Water Supply (Nov 2022)

Fine soil particle aggregation in ultra-fine bubble irrigated paddy fields

  • Yoshikatsu Ueda,
  • Yasuhiro Izumi,
  • Yoshihiro Hirooka,
  • Yoshinori Watanabe,
  • Morio Iijima

DOI
https://doi.org/10.2166/ws.2022.368
Journal volume & issue
Vol. 22, no. 11
pp. 7972 – 7981

Abstract

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The flotation method of ultra-fine bubbles (UFB) aims to address pollution and has been used for combating the undesirable water conditions of contaminated soils. Hence, water containing UFB is gaining increasing attention for potential agricultural applications. Although certain hypotheses have been proposed, such as the collection of ions in water through the electrical characteristic of UFB, no clear experimental data have been provided. We found that improvement in turbidity may cause the adsorption of fine soil particles in the water by the UFB, thereby improving the quality of the water. The data from the paddy field showed that a decrease in turbidity (below 2 nephelometric turbidity units) occurred over a short period of time (3 days). UFB concentration is directly related to turbidity with a coefficient of determination of 0.93. This phenomenon was also observed through the distribution of bubbles and soil particles, where the average particle size increased because of the aggregation of soil particles and the decrease in turbidity in the paddy field, indicating that UFB collect soil particles and thereby improve water quality. Therefore, UFB are highly effective in cleaning rice field water and will be a preferred method for purifying the environment in the future. HIGHLIGHTS Ultra-fine bubbles (UFB) improve water quality for agricultural applications.; Temporal variation of concentration of bubbles and fine soil particles and turbidity is considered.; Turbidity decreases with time, and UFB concentration is strongly correlated with turbidity.; UFB size increased because of aggregation of fine soil particles.; Decrease in turbidity in the paddy field indicated that UFB attract fine soil particles.;

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