|
所属部门 |
地质与环境学院环境科学与工程系 |
职称 |
教授 |
博/硕导师 |
博导/硕导 |
研究方向 |
(1) 塑料废物高值转化、电子废物 (2) 难降解废水与固废协同处理 |
修福荣 |
电子邮箱 |
xiufurong@xust.edu.cn |
教育背景
2007/09-2010/07,中国科学院生态环境研究中心, 博士
2000/09-2003/07,苏州大学, 化学化工学院, 硕士
1995/09-1999/07,安徽工业大学, 化学化工学院, 学士
工作经历
2017/09-至今, 西安科技大学,教授
2016/07-2017/08,福建理工大学,教授
2011/07-2016/06,福建理工大学,副教授
2010/07-2011/06,福建理工大学,讲师
个人荣誉
1)福建省高校新世纪优秀人才
社会兼职
1)巴塞尔公约亚太区域中心化学品和废物环境管理中心智库专家
2)陕西省固废危化品专家库专家
个人成果
1.近五年科研项目
1)亚临界水氨中废电路板溴化环氧树脂耦合铜基废催化剂低温引发NH2·自由基及定向转化机制;国家自然科学基金面上项目(编号:22278331);2023.01- 2026.12;主持
2)近临界流体在有机固废污染控制及资源转化中应用的基础研究;陕西省自然科学基础研究计划重点项目(编号:2021JZ-52);2021.01-2023.12; 主持
3)废旧PVC在临界水-醇复合介质中的分解及脱氯机制研究;陕西省自然科学基础研究计划面上项目(编号:2018JM5149);2019.01-2020.12; 主持
4)废旧线路板在超临界甲醇中的分解、脱溴及炭化机制研究;福建省自然科学基金面上项目(编号:2017J01472);2017.04-2020.04; 主持
5)电子废物含溴塑料无害化及资源化新方法研究;福建省高校新世纪优秀人才支持计划项目(编号:Z15106);2016.01-2020.01; 主持
2.近年通讯/第一作者代表性学术论文
1) F.-R. Xiu*, H. Zhou, Y.Qi, W. Shao, A novelsubcritical water synergistic co-treatment of brominated epoxy resin and copper-based spent catalysts: debromination, phenolproduction, and copperrecovery,Waste Management179 (2024) 87–98. (SCI 影响因子=8.1)
2) F.-R. Xiu*, L. Zhan, Y. Qi, X. Lei, J. Wang, H. Zhou, W. Shao, Synergetic treatment of waste tantalum capacitors and polyvinyl chloride by subcritical water: Tantalum recovery, benzoic acid production and dechlorination,Process Safety and Environmental Protection 181 (2024) 407–415. (SCI 影响因子=7.8)
3) F.-R. Xiu*, Z. Gao, Y. Qi, Q. Bai, W. Shao, H. Zhou,High-efficiency co-liquefaction of low-rank coal and PAEs-rich PVC waste in supercritical water: Products upgrading and dechlorination,Journal of Analytical and Applied Pyrolysis 177 (2024) 106349. (SCI 影响因子=6)
4) F.-R. Xiu*, X. Tan, Y. Qi, M. Wang, Treatment of DEHP-rich PVC waste in subcritical urine wastewater: Efficient dechlorination, denitrification, plasticizer decomposition, and preparation of high-purity phthalic acid crystals, Journal of Hazardous Materials 441 (2023) 129820. (SCI 影响因子=13.6)
5) F.-R. Xiu, J. Wang, Z. Song, Y. Qi*, Q. Bai, S. Wang, X. Lei, R. Yang, Z. Gao, Synergistic Co-liquefaction of waste plastic express bags and low-rank coal based on supercritical water-ethanol system: Waste treatment and resource upgrading,Journal of Cleaner Production 425 (2023) 138957. (SCI 影响因子=11.1)
6) F.-R. Xiu, Q. Bai, Y. Qi*, X. Lei, R. Yang, S. Wang, Y. Wang, J. Wang, L. Zhan, H. Zhou, W. Shao,An alkali-enhanced subcritical water treatment strategy of short-chain chlorinated paraffins: Dechlorination and hydrocarbons recovery,Science of the Total Environment 904 (2023) 166574. (SCI 影响因子=9.8)
7) F.-R. Xiu, X. Lei, Y. Qi*, Q. Bai, S. Wang, Separation of waste tantalum capacitors by supercritical methanol: Recovery of high-purity metal tantalum and producing of bisphenol/diphenyl chemicals,Separation and Purification Technology 308 (2023) 122877. (SCI 影响因子=8.6)
8) F.-R. Xiu, R. Yang, Y. Qi*, K. Zhou, J. Wang, W. Shao, H. Zhou, L. Zhan,High-efficiency promotion on dechlorination of polyvinyl chloride in subcritical water treatment by introducing waste concrete,Process Safety and Environmental Protection 174 (2023) 1056–1064. (SCI 影响因子=7.8)
9) Z. Song,F.-R. Xiu*, Y. Qi, Degradation and partial oxidation of waste plastic express packaging bags in supercritical water: Resources transformation and pollutants removal,Journal of Hazardous Materials 423 (2022) 127018. (SCI 影响因子=13.6)
