尿素-Na2 CO3协同改性生物炭的表面自由基调控机制及PMS活化效能OA
Surface Radical Regulation Mechanism and PMS Activation Efficiency of Urea-Na2CO3 Synergistically Modified Biochar
为解决水体中难降解有机污染物的处理问题,治理环境污染,以苯胺为模型污染物,采用尿素与碳酸钠共掺杂协同改性玉米芯生物炭,探究其表面自由基调控机制及过氧单硫酸盐活化效能.实验通过不同氮源、尿素掺量、碳酸钠掺量及热解温度等条件的调控,制备改性生物炭,并对其自由基生成、苯胺去除效果、官能团及元素含量等进行分析.30%尿素的掺入对应的持久性自由基浓度为5.339×109 spins/g,显著高于其他氮源.尿素掺量30%、碳酸钠掺量40%时,持久性自由基浓度最高,苯胺去除效果最佳;持久性自由基浓度与苯胺去除效果为正相关.同时,热解温度从300 ℃上升至900 ℃,生物炭C的含量从6.983%上升至53.256%,H含量上升后下降至1.169%,O含量下降至20.065%,N含量上升后下降,峰值为7.142%,金属元素富集,其中Fe含量富集至9 258.477 mg/kg;此外改性生物炭的官能团逐渐减少,含氧官能团下降.持久性自由基、改性生物炭添加量是影响苯胺去除效果的关键因素,适当条件下最佳去除率可达97.6%.此外,500℃热解温度下制备的改性生物炭具有适中的孔隙结构和稳定的表面官能团,重复使用性能良好.尿素-碳酸钠协同改性生物炭可有效调控表面自由基,显著提升持久性自由基的活化效能,为难降解有机污染物的高效处理提供了新思路.
To address the issue of treating refractory organic pollutants in water and to control environmental pollution,this study used aniline as a model pollutant and investigated the co-doping and synergistic modification of corn cob biochar with urea and sodium carbonate.The surface free radical regulation mechanism and the activation efficiency of peroxymonosulfate were explored.Modified biochar was prepared by varying nitrogen sources,urea dosage,sodium carbonate dosage and pyrolysis temperature,and analyzed for free radical generation,aniline removal efficiency,functional groups,and elemental composition.Incorporation of 30%urea resulted in a persistent free radical concentration of 5.339×109 spins/g,significantly higher than other nitrogen sources.When urea and sodium carbonate contents were 30%and 40%,respectively,the persistent free radical concentration and aniline removal efficiency were maximized,showing a positive correlation.As pyrolysis temperature increased from 300 to 900 ℃,the carbon content of biochar increased from 6.983%to 53.256%,hydrogen content initially increased and then decreased to 1.169%,oxygen content decreased to 20.065%,and nitrogen content peaked at 7.142%.Metal elements were enriched,with Fe concentration reaching 9 258.477 mg/kg.Functional groups in the modified biochar gradually decreased,especially oxygen-containing functional groups.Persistent free radicals and biochar the dosage were key factors affecting aniline removal,achieving an optimal removal rate of 97.6%under optimal conditions.Moreover,biochar prepared at 500 ℃ exhibited a moderate pore structure,stable surface functional groups,and good reusability.Urea-sodium carbonate synergistic modification effectively regulates surface free radicals,significantly enhance their activation efficiency,providing a new idea for the efficient treatment of refractory organic pollutants.
马紫朝;董刚;刘伯渠;卢新生
甘肃民族师范学院化学与生命科学学院,甘肃合作 747000甘肃民族师范学院化学与生命科学学院,甘肃合作 747000甘肃民族师范学院化学与生命科学学院,甘肃合作 747000甘肃民族师范学院化学与生命科学学院,甘肃合作 747000
化学化工
有机污染物生物炭过氧单硫酸盐自由基环境治理
organic pollutantsbiocharperoxymonosulfatefree radicalsenvironmental remediation
《化学试剂》 2026 (1)
43-51,9
2025年甘南州科技计划项目技术创新引导计划项目(2025JY2NZ002).
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