主持并参与了国家科技重大专项水专项、国家自然基金面上项目、山东省自然基金重大基础研究等多个课题,以首位发明人获国际授权发明专利4项,国家首家授权发明专利50余项,技术转化额100余万。研发原创性技术获得山东省科技进步二等奖,并入选山东省绿色低碳技术成果名录。主要从事重金属与有机有毒污染绿色治理技术的研发。 部分发明专利: [1] Dalei Zhang etal, In-situ detoxification method forheavily contaminated site by hexavalent chromium,chrom1umsoil remediation microbial agentand preparation method thereof, 专利号:US10596606, PCT国际发明专利美国授权,2020 [2] Dalei Zhang etal, Biogas residue-based in situ andectopic coupled detoxificationmethod for hexavalent chromium-containing sites and soil remediation agent, 专利号:US10688546, PCT国际发明专利美国授权,2020 [3] Dalei Zhang etal, Method of simultaneously recycling plastics and detoxifying chromite ore processing residue by residue heat from steel slag, 专利号:US10745770, PCT国际发明专利美国授权,2020 [4] Dalei Zhang etal, Method For Simultaneously Processing Waste Incineration fly ash and Chromite Ore Processing Residue in Landfill,专利号:US 16722 818, PCT国际发明专利美国授权,2022 [5] 张大磊等,一种同步处理铬渣及无氯塑料的方法,专利号:ZL 2016100337480,已获授权,2019 [6] 张大磊等,一种基于沼渣的六价铬场地原位及异位耦合解毒方法,专利号:ZL 2016103702823,已获授权,2021 [7] 张大磊等,一种重污染场地Zn原位及异位耦合解毒方法,专利号:ZL 2016103703366,已获授权,2020 [8] 张大磊等,一种利用高炉渣余热资源化生物质及无害化铬渣的技术, 专利号:ZL 2016100357465,已获授权,2019 [9] 张大磊等,采用疏浚底泥和近岸高砂泥制备超轻高强度陶质骨料的方法,专利号:ZL 201010532308.2,已获授权,2012 [10] 张大磊等,一种基于沼渣的重污染场地Cu原位及异位耦合解毒方法专利号:ZL 2016103704320,已获授权,2020 代表性论文: Zhang, D.L.*, Zhang M.Y., Yuan X.Z*, Pyrolysis treatment of chromite ore processing residue by biomass: cellulose pyrolysis and Cr (VI) reduction behavior, Environmental Science and Technology,2016,50,3111-3118 Zhang, D.L., Kong, H., 2009, Remediation of chromite ore processing residue by pyrolysis process with sewage sludge. Bioresource Technology. 100 (11), 2874-2877 Zhang, D.L., Kong, H., 2009, Impact of pyrolysis process on the chromium behavior of COPR. Journal of hazardous material. 172 (2-3), 1597-1601. Zhang, D.L., Kong, H., 2009, Treatment of chromite ore processing residue by pyrolysis process using rice straw. Chemosphere. 77 (8), 1143-1145. 李荣强,张大磊*,孙英杰等.沼渣与硫酸亚铁共处置含铬土壤的协同机制研究[J].中国环境科学,2022,42(05):2229-2237. Rongqiang Li, Yingjie Sun, Dalei Zhang*, New insight into the mechanism of remediation of chromium containing soil by synergetic disposal of ferrous sulfate and digestate, Science of The Total Environment, 837,155539 (2022). SCI. |