2023
DOI: 10.1021/acs.energyfuels.3c02220
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Bionic Packings Enhance the Absorption of SO2 in a Bubble Column

Yuyang Cai,
Zhen Wang,
Dunyu Liu
et al.

Abstract: The development of compact reactors has attracted wide interest from chemical engineering society. Inspired by the special shape of "sea urchin", we propose that bionic packings with this type of shape are superior in breaking bubbles in a bubble column, and therefore, the mass transfer rate of gases in liquids may be greatly enhanced. In this study, different structures and quantities of bionic packings were added to a bubble column to enhance SO 2 absorption into water. The absorption rates of SO 2 into wate… Show more

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Cited by 2 publications
(5 citation statements)
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“…As a result, the liquid mass transfer coefficient as well as the specific surface area are increased. The promotional effect of the novel packings on SO 2 removal efficiency is more significant than Pall or Dixon rings …”
Section: Approaches For Mass Transfer Enhancementmentioning
confidence: 96%
See 2 more Smart Citations
“…As a result, the liquid mass transfer coefficient as well as the specific surface area are increased. The promotional effect of the novel packings on SO 2 removal efficiency is more significant than Pall or Dixon rings …”
Section: Approaches For Mass Transfer Enhancementmentioning
confidence: 96%
“…105 In the bubble reactor with novel packings with a special shape, such as "sea urchin", Pall and Dixon rings can be added into the bulk phase to break bubbles and increase the turbulence of the flow field. 106 Inside a bubble, the internal circulation is favorable for the gas absorption process, as the internal flow has a positive impact on the gas−liquid interfacial mass transfer. 107 In terms of a preferred flow in a packed bed, liquid exists on the packings as thin films.…”
Section: Flow Patterns In a Bubblementioning
confidence: 99%
See 1 more Smart Citation
“…Cai et al proposed a biomimetic packing material with a "sea urchin" shape to enhance the mass transfer rate of gas in liquid. 127 The "sea urchin" shaped packing material punctures large bubbles into small bubbles in the bubble column, thereby enhancing the mass transfer rate of gas in liquid. The "3.5 mm +5 mm" "sea urchin" packing material exhibits the best desulfurization effect, with a liquid volume mass transfer coefficient (k L a) 1.5 times that of Pall rings.…”
Section: Equipment Intensificationmentioning
confidence: 99%
“…The smaller the volume and the greater the quantity of bubbles, the better the mass transfer efficiency. Cai et al proposed a biomimetic packing material with a “sea urchin” shape to enhance the mass transfer rate of gas in liquid . The “sea urchin” shaped packing material punctures large bubbles into small bubbles in the bubble column, thereby enhancing the mass transfer rate of gas in liquid.…”
Section: Process Intensificationmentioning
confidence: 99%