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团队成员

付彪

发布时间:2019-06-25  阅读次数:

 

姓名:付彪

 邮箱:fubiao1223@gmail.com

 工作去向:郑州大学



个人简介:

  付彪,博士后。作为主要研究人员主持国家自然科学基金项目1项,中国博士后面上项目1项,湖北省博士后创新人才岗位支撑项目1项,参与科技部“973”科技计划1项、国家重点研发计划项目1项、国家自然科学基金1项、美国能源部-国家能源技术实验室(DOE-NETL)项目1项。近年来围绕能源利用过程中痕量金属/同位素的测试与分析方法迁移/转化/分馏机理防控与资源化提取技术及环境效应方面合作发表学术期刊论文36篇(SCI收录33篇),以第一作者或通讯作者身份在Progress in Energy and Combustion ScienceChemical Engineering Journal, Journal of Hazardous Materials, Fuel, Environmental Pollution等能源环境领域期刊发表SCI收录论文10篇,排名前三文章共20篇。曾获国家留学基金委公派留学奖学金、博士学业一等奖学金、中国科大CASC奖学金、光华奖学金等荣誉。


主要研究方向:

  • 固体燃料废弃物的处理及高值化利用

  • 能源利用过程污染物(重金属等)控制

工作及学习经历:

  • 2014/09-2016/07 中国科学技术大学,环境科学与工程,硕士

  • 2016/09-2019/07 中国科学技术大学,环境科学与工程,博士

  • 2017/09-2019/03 University of Kentucky Center for Applied Energy Research, joint-Phd. training

  • 2019/07-2022/11 华中科技大学能源与动力工程学院,博士后

主持或参与科研项目:

  1. 2017-2019 美国能源部(DOE)煤中稀土元素研究与提取项目子课题 (DE-SOL-0010982):Rare-Earth Elements (REEs) in U.S. Coal-Based Resources: Sampling, Characterization, and Round-Robin Interlaboratory Study.(主要参与)

  2. 2014-2018 科技部“973”国家重点研发计划“煤中有害元素分布富集机理及环境污染防治”子课题(2014CB238903).(参与)

  3. 2016-2019 科技部国家重点研发计划安徽燃煤电厂大气污染物的环境化学演化机理与历史排放清单研究 (2016YFC0201600).(参与)

  4. 2016-2018安徽省国土厅科技项目(2016–K–2)“两淮煤田煤炭资源洁净等级划分及资源化利用模式”,(参与)

  5. 国家自然科学基金委员会,青年项目,52006082燃煤过程中关键稀土元素(Nd/Dy/Er/Y)迁移富集规律与形态转化机理研究2021.012023-12.主持)

  6. 中国博士后科学基金会,面上项目,燃煤过程中稀土元素迁移转化及定向调控机理研究 2019M6625862019.092021-06.主持)

  7. 湖北省博士后研究创新岗,地方创新人才支撑项目,煤中稀土元素形态及其高温矿物学研究, 2019.092021-06.主持)

  8. 科学技术部,国家重点研发计划煤炭清洁高效利用和新型节能技术专项,2018YFB0605103,基于烟气净化装置的重金属强化脱除关键技术, 2018-052021-04.参与)

期刊论文发表:

2021

  1. Fu B, Hower JC, Li S, Huang Y, Zhang Y, Hu H, Yao H*. The key roles of Fe-bearing minerals on arsenic capture and speciation transformation during high-As bituminous coal combustion: Experimental and theoretical investigations. J Hazard Mater 2021;415:125610.

  2. Fu B, Hower JC, Zhang WC, Luo GQ, Hu HY, Yao H*.  A review of rare earth elements and yttrium in coal ash: content, modes of occurrences, combustion behavior, and extraction methods. Progress in Energy and Combustion Science, 2022, corrected proof (reference number: JPECS_100954).  

  3. Ruize Sun, Biao Fu*, Guangqian Luo*, Xian Li, Hong Tian, Hong Yao, Theoretical research on mercury-laden halogenated activated carbon adsorbent bonding nature, Chemical Engineering Journal, 428,2022,131076,ISSN 1385-8947.

  4. Fu B, Sun R*, Yao H*, Hower JC, Yuan J, Luo G, et al. Mercury stable isotope fractionation during gaseous elemental mercury adsorption onto coal fly ash particles: Experimental and field observations. J Hazard Mater 2021;405:124280.

  5. Wei Y, Liu G*, Fu B, Wang R, Liu Y, Xue X, et al. Partitioning behavior of Pb in particulate matter emitted from circulating fluidized bed coal-fired power plant. J Clean Prod 2021;292:125997.

