Researching | Preparation of NWF-g-DMC@Al2O3 adsorbent by preradiation grafting-embedding and its application for removal of chlorite

Journals >Journal of Radiation Research and Radiation Processing >Volume 41 >Issue 3 >Page 030202 > Article

Journal of Radiation Research and Radiation Processing
Vol. 41, Issue 3, 030202 (2023)

Preparation of NWF-g-DMC@Al₂O₃ adsorbent by preradiation grafting-embedding and its application for removal of chlorite

Lu RAO^1,2,3, Dongliang LIU^1,3, Lili FU^1,2,3, Zhijun WANG^1,3..., Huangqin CHEN^2,** and Yuesheng LI^3,4,*|Show fewer author(s)

Author Affiliations

¹School of Pharmacy, Hubei University of Science and Technology, Xianning 437100, China

²School of Stomatology and Optometry, Hubei University of Science and Technology, Xianning 437100, China

³College of Nuclear Technology and Chemical Biology, Hubei University of Science and Technology, Xianning 437100, China

⁴Hubei Industrial Technology Research Institute of Intelligent Health, Hubei University of Science and Technology, Xianning 437100, China

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DOI: 10.11889/j.1000-3436.2022-0096 Cite this Article

Lu RAO, Dongliang LIU, Lili FU, Zhijun WANG, Huangqin CHEN, Yuesheng LI. Preparation of NWF-g-DMC@Al₂O₃ adsorbent by preradiation grafting-embedding and its application for removal of chlorite[J]. Journal of Radiation Research and Radiation Processing, 2023, 41(3): 030202 Copy Citation Text

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References

[1] R Qadri, M A Faiq. Freshwater pollution: effects on aquatic life and human health. Fresh Water Pollution Dynamics and Remediation, 15-26(2019).

[2] K R Bhattarai, D M Bhasin. Water pollution is the main problem for human health. Journal of Algebraic Statistics, 13, 2812-2817(2022).

[3] M F A Jalil, N Hamidin, A A N Gunny et al. Potential risks assessment of trihalomethanes in drinking water supply. Journal of Water Chemistry and Technology, 43, 468-474(2021).

[4] X Zhong, C W Cui, S L Yu. Seasonal evaluation of disinfection by-products throughout two full-scale drinking water treatment plants. Chemosphere, 179, 290-297(2017).

[5] E Helte, M Säve-Söderbergh, H Ugge et al. Chlorination by-products in drinking water and risk of bladder cancer —a population-based cohort study. Water Research, 214, 118202(2022).

[6] M H Qi, L J Huang, X F Xu et al. Synthesis of chlorine dioxide stable solution by combined reduction and its decomposition kinetics. Nordic Pulp & Paper Research Journal, 35, 342-352(2020).

[7] M Akhlaghi, A Dorost, K Karimyan et al. Data for comparison of chlorine dioxide and chlorine disinfection power in a real dairy wastewater effluent. Data in Brief, 18, 886-890(2018).

[8] W A Cheema, K M S Kaarsholm, H R Andersen. Combined UV treatment and ozonation for the removal of by-product precursors in swimming pool water. Water Research, 110, 141-149(2017).

[9] Xiaoyan DING, Jinghong YANG, Donghai HAN et al. Determination of chlorite in drinking water. Occupation and Health, 27, 775(2011).

[10] Hu CAI, Ruifang MAO, Yun PANG. Research progress of chlorine dioxide. Drug Evaluation, 2, 383-385(2005).

[11] G Gordon, B Slootmaekers, S Tachiyashiki et al. Minimizing chlorite ion and chlorate ion in water treated with chlorine dioxide. Journal - American Water Works Association, 82, 160-165(1990).

[12] A Iatrou, W R Knocke. Removing chlorite by the addition of ferrous iron. Journal - American Water Works Association, 84, 63-68(1992).

[13] Y Li, T F Xu, C W Cui et al. The adsorption of chlorite and chlorate by calcium carbonate in a drinking water pipe network. Desalination and Water Treatment, 53, 1881-1887(2015).

[14] S Sorlini, C Collivignarelli. Chlorite removal with granular activated carbon. Desalination, 176, 255-265(2005).

[15] L Ding, Y H Zhu, X P Jin et al. Removal of chlorite from aqueous solution by MIEX resin. Desalination and Water Treatment, 77, 264-273(2017).

[16] J Wang, Y T Wu, L J Bu et al. Simultaneous removal of chlorite and contaminants of emerging concern under UV photolysis: Hydroxyl radicals vs. chlorate formation. Water Research, 190, 116708(2021).

[17] J Fu, W N Lee, C Coleman et al. Removal of disinfection byproduct (DBP) precursors in water by two-stage biofiltration treatment. Water Research, 123, 224-235(2017).

[18] C G Lee, P J J Alvarez, A Nam et al. Arsenic(V) removal using an amine-doped acrylic ion exchange fiber: kinetic, equilibrium, and regeneration studies. Journal of Hazardous Materials, 325, 223-229(2017).

[19] A Bhatnagar, M Sillanpää. Sorption studies of bromate removal from water by nano-Al2O3. Separation Science and Technology, 47, 89-95(2012).

[20] Y S Li, T T Li, X F Song et al. Enhanced adsorption-photocatalytic reduction removal for Cr(VI) based on functionalized TiO2 with hydrophilic monomers by pre-radiation induced grafting-ring opening method. Applied Surface Science, 514, 145789(2020).

[21] Y S Li, J T Qin, Y Han et al. Controlled preparation and highly photocatalytic activity of portable MCC-g-GMA@TiO2 photocatalyst by pre-radiation grafting-embedding method. Applied Catalysis B: Environmental, 218, 101-110(2017).

[22] W Farooq, H J Hong, E J Kim et al. Removal of bromate (BrO3–) from water using cationic surfactant-modified powdered activated carbon (SM-PAC). Separation Science and Technology, 47, 1906-1912(2012).

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Lu RAO, Dongliang LIU, Lili FU, Zhijun WANG, Huangqin CHEN, Yuesheng LI. Preparation of NWF-g-DMC@Al₂O₃ adsorbent by preradiation grafting-embedding and its application for removal of chlorite[J]. Journal of Radiation Research and Radiation Processing, 2023, 41(3): 030202

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