个人基本信息:
于磊,男,江苏泰兴人,2012年本科毕业于中国石油大学(华东),获工学学士学位,2015年硕士毕业于中国石油大学(华东),获专业硕士学位,2020年博士毕业于东南大学,获工学博士学位,现为bat365在线登录网站专任教师。
所属教研室:
环境工程教研室
主讲课程:
材料分析测试方法、工程制图
研究领域:
固体废弃物处理处置及资源化利用
土壤和地下水风险管控和修复技术研发
教科研项目:
2022.10-至今,国家重点研发计划土专项(2022YFC3700253),移动式场地污染快速检测与处置技术及其装备,项目骨干;
2022.7-至今,国家自然科学基金(22279016),基于“吸附-催化”双重作用策略构筑高稳定性锂硫电池及其作用机理研究,参与;
2019.11-至今,江苏省生态环境厅生态环境标准项目—土壤与固废污染控制标准项目(JSZC-D2019-050),项目骨干;
2015.9-2020.7,国家自然科学基金(51576048),基于生物质燃气的金属-碳纤维催化重整制合成气的机理研究,参与;
代表性论文/著作:
[1] Zhao Yan,Yu Lei, Song Chengye, et al. (2022). Selective Degradation of Electron-Rich Organic Pollutants Induced by CuO@Biochar: The Key Role of Outer-Sphere Interaction and Singlet Oxygen. Environmental Science & Technology, 56(15), 10710-10720.
[2] Meng Fanyue,Yu Lei, Song Bing, et al. (2022). Insights into the mechanism of redox pairs and oxygen vacancies of Fe2O3@CoFe2O4hybrids for efficient refractory organic pollutants degradation. Chemosphere, 291(3), 133069.
[3]Yu Lei, Song Min, Williams P.T, et al. (2020). Optimized Reforming of Biomass Derived Gas Based on Thermodynamic and Kinetics Analysis with Activated Carbon Fibers Supported Ni-Al2O3. Bioenergy Research, 13(2), 581-590.
[4]Yu Lei, Song Min, Williams P.T, et al. (2019). Alumina-supported spinel NiAl2O4as a catalyst for reforming pyrolysis gas. Industrial & Engineering Chemistry Research, 58(27): 11770-11778.
[5]Yu Lei, Song Min, Wei Yuexing, et al. (2018). Combining Carbon Fibers with Ni/γ-Al2O3Used for Syngas Production: Part A: Preparation and Evaluation of Complex Carrier Catalysts. Catalysts, 8: 658.
[6]Yu Lei, Song Min, Gao Ruiqi, et al. (2017). The preparation and application of nickel based carbon fibers for steam reforming of methane. Reaction Kinetics. Mechanisms and Catalysis, 120(2): 477-488.
[7] Song Min,Yu Lei, Song Bin, et al. (2019). Alkali promoted the adsorption of toluene by adjusting the surface properties of lignin-derived carbon fibers. Environmental Science and Pollution Research, 26(22): 22284-22294.
主要获奖情况:
2022江苏省科学技术奖,二等奖,8/11
2022中国石油和化学工业联合会科学技术奖,二等奖,4/9