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Carbon Dioxide Absorption into NaOH Solution in a Cross-flow Rotating Packed Bed
Chia-Chang Lin,Bor-Chi Chen 한국공업화학회 2007 Journal of Industrial and Engineering Chemistry Vol.13 No.7
A cross-flow rotating packed bed (RPB) was applied to absorb carbon dioxide (CO2) by NaOH solution from gaseous streams. The cross-flow RPB has an inner radius of 2.4 cm, an outer radius of 4.4 cm and an axial height of 12.0 cm. Wire mesh was used as packings. Rotor speeds ranged from 540 to 1600 rpm, providing 11∼97 equivalent gravitational force. The removal efficiency of CO2 was determined at various values of operating parameters, including the rotor speed, gas flow rate, liquid flow rate, and NaOH concentration. Our experimental results demonstrated that the removal efficiency of CO2 increased with the rotor speed, liquid flow rate and NaOH concentration; however, decreased with the gas flow rate. Furthermore, a cross-flow RPB provides a reduction in the dosage of the NaOH solution for CO2 absorption, suggesting that a cross-flow RPB has a great potential in the removal of CO2 from the exhausted gases.
Characteristics of cross-flow rotating packed beds
Chia-Chang Lin,Bor-Chi Chen 한국공업화학회 2008 Journal of Industrial and Engineering Chemistry Vol.14 No.3
This work examined pressure drop and mass transfer of the cross-flow rotating packed bed (RPB) using absorption of carbon dioxide (CO₂) from gas. As to pressure drop, the gas flow rate was observed to be a more important factor than the rotor speed and the liquid flow rate due to less liquid holdup in the cross-flow RPB. The overall volumetric gas-phase mass transfer coefficients (KGα) were determined as a function of the rotor speed, the gas flow rate and the liquid flow rate. The dependences of KGα on the gas flow rate and the liquid flow rate indicated that the resistance to mass transfer in the liquid phase for CO₂ absorption was higher than that in the gas phase in the cross-flow RPB. Moreover, the obtained results demonstrated that the KGa values of the cross-flow RPB were comparable to those of the countercurrent-flow RPB, suggesting a great potential of the cross-flow RPB applied to the removal of CO₂ from gaseous streams.
I-Son Ng,Xuesong Zheng,Bor-Yann Chen,Xiaoqin Chi,Yinghua Lu,Chun-Sheng Chang 한국생물공학회 2013 Biotechnology and Bioprocess Engineering Vol.18 No.1
The first-attempt study employed a proteomics strategy for the identification of abundant proteins from a bioelectricity generation and dye decolorization bacterium Proteus hauseri ZMd44. By using the degenerated primers designed based on the peptide sequences from tandem mass spectroscopy and the whole genomics annotation of the closely associated strain, Proteus penneri ATCC 35198,the genes were successfully obtained for two full-length genes of 543 bp (laccase) and 1,086 bp (Omp F, porin)encoding to 181 amino acids and 362 amino acids,respectively. It explored laccase and NADH dehydrogenase involvement in the oxidation-reduction reaction as well, as porin played an important role in providing channels for related proteins in the accomplishment of electron transportation in P. hauseri. Detailed enzymatic assays indicated that laccase activity of 542.2 U/DCW could be stimulated by 2.5 mM copper induction in LB medium (ca. 293-fold to those without copper induction). Among intracellular proteins, NADH dehydrogenase activity of 257.2 U/mg via mediator riboflavin was in parallel with the decolorizing capability of azo dye Rb160 that only took place in LB medium. From the evaluation of kinetic parameters (Vmax and Km were 0.272 U/min and 0.393 mM with ABTS,0.046 U/min and 43.8 μM with NADH), it is better to decipher the decolorization mechanism of ZMd44 indicating that laccase and NADH dehydrogenase played the most crucial role for azo dye decolorization.