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主办单位:煤炭科学研究总院有限公司、中国煤炭学会学术期刊工作委员会
H2O2/Fe2(MoO4)3体系中H2O2吸附分解及NO氧化行为的DFT研究
  • Title

    DFT investigation on H2O2 adsorption,decomposition andNO oxidation behaviors in H2O2 / Fe2(MoO4) 3 system

  • 作者

    刘璇吕强王长安车得福李彩亭

  • Author

    LIU Xuan;LYU Qiang;WANG Chang′an;CHE Defu;LI Caiting

  • 单位

    湖南大学 环境科学与工程学院环境生物与控制教育部重点实验室(湖南大学)西安交通大学 动力工程多相流国家重点实验室

  • Organization
    College of Environmental Science and Engineering,Hunan University
  • 摘要

    为阐明H2O2/Fe2(MoO4)3体系脱硝过程中H2O2吸附分解及NO氧化行为,基于DFT方法首次计算了H2O2和NO分子单独及二者同时在Fe2(MoO4)3表面的吸附构型,并通过考察吸附能、Mulliken电荷及氧化路径等特性揭示H2O2催化分解和NO氧化的微观机制。结果表明:H2O2在Fe2(MoO4)3表面易分解为活性自由基,而NO则以分子形式吸附;H2O2和NO共吸附时,H2O2优先吸附于催化剂表面并随后分解,NO则分别被H2O2分解产生的OH/O基团氧化为HNO2/NO2;氧化产物HNO2和NO2仅通过氢键与催化剂表面作用,易在流体扰动下进入主流烟气,从而降低了催化剂表面硝酸盐沉积的可能性。本研究阐明了Fe2(MoO4)3催化剂表面H2O2吸附分解及NO氧化的微观机制,为设计兼具高催化活性及优良稳定性的非均相类Fenton脱硝体系提供理论指导。

  • Abstract

    To elucidate the adsorption/ decomposition behavior of H2O2 and oxidation behavior of NO in H2O2 / Fe2(MoO4) 3 denitrificationsystem, density functional theory (DFT) calculations were performed to investigate the individual adsorption and co-adsorption characteristics of H2O2 and NO on Fe2(MoO4) 3 surface for the first time. The adsorption energies, Mulliken population, and oxidation pathwayswere systematically analyzed to reveal the mechanism of catalytical decomposition of H2 O2 and NO oxidation. The results show thatH2O2 can be easily decomposed into reactive radicals on Fe2(MoO4) 3 surface, while NO is adsorbed in molecular form. In the case of coadsorption, H2 O2 preferentially adsorbs on the catalyst surface and undergoes decomposition process. NO is subsequently oxidized toHNO2 / NO2 by the hydroxyl group/ oxygen atom generated from H2O2 decomposition. The oxidation products HNO2 / NO2 are only bonded tothe catalyst surface via hydrogen bond and can easily enter the mainstream flue gas under flow disturbance, thus reducing the depositionpossibility of nitrate on catalyst surface. This study unravels the micro mechanism of H2O2 adsorption/ decomposition and NO oxidation onFe2(MoO4) 3 surface, providing theoretical guidance for designing heterogeneous Fenton-like denitrification system with high catalytic activity and excellent stability.

  • 关键词

    DFTNOH2O2分解脱硝吸附氧化机制

  • KeyWords

    DFT;NO;H2O2 decomposition;denitrification;adsorption;oxidation mechanism

  • 基金项目(Foundation)
    国家自然科学基金资助项目(52300159);湖南省自然科学基金资助项目(2022JJ40071)
  • 文章目录

    0 引言

    1 计算方法与模型

       1.1 计算方法

       1.2 计算模型

    2 模拟结果与分析

       2.1 H2O2在Fe2(MoO4)3(001)表面的吸附分解特性

       2.2 NO在Fe2(MoO4)3(001)表面的吸附特性

       2.3 H2O2和NO同时在Fe2(MoO4)3(001)表面吸附氧化特性

    3 结论


  • DOI
  • 引用格式
    刘璇,吕强,王长安,等.H2O2 / Fe2(MoO4) 3 体系中 H2 O2 吸附分解及 NO 氧化行为的 DFT 研究[J].洁净煤技术,2023,29(10):82-90.
  • Citation
    LIU Xuan,LYU Qiang,WANG Chang′an,et al.DFT investigation on H2O2 adsorption,decomposition and NO oxidation behaviors in H2O2 / Fe2(MoO4) 3 system[J].Clean Coal Technology,2023,29(10):82-90.
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    • NO在Fe2(MoO4)3(001)表面的吸附构型

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