个人简介
徐熙焱,特别研究员/硕士、博士生导师、校团委副书记(挂职);Sep. Purif. Technol.青年编委/客座编辑、Results in Engineering青年编委、Separations\ Catalysts\ Chem. Eng. J. Advances\ Front. Catal. \Water Cyc.等国际期刊客座编辑;工业和信息化部教育与考试中心、教育部学位与研究生教育发展中心、一带一路环境技术交流与转移中心(深圳)等专家库专家;2022国际分离纯化技术大会(ISPT 2022)组委会执行主任、委员;世界回收和废物管理大会(WCRWM-Paris-2023)组委会委员;中国核学会、中国环境科学学会高级会员。研究致力于分离和纯化技术提升与智能化,主要涉及污/废水/气处理与回用(核工业、石油、医药、城市污水)、放射性废物处理和资源回收、智慧城市与智慧工厂设计与相关技术、水质保障技术等。已主持国家重点研发计划项目子课题、国家自然科学基金青年项目、中国博士后基金项目,参与西班牙经济与工业部项目(欧盟与西班牙政府共同资助项目)等。获得RINENG Young Investigator Award, Elsevier (2022)。迄今在国内外学术刊物及会议上发表学术论文40余篇,授权多项发明专利。
研究领域和方向
(1) 吸附-催化氧化水/气处理
(2) 放射性废物处理和资源回收
(3) 智能化工
(4) 水质监测和保障
教育背景
(1) 2013.10-2017.09 西班牙马德里自治大学(UAM),工学博士
(2) 2009.09-2012.07 湖南大学,工学硕士
(3) 2005.09-2009.07 河南农业大学,工学学士
工作履历
(1) 2020.06-至今 bob手机在线登陆化学与化工学院,特别研究员
(2) 2018.01-2020.06 清华大学环境学院,博士后
(3) 2012.07-2013.09 交通部辽宁海事局,科员
研究成果
发表学术论文40余篇,主要如下:
2022
[1] C. Muhire, A. Tesfay Reda, D. Zhang*, Xu Xiyan*, C. Cui, An Overview on Metal Oxide-based Materials for Iodine Capture and Storage, Chemical Engineering Journal, 2022, 431: 133816.
[2] Xu Xiyan*, S. Liu, P. Sun, Z. Guo, K. Smith, D. Zhang*, H. Li, J. Bedia, C. Belver, Iron tungstate on nano-γ-alumina as photocatalyst for 1,4-dioxane solar degradation in water, Journal of Cleaner Production, 2022, 134232.
[3] R. Tang#, C. Cui#, D. Zhang, D*. Li, J. Li, Xu Xiyan*, Experimental and CFD Simulation Study of the Air-Blowing Process of Iodine in Nitric Acid Solution, Industrial & Engineering Chemistry Research, 2022 61: 13694-1370.
[4] C. Cui, D. Zhang*, M. Constantin, A.T. Reda, J. Li, Xu Xiyan*, Molecular reaction and dynamic mechanism of iodate reduction to molecular iodine by nitrogen(III) in aqueous solution, Physical Chemistry Chemical Physics, 2022, , 24: 22889.
[5] S. Wang, M.-r. Chen, S.-b. Shen, C.-h. Cheng, A.-j. Cai, A.-j. Song, X.-l. Lu, G.-s. Gao, M.-z. Ma, Z.-w. Zhang*, Xu Xiyan*, Bifunctionalized Fe7S8@MoS2–O core-shell with efficient photocatalytic activity based on internal electric field, Journal of Cleaner Production, 2022, 335: 130375.
[6] A. Tesfay Reda, D. Zhang*, Xu Xiyan*, S. Xu, Highly stable iodine capture by pillared montmorillonite functionalized Bi2O3@g-C3N4 nanosheets, Separation and Purification Technology, 2022, 292: 120994.
[7] A. Tesfay Reda, D. Zhang*, Xu Xiyan*, LiAlO2-Melamine for efficient and rapid iodine capture, Journal of Environmental Chemical Engineering, 2022, 10: 107842.
[8] M. Pan, C. Cui, W. Tang, Z. Guo, D. Zhang*, Xu Xiyan*, J. Li, Carbon cloth as an important electrode support for the high selective electrosorption of uranium from acidic uranium mine wastewater, Separation and Purification Technology, 2022, 281 119843.
2021
[1] M. Zahid, D. Zhang*, Xu Xiyan*, M. Pan, M.H. ul haq, A.T. Reda, W. Xu, Barbituric and thiobarbituric acid-based UiO-66-NH2 adsorbents for iodine gas capture: characterization, efficiency and mechanisms, Journal of Hazardous Materials, 2021, 125835.
[2] A. Tesfay Reda, D. Zhang*, Xu Xiyan*, M. Pan, C. Chang, C. Muhire, X. Liu, S. Jiayi, Bismuth-impregnated aluminum/copper oxide-pillared montmorillonite for efficient vapor iodine sorption, Separation and Purification Technology, 2021, 270: 118848 [3] M. Pan, D. Zhang*, Xu Xiyan*, A.T. Reda, J. Li, Efficient electrosorption of uranyl ions by a homemade amidoxime-modified carbon paper-based electrode in acidic aqueous condition, Journal of Chemical Technology & Biotechnology, 2021, 96: 2916-2929.
[4] A. Tesfay Reda, M. Pan, D. Zhang*, Xu Xiyan*, Bismuth-based materials for iodine capture and storage: A review, Journal of Environmental Chemical Engineering, 2021, 9: 105279.
