Study of the reactor with down-flow injection on the characteristics of ozonation

The ozone transfer from the gas-phase to the liquid phase in the down-flow tube of the reactor showed high efficiency because of its large value of gas-liquid interface area. The estimated gas-liquid interface area of the down-flow tube was approximately in the range from 60 to 600 (1/m). The ozone...

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Bibliographic Details
Published in:Water science and technology 1997-12, Vol.36 (12), p.367-374
Main Authors: Morioka, Takayuki, Kato, Yasuhiro, Hoshikawa, Hiroshi, Okada, Mitsumasa, Moniwa, Takeo
Format: Article
Language:English
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Summary:The ozone transfer from the gas-phase to the liquid phase in the down-flow tube of the reactor showed high efficiency because of its large value of gas-liquid interface area. The estimated gas-liquid interface area of the down-flow tube was approximately in the range from 60 to 600 (1/m). The ozone transfer efficiency (O.T.E.) of the down-flow tube was increased with the increase in ozone gas concentration. Therefore, it was clear that a high concentration of ozone gas should be applied when a higher ozone dose was needed for ozonation. The estimated dissolved ozone concentration and O.T.E. by a mathematical model which was developed in this investigation showed good agreement with experimentally obtained data. As a result, it was shown that the model was able to describe the ozone absorption in the reactor with down-flow injection (DFI) in the wide range of operational variables. In the case study that was carried out to compare the Cryptosporidium removal of DFI with that of a conventional fine bubble diffusion reactor by numerical simulation, DFI showed a higher performance. This higher performance is contributed to the advantage of DFI which includes the usage of high concentration ozone, greater gas-liquid interface area in the down-flow tube, and the preferable dissolved ozone profile in DFI.
ISSN:0273-1223
1996-9732
DOI:10.2166/wst.1997.0466