Low-cost mineral packing materials improve DOM and micropollutants removal from landfill leachate in ozonation bubble columns : insights into the enhancement mechanisms and applicability of surrogate-based monitoring
- Author
- Xuetong Yang, Changtao Chen (UGent) , Tao Zhang (UGent) , Xiang Tian, Rui Zhang (UGent) , Dave Manhaeghe (UGent) , Yunliang Zhao, Shaoxian Song, Kristof Demeestere (UGent) and Stijn Van Hulle (UGent)
- Organization
- Abstract
- To intensify O3 mass transfer and increase removal of micropollutants in bio-treated landfill leachate, this study applied two minerals (lava rock and expanded clay aggregate (ECA)) to build mineral-packed bubble columns (named as LBC and EBC, respectively). The O3 gas-liquid mass transfer coefficient kLa of EBC (0.58 min -1) and LBC (0.62 min -1) was 2.4-2.5 times that of a non-packed bubble column (BC, 0.24 min -1). The O3 decompo-sition coefficient kd was also increased to 0.066 min- 1 in EBC and 0.050 min- 1 in LBC, as ECA and lava rock could work as stable catalysts to promote the O3 decomposition and generation of center dot OH. LBC and EBC had a comparable beneficial effect towards micropollutants removal and their intermediates' degradation. At O3 dose of 0.08-1.46 g O3/g COD, minerals increased the removal of O3-recalcitrant compounds (atrazine and alachlor) by 20-40 % and the UV254 reduction (Delta UV254) by over 20 %. The enhancement of LBC and EBC resulted from the improved O3 mass transfer and the catalytic function of the minerals. Besides, a two-stage linear correlation between the O3-recalcitrant compounds removal and Delta UV254 was observed. The first and second stage are dominated by the direct O3 reaction and center dot OH oxidation process, respectively. For the packed columns, removal mainly occurred at the second stage probably due to the improved center dot OH production by the packing materials. Based on such correlation model, Delta UV254 can be used as a surrogate for predicting the removal of micro -pollutants in packed columns. Overall, this study provides novel insights into the enhanced micropollutants abatement in landfill leachate by using mineral-packed ozone bubble columns.
- Keywords
- Industrial and Manufacturing Engineering, General Chemical Engineering, Environmental Chemistry, General Chemistry, Surrogate, UV254, Packed bubble column, Ozonation, Bio-treated landfill leachate, Micropollutants
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Citation
Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-01GQ72EQEAP9C7KBCZ14N14SY2
- MLA
- Yang, Xuetong, et al. “Low-Cost Mineral Packing Materials Improve DOM and Micropollutants Removal from Landfill Leachate in Ozonation Bubble Columns : Insights into the Enhancement Mechanisms and Applicability of Surrogate-Based Monitoring.” CHEMICAL ENGINEERING JOURNAL, vol. 458, 2023, doi:10.1016/j.cej.2023.141461.
- APA
- Yang, X., Chen, C., Zhang, T., Tian, X., Zhang, R., Manhaeghe, D., … Van Hulle, S. (2023). Low-cost mineral packing materials improve DOM and micropollutants removal from landfill leachate in ozonation bubble columns : insights into the enhancement mechanisms and applicability of surrogate-based monitoring. CHEMICAL ENGINEERING JOURNAL, 458. https://doi.org/10.1016/j.cej.2023.141461
- Chicago author-date
- Yang, Xuetong, Changtao Chen, Tao Zhang, Xiang Tian, Rui Zhang, Dave Manhaeghe, Yunliang Zhao, Shaoxian Song, Kristof Demeestere, and Stijn Van Hulle. 2023. “Low-Cost Mineral Packing Materials Improve DOM and Micropollutants Removal from Landfill Leachate in Ozonation Bubble Columns : Insights into the Enhancement Mechanisms and Applicability of Surrogate-Based Monitoring.” CHEMICAL ENGINEERING JOURNAL 458. https://doi.org/10.1016/j.cej.2023.141461.
