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首页> 外文期刊>Journal of Environmental Management >Sorption mechanisms of pesticides removal from effluent matrix using biochar: Conclusions from molecular modelling studies validated by single-, binary and ternary solute experiments
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Sorption mechanisms of pesticides removal from effluent matrix using biochar: Conclusions from molecular modelling studies validated by single-, binary and ternary solute experiments

机译:用生物炭从流出基质中除去农药的吸附机制:单,二元和三元溶质实验验证的分子建模研究的结论

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摘要

Sorption of atrazine (ATZ), imidacloprid (IMIDA) and azoxystrobin (AZOXY) in single-, bi- and ternary-solutes system was modelled using phosphoric acid-treated rice straw biochar (T-RSBC). The T-RSBC showed stronger sorption capacity for IMIDA in single- and bi-solute systems. The Freundlich constant (K_(Fads)) in ternary system followed the order: ATZ (222.7) < IMIDA (1314) < AZOXY (1459). Adsorption modeling and molecular dynamics suggested that non-bonding interactions between aromatic groups and electrostatic interactions with the phosphate ester group in T-RSBC played an important role. Enhanced sorption by pore-filling may be attributed to the stacking of pesticide molecules in the form of multilayer. IMIDA was predominantly sorbed by pore-filling mechanism, whereas, ATZ adsorbed by partitioning mechanism. The percent removal of three pesticides in waste water effluent followed the order: AZOXY > IMIDA > ATZ. The Freundlich isotherm based multicomponent Sheindorf-Rebuhn-Sheintuch equation's suggested that the extent of ATZ adsorption, in the presence of cohabiting pesticides, decreased with increase in number of solutes (K_(iATZ,Single)v > K_(iATZ, Binary) > K_(iATZ, Ternary)). The competitive coefficient values (α_(ATZ/IMIDA, Ternary) > α_(ATZ/AZOXY, Ternary)) revealed that ATZ adsorption in ternary system was inhibited more by the presence of IMIDA than AZOXY. Findings suggested that biochar with a large fraction of non-carbonized phase promoted non-competitive sorption.
机译:使用磷酸处理水稻秸秆生物炭(T-RSBC)模拟单,双溶解系统中亚唑(ATZ),吡虫啉(咪咪脂(Imida)和氮杂氧基脲(偶氮氧基)的吸附。 T-RSBC在单一和双溶质系统中表现出Imida的较强的吸附能力。三元系统中的Freundlich常数(K_(FADS))遵循命令:ATZ(222.7)伊米达> ATZ。基于Freundlich等温Sheindorf-Rebuhn-Sheintuch方程的表明,在同源杀虫剂存在下,ATZ吸附程度随着溶质数量的增加而降低(K_(IATZ,单)v> K_(IATZ,二进制)> K_ (IATZ,三元))。竞争系数值(α_(atz / inmida,三元)>α_(atz / zzoxy,三元))揭示了通过咪达的存在而不是氮杂毒性的Ternary系统中的ATZ吸附。结果表明,生物炭具有大部分非碳化阶段的促进不竞争的吸附。

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  • 来源
    《Journal of Environmental Management》 |2021年第1期|113104.1-113104.13|共13页
  • 作者

    Abhishek Mandal; Anup Kumar; Neera Singh;

  • 作者单位

    Division of Agricultural Chemicals ICAR-lndian Agricultural Research Institute New Delhi 110 012 India;

    Plant Animal Relationship Division ICAR-lndian Grassland and Fodder Research Institute Jhansi 284003 UP India;

    Division of Agricultural Chemicals ICAR-lndian Agricultural Research Institute New Delhi 110 012 India;

  • 收录信息 美国《科学引文索引》(SCI);美国《化学文摘》(CA);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Pesticides; Biochar; Adsorption; Modelling;

    机译:杀虫剂;生物炭;吸附;造型;

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