  6. Hu G, Liu G*, Wu D, Zhang W, Fu B. Method for evaluation of the cleanliness grade of coal resources in the Huainan Coalfield, Anhui, China: a case study. Int J Coal Sci Technol 2021.

  7. Wei Y, Liu G, Fu B, Liu Y, Xue X. The transformation and enrichment of Cd in fine particulate matter during coal combustion: The key roles of Ti-bearing components. Fuel 2021;292. https://doi.org/10.1016/j.fuel.2021.120285.

  8. Yuan J, Sun R*, Wang R, Fu B, Meng M, Zheng W, et al. Denitrification devices in urban boilers change mercury isotope fractionation signatures of coal combustion products. Environ Pollut 2021;268:115753. https://doi.org/10.1016/j.envpol.2020.115753.

  9. Huang Y, Gong H, Hu H*, Fu B, Yuan B, Li S, et al. Migration and emission behavior of arsenic and selenium in a circulating fluidized bed power plant burning arsenic/selenium-enriched coal. Chemosphere 2021;263:127920.

  10.  Bing Yuan, Hongyun Hu*, Yongda Huang, Biao Fu, Huimin Liu, Guangqian Luo, Yongchun Zhao, Hong Yao, Condensation and adsorption characteristics of gaseous selenium on coal-fired fly ash at low temperatures, Chemosphere, 2022(287):132127

2020

  1. Huang Y, Hu H*, Gong H, Xing H, Yuan B, Fu B, et al. Mechanism study of selenium retention by iron minerals during coal combustion. Proc Combust Inst 2020. https://doi.org/10.1016/j.proci.2020.08.006.

  2. Hower JC*, Eble CF, Backus JS, Xie P, Liu J, Fu B, et al. Aspects of rare earth element enrichment in Central Appalachian coals. Appl Geochemistry 2020;120:104676. https://doi.org/10.1016/j.apgeochem.2020.104676.

  3. Hower JC*, Fu B, Dai S. Geochemical partitioning from pulverized coal to fly ash and bottom ash. Fuel 2020;279:118542. https://doi.org/10.1016/j.fuel.2020.118542.

  4. 龚泓宇, 胡红云, 刘慧敏, 李帅, 黄永达, 付彪, 罗光前,姚洪. 燃煤过程中砷的迁移转化及控制技术综述. 中国电机工程学报 2020;40:7337–51. https://doi.org/10.13334/j.0258-8013.pcsee.200616.

  5. Ma T, Huang Y, Deng S, Fu B, Luo G, Wang J, et al. The relationship between selenium retention and fine particles removal during coal combustion. Fuel 2020;265. https://doi.org/10.1016/j.fuel.2019.116859.

  6. Liu H, Wang Y, Hu H, Fu B, Yao H, Wendt JOL. Enrichment mechanism of arsenic in fine ash deposits during co-combustion of rice husk and coal. Fuel 2020;281:118712. https://doi.org/10.1016/j.fuel.2020.118712.

  7. Li S, Gong H, Hu H, Liu H, Huang Y, Fu B, et al. Re-using of coal-fired fly ash for arsenic vapors in-situ retention before SCR catalyst: Experiments and mechanisms. Chemosphere 2020;254:126700. https://doi.org/10.1016/j.chemosphere.2020.126700.

  8. Xue X, Liu G, Wei Y, Fu B, Li F, Wu D, et al. Multi-element Characteristics of Chinese Medical Baishao (Paeoniae Radix Alba) and Their Decoctions. Biol Trace Elem Res 2020. https://doi.org/10.1007/s12011-020-02343-0.

  9. 黄永达, 胡红云, 龚泓宇, 刘慧敏, 付彪, 李帅, et al. 燃煤电厂砷、硒、铅的排放与控制技术研究进展. 燃料化学学报 2020;48.

  10.  Gong H, Huang Y, Hu H, Shi M, Fu B, Luo C, et al. The potential oxidation characteristics of CaCr2O4 during coal combustion with solid waste in a fluidized bed boiler: A thermogravimetric analysis. Chemosphere 2021;263:127974. https://doi.org/10.1016/j.chemosphere.2020.127974.