- Chicago author-date (all authors)
- Yang, Xuetong, Changtao Chen, Tao Zhang, Xiang Tian, Rui Zhang, Dave Manhaeghe, Yunliang Zhao, Shaoxian Song, Kristof Demeestere, and Stijn Van Hulle. 2023. “Low-Cost Mineral Packing Materials Improve DOM and Micropollutants Removal from Landfill Leachate in Ozonation Bubble Columns : Insights into the Enhancement Mechanisms and Applicability of Surrogate-Based Monitoring.” CHEMICAL ENGINEERING JOURNAL 458. doi:10.1016/j.cej.2023.141461.
- Vancouver
- 1.Yang X, Chen C, Zhang T, Tian X, Zhang R, Manhaeghe D, et al. Low-cost mineral packing materials improve DOM and micropollutants removal from landfill leachate in ozonation bubble columns : insights into the enhancement mechanisms and applicability of surrogate-based monitoring. CHEMICAL ENGINEERING JOURNAL. 2023;458.
- IEEE
- [1]X. Yang et al., “Low-cost mineral packing materials improve DOM and micropollutants removal from landfill leachate in ozonation bubble columns : insights into the enhancement mechanisms and applicability of surrogate-based monitoring,” CHEMICAL ENGINEERING JOURNAL, vol. 458, 2023.
@article{01GQ72EQEAP9C7KBCZ14N14SY2,
abstract = {{To intensify O3 mass transfer and increase removal of micropollutants in bio-treated landfill leachate, this study applied two minerals (lava rock and expanded clay aggregate (ECA)) to build mineral-packed bubble columns (named as LBC and EBC, respectively). The O3 gas-liquid mass transfer coefficient kLa of EBC (0.58 min -1) and LBC (0.62 min -1) was 2.4-2.5 times that of a non-packed bubble column (BC, 0.24 min -1). The O3 decompo-sition coefficient kd was also increased to 0.066 min- 1 in EBC and 0.050 min- 1 in LBC, as ECA and lava rock could work as stable catalysts to promote the O3 decomposition and generation of center dot OH. LBC and EBC had a comparable beneficial effect towards micropollutants removal and their intermediates' degradation. At O3 dose of 0.08-1.46 g O3/g COD, minerals increased the removal of O3-recalcitrant compounds (atrazine and alachlor) by 20-40 % and the UV254 reduction (Delta UV254) by over 20 %. The enhancement of LBC and EBC resulted from the improved O3 mass transfer and the catalytic function of the minerals. Besides, a two-stage linear correlation between the O3-recalcitrant compounds removal and Delta UV254 was observed. The first and second stage are dominated by the direct O3 reaction and center dot OH oxidation process, respectively. For the packed columns, removal mainly occurred at the second stage probably due to the improved center dot OH production by the packing materials. Based on such correlation model, Delta UV254 can be used as a surrogate for predicting the removal of micro -pollutants in packed columns. Overall, this study provides novel insights into the enhanced micropollutants abatement in landfill leachate by using mineral-packed ozone bubble columns.}},
articleno = {{141461}},
author = {{Yang, Xuetong and Chen, Changtao and Zhang, Tao and Tian, Xiang and Zhang, Rui and Manhaeghe, Dave and Zhao, Yunliang and Song, Shaoxian and Demeestere, Kristof and Van Hulle, Stijn}},
issn = {{1385-8947}},
journal = {{CHEMICAL ENGINEERING JOURNAL}},
keywords = {{Industrial and Manufacturing Engineering,General Chemical Engineering,Environmental Chemistry,General Chemistry,Surrogate,UV254,Packed bubble column,Ozonation,Bio-treated landfill leachate,Micropollutants}},
language = {{eng}},
pages = {{13}},
title = {{Low-cost mineral packing materials improve DOM and micropollutants removal from landfill leachate in ozonation bubble columns : insights into the enhancement mechanisms and applicability of surrogate-based monitoring}},
url = {{http://doi.org/10.1016/j.cej.2023.141461}},
volume = {{458}},
year = {{2023}},
}
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