[Oral Presentation]Enhancing CO2 absorption with compact multi-flow absorber: evaluation of operational factors
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[Oral Presentation]Enhancing CO2 absorption with compact multi-flow absorber: evaluation of operational factors

Enhancing CO2 absorption with compact multi-flow absorber: evaluation of operational factors
ID:241 Submission ID:62 View Protection:ATTENDEE Updated Time:2024-05-18 11:33:39 Hits:566 Oral Presentation

Start Time:2024-05-31 14:20 (Asia/Shanghai)

Duration:20min

Session:[S5] Smart Energy and Clean Power Technology » [S5-2] Afternoon of May 31st

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Abstract
Innovations in CO2 absorption devices play a vital role in advancing industrial applications of CO2 capture, increasing CO2 absorption rate and decreasing the absorber are important tasks in amine-based CO2 capture technologies. This study presents a novel absorber, a compact multi-flow absorber, which employs co-current spray and traditional package. The integrated design of the spray and packed tower reduces the size of the absorber. By incorporating a co-current spray tower as the primary absorption unit, the absorber achieves higher CO2 removal efficiency and significantly cut down the amount of package needed in the traditional absorber. A comparison with reported counter-current spray tower demonstrated higher overall absorption rate for proposed co-current spray tower. The co-current spray tower has an overall absorption rate approximately 50% higher than the counter-current spray tower in the first 60 seconds. The new absorber obtained an efficiency at 86%, however, the traditional package is only 67%. The newly designed absorber increased the CO2 absorption efficiency by 28%. Finally, the relevance of each operational parameter was evaluated through orthogonal tests, while trend analysis elucidated the influence of various factors on mass transfer evaluation indices.
Keywords
CO2 absorber,Compact multi-flow absorber,Co-current spray tower,Optimal operating conditions,Absorption efficiency
Speaker
Zhenzhen Zhang
China University of Mining and Technology-School of Low-Carbon Energy and Power Engineering

Submission Author
Zhenzhen Zhang China University of Mining and Technology-School of Low-Carbon Energy and Power Engineering
Li Yang China University of Mining and Technology;School of Low-Carbon Energy and Power Engineering
Yucong Ge China University of Mining and Technology;School of Low-Carbon Energy and Power Engineering
Fang Liu China University of Mining and Technology;School of Low-Carbon Energy and Power Engineering
Xiao Yang China University of Mining and Technology;School of Low-Carbon Energy and Power Engineering
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