10) F.-R. Xiu*, Z. Song, Y. Lu, Y. Qi, M. Wang, A novel conversion strategy for organic compounds in waste liquid crystal displays based on the near/supercritical methanol process,Waste Management 153 (2022) 397–404. (SCI 影响因子=8.1)
11) F.-R. Xiu*, C. Chen, Z. Song, S. Wang, Y. Qi, A novel resource conversion strategy of waste plastic express packaging bags using supercritical water-ammonia process: Optimization by response surface methodology,Process Safety and Environmental Protection 168 (2022) 142–149. (SCI 影响因子=7.8)
12) F.-R. Xiu*, Q. Bai, C. Chen, Y. Qi, S. Wang, X. Tan,Highly selective conversion of tetrabromobisphenol A epoxy resin waste to high-purity phenolic chemicals by subcritical water-CuO process,Journal of Analytical and Applied Pyrolysis 168 (2022) 105773. (SCI 影响因子=6)
13) F.-R. Xiu*, K. Zhou, X. Yu, Y. Qi, Co-treatment of PVC and used LCD panels in low-temperature subcritical water: Enhanced dechlorination and mechanism,Process Safety and Environmental Protection 151 (2021) 10–19. (SCI 影响因子=7.8)
14) F.-R. Xiu, Y. Lu, Y. Qi*, Y. Wang, J. He, Ultrasensitive and practical chemiluminescence sensing pesticide residue acetamiprid in agricultural products and environment: Combination of synergistically coupled co-amplifying signal and smart interface engineering,Talanta 235 (2021) 122811.(SCI 影响因子=6.1)
15) Fu-Rong Xiu*, Yongwei Lu, Yingying Qi. DEHP degradation and dechlorination of polyvinyl chloride waste in subcritical water with alkali and ethanol: A comparative study.Chemosphere,2020, 249, 126138.(SCI 影响因子=8.8)
16) Fu-Rong Xiu*, Yixiao Wang, Xuan Yu, Yifan Li,Yongwei Lu, Ke Zhou, Jiahuan He, Zhiqi Song, Xiang Gao. A novel safety treatment strategy of DEHP-rich flexible polyvinyl chloride waste through low-temperature critical aqueous ammonia treatment.Science of The Total Environment,2020, 708,134532.(SCI 影响因子=9.8)
17) Fu-Rong Xiu*, Xuan Yu, Yingying Qi. A high-efficiency and low-temperature subcritical water dechlorination strategy of polyvinyl chloride using coal fly ash (CFA) and coal gangue (CG) as enhancers. Journal of Cleaner Production,2020, 260,121085.(SCI 影响因子=11.1)
18) Fu-Rong Xiu*, Xuan Yu, Yingying Qi, Yifan Li, Yongwei Lu, Yixiao Wang, Jiahuan He, Ke Zhou,Zhiqi Song, Xiang Gao.A novel management strategy for removal and degradation of polybrominated diphenyl ethers (PBDEs) in waste printed circuit boards.Waste Management, 2019,100: 191–198. (SCI 影响因子=8.1)
19) Fu-Rong Xiu*, Yifan Li, Yingying Qi, Xuan Yu, Jiahuan He, Yongwei Lu, Xiang Gao, Yuehua Deng, Zhiqi Song. A novel treatment of waste printed circuit boards by low-temperature near-critical aqueous ammonia: Debromination and preparation of nitrogen-containing fine chemicals.Waste Management,2019, 84: 355–363.(SCI 影响因子=8.1)
20) Yingying Qi, Jiahuan He,Fu-Rong Xiu*, Wenjie Nie, Mengjun Chen. Partial oxidation treatment of waste polyvinyl chloride in critical water: Preparation of benzaldehyde/acetophenone and dechlorination.Journal of Cleaner Production,2018, 196: 331–339. (SCI 影响因子=11.1)
21) Fu-Rong Xiu*, Yingying Qi, Shengquan Wang, Wenjie Nie, Huiwei Weng, Mengjun Chen. Application of critical water-alcohol composite medium to treat waste printed circuit boards: Oil phase products characteristic and debromination.Journal of Hazardous Materials,2018, 344: 333–342. (SCI 影响因子=13.6)
22) Yingying Qi, Jiahuan He, Yifan Li, Xuan Yu,Fu-Rong Xiu*, Yuehua Deng, Xiang Gao. A novel treatment method of PVC-medical waste by near-critical methanol: Dechlorination and additives recovery.Waste Management,2018, 80: 1–9.(SCI 影响因子=8.1)
