degradation.
Ultrasonic Application Reboiler System
Performing Computational Fluid Dynamics (CFD) to derive detailed internal flow and optimal structure.
The packing material inside the RPB System is a key factor in determining carbon dioxide capture performance.
Performed detailed flow analysis for various operating conditions,
(stream flow rate, rotating shaft speed, etc).
Packing Material
Our Solution is..
Maximized capture through packing structure design and rotational force.
"Based on exhaust gas throughput Absorption Tower 11x, Regeneration Tower 67x Dramatic volume reduction solution"