Degradation of Micropollutants by UV–Chlorine Treatment in Reclaimed Water: pH Effects, Formation of Disinfectant Byproducts, and Toxicity Assay

Wang, Chi; Ying, Zhian; Минг, Ма; Huo, Mingxin; Yang, Wu

doi:10.3390/w11122639

Cited by 17 publications

(24 citation statements)

References 39 publications

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“…At present, the research of membrane treatment is mainly focused on optimizing the process and developing the combined process of membrane treatment and other processes (Fan, Luo, et al, 2019;Li, Zhang, Zeng, et al, 2019;Li, Zhang, Xia, Wang, et al, 2019;Li, Zhang, Hu, et al, 2019;Li, Sun, Zhang, Feng, et al, 2019;Li, Yuan, Gao, et al, 2019). Wang, Ying, Ma, Huo, and Yang (2019), Wang, Su, et al (2019), , Wang, Huang, Chan, and Zhang (2019), Wang, Cai, et al (2019), , Wang, Yin, Zeng, and Zhu (2019g), Wang, Qian, et al (2019), reported a microporous membrane, which was doped with microporous β-cyclodextrin polymer, for the removal of bisphenol A by flow-through process. The results showed that the removal rate of bisphenol A can reach more than 99.9% at the water flux of 300 L m −2 hr −1 and feed concentration of 50 mg/L.…”

Section: Membrane Processesmentioning

confidence: 99%

“…Under the optimal conditions, the maximum adsorption capacities of MAPC for imipramine and amoxicillin were 59.8 and 7.7 mg/L, respectively, which was 332% and 681% higher than that of natural clay, respectively. Wang, Ying, et al (2019), Wang, Su, et al (2019), , , Wang, Cai, et al (2019), , Wang, Yin, et al (2019), Wang, Qian, et al (2019), ) synthesized a magnetic adsorbent derived from Broussonetia papyrifera leaves (MA-BPL). Then, they used MA-BPL to adsorb methylene blue in water.…”

Section: Annual Literature Reviewmentioning

confidence: 99%

“…It was also found that the mineralization of amoxicillin and metformin hydrochloride can reach more than 60%. Wang, Ying, et al (2019), Wang, Su, et al (2019), , , Wang, Cai, et al (2019), , Wang, Yin, et al (2019), Wang, Qian, et al (2019), ) synthesized polypyrene microspheres (PPMPs) by the emulsion copolymerization of pyrene and chloromethyl methyl ether. Then, they applied PPMPs as a new catalyst for the photocatalytic degradation of Rhodamine B in aqueous solution.…”

Section: Annual Literature Reviewmentioning

confidence: 99%

“…Wang, Ying, Ma, Huo, and Yang (2019), Wang, Su, et al (2019), Wang, Wang, et al (2019), Wang, Huang, Chan, and Zhang (2019), Wang, Cai, et al (2019), Wang, Zhu, et al (2019), Wang, Yin, Zeng, and Zhu (2019g), Wang, Qian, et al (2019), Wang, Zhang, et al (2019) reported a microporous membrane, which was doped with microporous β‐cyclodextrin polymer, for the removal of bisphenol A by flow‐through process. The results showed that the removal rate of bisphenol A can reach more than 99.9% at the water flux of 300 L m −2 hr −1 and feed concentration of 50 mg/L.…”

Section: Physical and Physicochemical Separation Coagulation And Somentioning

confidence: 99%

“…Carbon adsorption is a method to remove pollutants by carbon adsorption materials (CAMs). CAMs mainly include activated carbon (AC), carbon nanotubes (CNs), graphene, biochar (Kumari, Alam, et al, 2019; Kumari, Tyagi, et al, 2019; Wang, Ying, et al, 2019; Wang, Su, et al, 2019; Wang, Wang, et al, 2019; Wang, Huang, et al, 2019; Wang, Cai, et al, 2019; Wang, Zhu, et al, 2019; Wang, Yin, et al, 2019; Wang, Qian, et al, 2019; Wang, Zhang, et al, 2019; Yaashikaa, Senthil Kumara, Varjani, & Saravanan, 2019). Some properties, including specific surface area, pore structure, and surface functional groups, have significant impacts on the adsorption capacity of CAMs (Xing et al, 2019; Zhang, Liu, et al, 2019; Zhang, He, et al, 2019; Zhang, An, et al, 2019; Zhang, Cao, et al, 2019; Zhao, Yan, et al, 2019; Zhao, Jian, et al, 2019).…”

Section: Physical and Physicochemical Separation Coagulation And Somentioning

confidence: 99%

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Emerging pollutants—Part II: Treatment

Liu

Zhang

Chang

2020

Water Environment Research

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Emerging pollutants (EPs) refer to a class of pollutants, which are emerging in the environment or recently attracted attention. EPs mainly include pharmaceutical and personal care products (PPCPs), endocrine-disrupting chemicals (EDCs), and antibiotic resistance genes (ARGs). EPs have potential threats to human health and ecological environment. In recent years, the continuous detections of EPs in surface and ground water have brought huge challenges to water treatment and also made the treatment of EPs become an international research hotspot. This paper summarizes some research results on EPs treatment published in 2019. This paper may be helpful to understand the current situations and development trends of EP treatment technologies.

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Section: Membrane Processesmentioning

confidence: 99%

Section: Annual Literature Reviewmentioning

confidence: 99%

Section: Annual Literature Reviewmentioning

confidence: 99%

Section: Physical and Physicochemical Separation Coagulation And Somentioning

confidence: 99%

Section: Physical and Physicochemical Separation Coagulation And Somentioning

confidence: 99%

See 3 more Smart Citations

Emerging pollutants—Part II: Treatment

Liu

Zhang

Chang

2020

Water Environment Research

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A review on the versatility of Carica papaya seed: an agrogenic waste for the removal of organic, inorganic and microbial contaminants in water

Bayode

Anthony

Ore

et al. 2023

J of Chemical Tech & Biotech

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The advent of civilization, coupled with growing industrialization in many countries, is placing more demand on the available water sources. At the same time, the daily surge in wastes generated by man's anthropogenic activities has led to microbial, organic and inorganic contamination of water sources. Based on available evidence, significant research efforts are being made into the use of low‐cost agricultural materials such as Carica papaya seed (CPS) in the removal of these contaminants from water sources in a bid to provide clean water. In the present review, the organic, inorganic and microbial contaminants in waters were elucidated. Furthermore, the chemical composition of the CPS was illustrated. The adsorption capacity and efficiency of CPS and their composites in the remediation of the selected contaminants were discussed while identifying the various factors affecting the adsorption efficiency. Finally, the reusability of this agricultural material was discussed. Solution pH was identified as a major factor influencing the sorption process. The high removal efficiency reported in the studies that adopted CPS showed its vast potential in the elimination of contaminants from water sources. Also, the regenerative potential of the adsorbent over several cycles indicated its long‐term use. The economic feasibility and environmental sustainability afforded by using CPS chart a path for further investigation into the use of other low‐cost agricultural materials in the elimination of environmental contaminants. © 2023 Society of Chemical Industry (SCI).

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