2019年

  1. Fu, B., Liu, G*., Mian, M.M., Sun, M., Wu, D. 2019. Characteristics and speciation of heavy metals in fly ash and FGD gypsum from Chinese coal-fired power plants. Fuel, 251, 593-602. (SCI&EI)

  2. Fu, B., Liu, G*., Mian, M.M., Zhou, C., Sun, M., Wu, D., Liu, Y. 2019. Co-combustion of industrial coal slurry and sewage sludge: Thermochemical and emission behavior of heavy metals. Chemosphere, 233, 440-451. (SCI&EI)

  3. Mian, M.M., Liu, G*.,Fu, B.,Song, Y. 2019. Facile synthesis of sludge-derived MnOx-N-biochar as an efficient catalyst for peroxymonosulfate activation. Applied Catalysis B: Environmental, 255, 117765. (SCI&EI)

  4. Ding, D., Liu, G*.,Fu, B., 2019. Influence of carbon type on carbon isotopic composition of coal from the perspective of solid-state 13C NMR. Fuel, 245, 174-180. (SCI&EI)

  5. Mian, M.M., Liu, G*.,Fu, B., 2019. Conversion of sewage sludge into environmental catalyst and microbial fuel cell electrode material: A review. Science of The Total Environment, 666, 525 – 539. (SCI&EI)

2018年

  1. Fu, B, Guijian Liu*, Mei Sun, James C. Hower, Md Manik Mian, Dun Wu, Ruwei Wang, and Guangqing Hu. Emission and transformation behavior of minerals and hazardous trace elements (HTEs) during coal combustion in a circulating fluidized bed boiler.Environmental pollution,2018,242: 1950-1960. (SCI&EI)

  2. Fu, B., Hower, J.C*., Dai, S., Mardon, S.M., Liu, G. 2018. Determination of Chemical Speciation of Arsenic and Selenium in High-As Coal Combustion Ash by X-ray Photoelectron Spectroscopy: Examples from a Kentucky Stoker Ash.ACS Omega, 3(12), 17637-17645. (SCI&EI)

  3. Fu, B., Liu, G*., Sun, M., Hower, J.C., Hu, G., Wu, D.A comparative study on the mineralogy, chemical speciation, and combustion behavior of toxic elements of coal beneficiation products.Fuel,2018, 228, 297-308 (SCI&EI)

  4. Ding, D., Liu, G*.,Fu, B., Wang, W. 2018. New insights into the nitrogen isotope compositions in coals from the Huainan coalfield, Anhui Province, China: Influence of the distribution of nitrogen forms. Energy & Fuels. (SCI&EI)

  5. Dianshi, D., Guijian, L*.,Biao, F., Zijiao, Y. and Bingyu, C., 2018. Influence of magmatic intrusions on organic nitrogen in coal: A case study from the Zhuji mine, the Huainan coalfield, China. Fuel, 219. (SCI&EI)

  6. Dianshi, D., Guijian, L*.,Biao, F., Cuicui, Q. 2018. Characteristics of the coal quality and elemental geochemistry in Permian coals from the Xinjier mine in the Huainan Coalfield, north China: Influence of terrigenous inputs. Journal of Geochemical Exploration,186, 50-60. (SCI&EI)

  7. Hu, G., Liu, G*., Wu, D.,Fu, B. 2018. Geochemical behavior of hazardous volatile elements in coals with different geological origin during combustion. Fuel,233, 361-376. (SCI&EI)

  8. Mian, M.M., Liu, G., Yousaf, B.,Fu, B., Ullah, H., Ali, M.U., Abbas, Q., Munir, M.A.M., 2018. Simultaneous functionalization and magnetization of biochar via NH3 ambiance pyrolysis for efficient removal of Cr (VI).Chemosphere, 208. (SCI&EI)

  9. Wu D* , Zhang W ,Fu B, et al. Chemical structure and gas products of different rank coals during pyrolysis[J]. Journal of Thermal Analysis and Calorimetry, 2018. (SCI&EI)

  10. Manik, Mian, Guijian Liu*, Yousaf.,Biao. Fu.,et al. One-step synthesis of N-doped metal/biochar composite using NH3-ambiance pyrolysis for efficient degradation and mineralization of Methylene Blue[J]. Journal of Environmental Science, 2019(4):29-41. (SCI&EI)

  11. 张杰芳,刘桂建*,付彪,桑树勋.贵州晚二叠世高硫煤中黄铁矿的赋存特征及其地质成因[J].煤炭学报, 2018, 43(04):1094-1103. (EI)

2017年

  1. Ali M U , Liu G*, Yousaf B , Qumber A, Habib U.,Biao F. Pollution characteristics and human health risks of potentially (eco)toxic elements (PTEs) in road dust from metropolitan area of Hefei, China[J]. Chemosphere, 2017, 181:111-121. (SCI&EI)

2016年

  1. Fu B, Liu G*, Liu Y, et al. Coal quality characterization and its relationship with geological process of the Early Permian Huainan coal deposits, southern North China. [J]. Journal of Geochemical Exploration, 2016, 166: 33-44. (SCI&EI)

获奖与荣誉:

  1. 2016-2017中国科大光华奖学金

  2. 2018-2019中国科大CASC二等奖学金

  3. 2017-2019国家留学基金委公派留学奖学金

  4. 2016-2019博士学业一等奖学金



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