[5] Xu Xiyan, Y. Cui*, Z. Wang, H. Zhang, C. Li, K. Yu, Water quality deterioration of reclaimed water produced by reverse osmosis process in large pilot-scale distribution systems of different pipe materials, Journal of Water Reuse and Desalination, 2021, 11: 610-620.
2020
[1] Xie, G., Wang, H., Zhou, Y., Du, Y., Liang, C., Long, L., Lai, K., Li, W., Tan, X., Jin, Q., Qiu, G., Zhou, D., Huo, H., Hu, X.*, Xu Xiyan*. Simultaneous remediation of methylene blue and Cr(VI) by mesoporous BiVO4 photocatalyst under visible-light illumination. Journal of the Taiwan Institute of Chemical Engineers. 2020, 112, 357-365.
[2] Xu Xiyan, Liu, S.*, Smith, K., Cui, Y., Wang, Z. An overview on corrosion of iron and steel components in reclaimed water supply systems and the mechanisms involved. Journal of Cleaner Production, 2020, 276, 124079.
[3] Xu Xiyan; Liu S.*; Liu Y.; Smith K., Cui Y.*, Water quality induced corrosion of stainless steel valves during long-term service in a reverse osmosis system. Journal of Environmental Sciences, 2020, 89, 218-226.
[4] Xiong Y.; Zhang J.; Xu Xiyan*; Yan Y.; Sun S.; Liu S. *, Strategies for improving the microclimate and thermal comfort modification effect of a classical Chinese garden in hot-summer and cold-winter zone. Energy and Buildings. 2020, 215, 109914.
2019
[1] Xu Xiyan*, Pliego G., Alonso C., Liu S., Nozal L., Rodriguez J.J., Reaction pathways of heat-activated persulfate oxidation of naphthenic acids in water. Chemical Engineering Journal. 2019, 370, 695-705.
[2] Xu Xiyan, Liu Shuming*, Smith Kate, Wang Yujue, Hu Hongying, Light driven breakdown of 1,4-Dioxane for potable reuse: a review. Chemical Engineering Journal, 2019, 373, 508-518.
[3] Xu Xiyan, Liu Y., Liu S.*, Li J., Guo G., Smith K. Real-time detection of potable-reclaimed water pipe cross-connection events by conventional water quality sensors using machine learning methods, Journal of Environmental Management. 2019, 238, 201-209.
[4] Xu Xiyan, Liu S.*, Sun S., Zhang W., Liu Y., Lao Z., Guo G., Smith K., Cui Y., Liu W., Higueras García E., Zhu J., Evaluation of energy saving potential of an urban green space and its water bodies. Energy and Buildings. 2019, 188-189, 58-70.
[5] Xu Xiyan; S. Liu*; Y. Liu; K. Smith; Y. Cui*. Corrosion on stainless steel valves in a reverse osmosis system of a reclaimed water plant: Correlation between formation of corrosion products and metal loss. Engineering Failure Analysis, 2019, 105, 40-51.
[6] Xu Xiyan, Liu S.*, Cui Y., Wang X., Smith K., Wang Y. Solar-Driven removal of 1,4-Dioxane using WO3/nγ-Al2O3 Nano-catalyst in water, Catalysts. 2019, 9, 389.
[7] Wang Z., Xu Xiyan (co-first author), Cui Y.*, The effect of fixed and removable gas-injection patterns on the expansion of reaction zones during underground coal gasification, Energy & Fuels. 2019, 33, 4740-4747.
2018 and before
[1] Xu Xiyan*, Pliego G., Garcia-Costa A. L., Zazo J.A., Liu S., Casas J.A., Rodriguez J.J. Cyclohexanoic acid breakdown by two-step persulfate and heterogeneous Fenton-like oxidation. Applied Catalysis B: Environmental. 2018, 232, 429-435.
[2] Xu Xiyan*, Pliego G, Zazo J.A., Liu S., Casas J.A., Rodriguez J.J. Two-step persulfate and Fenton oxidation of naphthenic acids in water. Journal of Chemical Technology & Biotechnology. 2018, 93, 2262-2270.
[3] Xu Xiyan, Pliego G.*, Zazo J.A., Sun S., Garcia-munoz P., He L., Casas J.A., Rodriguez J.J., An overview on the application of advanced oxidation processes for the removal of naphthenic acids from water, Critical Reviews in Environmental Science & Technology, 2017, 47(15), 1337-1370.
[4] Xu Xiyan, Sun S., Liu W., García E.H., He L.*, Cai Q., Xu S., Wang J., Zhu J.* The cooling and energy saving effect of landscape design parameters of urban park in summer: a case of Beijing, China. Energy and Buildings. 2017, 149, 91–100.
[5] Sun S., Xu Xiyan* (co-first author), Lao Z., Liu W., Li Z., García E.H., He L., Zhu J.*, Evaluating the impact of urban green space and landscape design parameters on thermal comfort in hot summer by numerical simulation, Building and Environment. 2017, 123, 277-288.
[6] Xu Xiyan, Pliego, G., Zazo, J.A., Casas, J.A., Rodriguez, J.J.* Mineralization of naphthenic acids with thermally-activated persulfate: The important role of oxygen. Journal of Hazardous Materials. 2016, 318, 355-362.
[7] Xu Xiyan, Zeng G.-M.*, Peng Y.-R.*, Zeng Z. Potassium persulfate promoted catalytic wet oxidation of fulvic acid as a model organic compound in landfill leachate with activated carbon. Chemical Engineering Journal. 2012, 200, 25-31.