23) Fu-Rong Xiu*, Huiwei Weng, YingyingQi, Gending Yu, Zhigang Zhang,Fu-Shen Zhang, Mengjun Chen. A novel recovery method of copper from waste printed circuit boards by supercritical methanol process: Preparation of ultrafine copper materials.Waste Management,2017, 60: 643–651.(SCI 影响因子=8.1) (SCI 影响因子=8.1)
24) Fu-Rong Xiu*, Huiwei Weng, Yingying Qi. A novel reutilization method for waste printed circuit boards as flame retardant and smoke suppressant for poly(vinylchloride).Journal of Hazardous Materials,2016, 315: 102–109.(SCI 影响因子=13.6)
25) Fu-Rong Xiu*, Yingying Qi, Fu-Shen Zhang. Leaching of Au, Ag, and Pd from waste printed circuit boards of mobile phone by iodide lixiviant after supercritical water pre-treatment.Waste Management, 2015, 41: 134–141.(SCI 影响因子=8.1)
26) Fu-Rong Xiu*, Yingying Qi, Fu-Shen Zhang. Co-treatment of waste printed circuit boards and polyvinyl chloride by subcritical water oxidation: Removal of brominated flame retardants and recovery of Cu and Pb.Chemical Engineering Journal,2014,237: 242–249.(SCI 影响因子=15.1)
27) Fu-Rong Xiu*, Yingying Qi, Fu-Shen Zhang. Recovery of metals from waste printed circuit boards by supercritical water pre-treatment combined with acid leaching process.Waste Management,2013,33: 1251–1257. (SCI 影响因子=8.1)
28) Fu-Rong Xiu*, Fu-Shen Zhang. Size-controlled preparation of Cu2O nanoparticles from waste printed circuit boards by supercritical water combined with electrokinetic process.Journal of Hazardous Materials, 2012,233:200–206.(SCI 影响因子=13.6)
29) Fu-Rong Xiu, Fu-Shen Zhang. Materials recovery from waste printed circuit boards by supercritical methanol.Journal of Hazardous Materials,2010,178:628–634.(SCI 影响因子=13.6)
30) Fu-Rong Xiu, Fu-Shen Zhang. Recovery of copper and lead from waste printed circuit boards by supercritical water oxidation combined with electrokinetic process.Journal of Hazardous Materials, 2009,165: 1002–1007.(SCI 影响因子=13.6)
31) Fu-Rong Xiu, Fu-Shen Zhang.Electrokinetic recovery of Cd, Cr, As, Ni, Zn and Mn from waste printed circuit boards: Effect of assisting agents. Journal of Hazardous Materials, 2009,170: 191–196.(SCI 影响因子=13.6)
32) Fu-Rong Xiu, Fu-Shen Zhang. Preparation of nano Cu2O/TiO2 photocatalyst from waste printed circuit boards byelectrokinetic process. Journal of Hazardous Materials, 2009,172: 1458–1463.(SCI 影响因子=13.6)
3.授权发明专利
1) 修福荣,齐莹莹.一种含溴塑料废物无害化脱溴的方法.专利号:ZL 201510067170.6
2) 修福荣,齐莹莹.一种用废线路板非金属粉末制备活性炭的方法及装置.专利号:ZL 201510881719.5
3) 修福荣,齐莹莹.一种用废旧线路板非金属粉末制备重金属吸附材料的方法.专利号:ZL 201510067875.8
4) 修福荣,齐莹莹,温慧玮.一种用废弃线路板制备高纯多孔二氧化硅的方法.专利号:ZL 201610390801.2
5) 修福荣,齐莹莹.一种废印刷线路板的处理方法.专利号:ZL 201510278252.5
6) 修福荣,齐莹莹.一种从废弃线路板金属富集体制备聚氯乙烯塑料阻燃消烟剂的方法.专利号:ZL 201510067118.0
7) 修福荣,齐莹莹.一种废弃印刷线路板的回收处理方法.专利号:ZL 201310562109.X
8)齐莹莹,修福荣,温慧玮.一种从废弃线路板快速回收磷酸三苯酯的方法及装置.专利号:ZL 201610391938.X
9) 修福荣,齐莹莹.一种快速浸出废线路板中金的方法及装置.专利号:ZL 201510881475.0
10) 修福荣,齐莹莹,温慧玮.一种用废旧锂离子电池制备有机染料废水净化剂的方法.专利号:ZL 201610390632.2
11) 修福荣,齐莹莹.一种从印刷线路板含铜污泥制备纳米氧化亚铜的方法.专利号:ZL 201410581394.4
12) 修福荣,齐莹莹,余根鼎,温慧玮.一种废旧线路板浸出金的工艺.专利号:ZL 201611075896.5
13)齐莹莹,修福荣,温慧玮.一种从废弃线路板快速回收高纯金属铜的方法及装置.专利号:ZL 201610390596.X
14)齐莹莹,修福荣.一种化学发光检测水样中银离子的方法.专利号:ZL 201610633559.7
15)齐莹莹,修福荣,一种利用化学发光试剂检测水样中苯胺的方法.专利号:ZL 201510273698.9
16)齐莹莹,修福荣.一种化学发光检测废水中啶虫脒的方法.专利号:ZL 201510936545.8
17)齐莹莹,修福荣,余根鼎,翁慧玮.一种从废弃线路板制备吸声材料的装置及其方法,专利号:ZL 201611175099.4
