TY  - JOUR
ID  - scholars11091
SN  - 1226086X
TI  - Novel continuous ultrasonic contactor system for CO2 absorption: Parametric and optimization study
Y1  - 2019///
A1  - Mhd Yusof, S.M.
A1  - Lau, K.K.
A1  - Mohd Shariff, A.
A1  - Tay, W.H.
A1  - Mustafa, N.F.A.
A1  - Lock, S.S.M.
N1  - cited By 9
SP  - 279
PB  - Korean Society of Industrial Engineering Chemistry
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85068931749&doi=10.1016%2fj.jiec.2019.06.054&partnerID=40&md5=2927231a87e5bce0e5db91b989ec0d74
EP  - 287
KW  - Flow of gases; Optimization; Surface properties
KW  -  Absorption performance; Central composite designs; CO2absorption; Continuous system; Optimization studies; Quadratic modeling; Response surface methodology; Ultrasound irradiation
KW  -  Carbon dioxide
N2  - High frequency ultrasonic-assisted absorption in a batch system has shown significant enhancement for CO2 removal. Nevertheless, its performance in continuous mode has yet to be studied. A novel continuous high frequency ultrasonic contactor system for CO2 capture has been developed to study the effect of gas flow rate (15�??25 SLPM), liquid flow rate (0.1�??0.5 SLPM), pressure (10�??50 bar) and voltage (0�??30 V) on the absorption performance. A validated quadratic model was developed, and the optimum condition was identified using central composite design coupled with response surface methodology. Based on the results, current system demonstrated better absorption performance as compared to other contactors. © 2019 The Korean Society of Industrial and Engineering Chemistry
JF  - Journal of Industrial and Engineering Chemistry
VL  - 79
AV  - none
ER  -