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针对水体磷污染治理问题,以菱镁矿轻烧粉为原料,采用矿石沉淀煅烧法制备高比表面、超细氧化镁产品,研究了反应物浓度、反应温度、热解时间、搅拌速率和表面活性剂添加量对氧化镁比表面积和粒度的影响。采用XRD、SEM、BET、FTIR和粒度分布仪对制备的氧化镁进行表征,并对其磷吸附性能进行了研究,探讨了其吸附机理。结果表明,在硫酸镁浓度0.5 mol/L、反应温度80℃、反应时间120 min、搅拌速率300 r/min、表面活性剂添加量0.5%的条件下,制备的多孔层状氧化镁比表面积为125.52 m2/g,平均粒度为15.17μm。将该氧化镁用于吸附磷废水,对磷酸根的吸附量为141.2 mg/g,去除率为70.6%,该氧化镁对磷的吸附机理为物理吸附与化学吸附两种吸附方式共同作用,且以化学吸附为主。
Abstract:Address to phosphorus pollution in water,superfine magnesium oxide with high specific surface area was prepared by precipitation calcination method with light burning powder as raw materials.Effect of reactant concentration,reaction temperature,pyrolysis time,stirring rate,and surfactant addition on specific surface area and particle size of magnesium oxide were studied.The prepared MgO powders were characterized by XRD,SEM,BET,FTIR and particle size distribution instrument.The adsorption performance of phosphorus on MgO was studied,and the adsorption mechanism was discussed.The results show that the porous layered MgO exhibits high specific surface areas (125.52m2/g)with average pore size of 15.17nm under the conditions including magnesium sulfate concentration of 0.5 mol/L,reaction temperature of 80℃,reaction time of 120 min,stirring rate of 300r/min,and surfactant addition of 0.5%.The prepared MgO powder is used to adsorb phosphorus waste water with the maximum adsorption capacities of 141.2mg/g and of removal rate of PO43-of 70.6%.The adsorption of PO43-on MgO is physical-chemical combination reaction,furthermore the process is mainly chemical adsorption.
[1] MORELLI B,HAWKINS T R,NIBLICK B,et al.Critical review of eutrophication models for life cycle assessment[J].Environmental Science & Technology,2018,52(17):9562-9578.
[2] 杨磊.粉煤灰酸浸液中磷、硅去除技术研究[J].轻金属,2021(2):20-25.YANG L.Study on the removal technology of phosphorus and silicon in fly ash acid leaching solution[J].Light Metals,2021(2):20-25.
[3] LIU J Y,MENG X,YUN F,et al.Phosphate adsorption on metal oxides and metal hydroxides:A comparative review[J].Environmental Reviews,2016,24(3):319-332.
[4] 姜延晓.基于金属有机骨架材料的前处理技术在食品与环境检测中的应用研究[D].长春:吉林大学,2021.JIANG Y X.Research on sample-pretreatment techniques based on metal organic framework materials for monitoring contaminants in food and environment[D].Changchun:Jilin University,2021.
[5] MOUSSAVI G,MAHMOUDI M.Removal of azo and anthraquinone reactive dyes from industrial wastewaters using MgO nanoparticles[J].Journal of Hazardous Materials,2009,168(2/3):806-812.
[6] CHINTHALA M,BALAKRISHNAN A,VENKATARAMAN P,et al.Synthesis and applications of nano-MgO and composites for medicine,energy,and environmental remediation:A review[J].Environmental Chemistry Letters,2021,19(6):4415-4454.
[7] 郭艺伟.高比表面积氧化镁吸附材料的可控制备及其吸附性能研究[D].北京:北京化工大学,2018.GUO Y W.High specific surface area magnesium oxide:Fabrication and adsorption behavior[D].Beijing:Beijing University of Chemical Technology,2018.
[8] MESHKANI F,REZAEI M.Facile synthesis of nanocrystalline magnesium oxide with high surface area[J].Powder Technology,2009,196(1):85-88.
[9] 邓立佳.利用海城菱镁矿制备高纯氧化镁研究[D].辽宁鞍山:辽宁科技大学,2016.DENG L J.The research of making of high-purity magnesium oxide prepared with Haicheng magnesite[D].Anshan:University of Science and Technology Liaoning,2016.
[10] 张禹泽.有机酸根插层类水滑石的设计、合成与阻燃性能研究[D].北京:中国科学院大学,2021.ZHANG Y Z.Study on the design,synthesis and flame retardancy of layered double hydroxides intercalated by organic acid anion[D].Xi′ning:Chinese Academy of Sciences,2021.
[11] ZHU D C,CHEN Y Q,YANG H P,et al.Synthesis and characterization of magnesium oxide nanoparticle-containing biochar composites for efficient phosphorus removal from aqueous solution[J].Chemosphere,2020,247:125847.DOI:10.1016/j.chemosphere.2020.125847.
[12] 李丹阳,杨蕊嘉,罗海艳,等.十六烷基三甲基溴化铵改性生物炭对水中镉离子吸附性能的影响[J].环境工程学报,2019,13(8):1809-1821.LI D Y,YANG R J,LUO H Y,et al.Effect of adsorption of cadmium from aqueous solution by hexadecyl trimethyl ammonium bromide modified biochar[J].Chinese Journal of Environmental Engineering,2019,13(8):1809-1821.
[13] 黄建翠,凌观爽,武艳妮,等.高比表面积介孔网状氧化镁的制备、表征及对废水中Pb(Ⅱ)的吸附性能和机理[J].无机化学学报,2020,36(11):2031-2040.HUANG J C,LING G S,WU Y N,et al.Mesoporous reticular magnesium oxide with high specific surface area:Preparation,characterization,adsorption performance and mechanism for Pb(Ⅱ)in wastewater[J].Chinese Journal of Inorganic Chemistry,2020,36(11):2031-2040.
[14] 张艳.废旧电池碳材料的再生及其制备磷吸附剂性能的研究[D].北京:北京理工大学,2016.ZHANG Y.Regeneration of spent battery anode carbon and its application in phosphate adsorption[D].Beijing:Beijing Institute of Technology,2016.
[15] 刘小宁.金属氧化物-炭材料的制备及其去除水相中磷酸盐的性能和机理研究[D].北京:中国农业科学院,2020.LIU X N.Study on preparation of metal oxide-carbon materials and its performance and mechanism of phosphate removal in water phase[D].Beijing:Chinese Academy of Agricultural Science,2020.
基本信息:
中图分类号:X52;TQ424
引用信息:
[1]薛志爽,邓信忠,梁海,等.高比表面积超细氧化镁的制备及吸附水体中磷的性能[J].有色金属(冶炼部分),2022(07):88-94.
基金信息:
辽宁省教育厅基本科研项目(LJKZ1197); 辽宁省化学助剂合成与分离重点实验室项目(ZJNK2108); 营口理工学院引进人才科研启动经费项目(YJRC202102)
2022-07-02
2022-07-02