0571-87953138
wsf@zju.edu.cn
Zhejiang University Yuquan campus Chemical Reaction Engineering Institute Room201
Dr. Su Fang Wu is a professor of Zhejiang University in China. She received her Ph.D. degree of Zhejiang University in 1992 in chemical engineering. She worked in the area of industrial catalyst and chemical reaction engineering in Zhejiang University after graduated. During 2002-2003, she worked as a visiting scientist in Korea Institute of Energy Research (KIER). She focused her researches on the studies of the nano CaO-based CO2 adsorbent, and developed the Reactive Sorption Enhanced Reforming (ReSER) process for hydrogen production from methane since 2003 after she returned to Zhejiang University. The new adsorbents, catalysts, process and reactors were developed for energy saving ReSER hydrogen production technique. Her projects were supported by National Science Foundation of China (NSFC), Sinopec and China government. Over 68 research papers have been published and 23 patents have been registered, in which 19 patents have been authorized. 18 patents are authorized as Chinese patents and one is authorized as a US patent. One teaching book named "Hydrogen Energy and Hydrogen Production Technology" has been published.
Research Areas
Courses
Hydrogen Energy and Hydrogen Production Technology
Paper
1、H. Liu, Z.W.Yang ,S. Q. Lu , S. F. Wu. The Calculation and Experimental Study of Reactive Sorption Enhanced Steam Reforming of Modeled Biogas for Hydrogen Production[J].Renewable Energy Resources. 2018,36(5):633-638
2、H. Liu, P.Q.Lan, S. Q. Lu, S. F. Wu, The Crystallization Kinetic Model of Nano-CaCO3 in CO2-Ammonia-Phosphogypsum Reaction System, Journal of Crystal Growth, 2018,492:114-121
3、Q. R. Lin, Z. D. Xu,S. F. Wu, Hydrogen Production via Sorption Enhanced Steam Reforming of Bio-Ethanol Using Nano Ca-Based Adsorbents,J. Chem. Eng. Chinese Universities,2018,32(1):161-167 (DOI:10.3969/j.issn.1003-9015.201801022)(SCI)
4、H. L. Ping, Hao LIU , S. F. Wu. The Study of CaO Carbonation Reaction Kinetics of Cage-like Nano-CaO based CO2 Sorbents[J]. Chem. Reac. Eng. Technol. 2017,33(6):487-492
5、S. Q. Lu, S. F. Wu, Modulation of nano CaCO3 pore size and effect on properties of carbonation reaction[J]. CIESC Journal, 2018, 69(6): 2753-2758.
6、S. Q. Lu, P. Q. Lan, S. F. Wu, Preparation of Nano-CaCO3 from Phosphogypsum by Gas–Liquid–Solid Reaction for CO2 Sorption, Ind. Eng. Chem. Res., 2016, 55(38), 10172-10177
7、Y. J. Fan, S. F. Wu,A graphene-supported copper-based catalyst for the hydrogenation of carbon dioxide to form methanol, J. CO2 Util., 2016, 16, 150-156
8、Y. J. Fan, S. F. Wu,Advances in copper-based catalyst for the methanol synthesis from CO2 hydrogenation, Chem. Ind. Eng. Prog., 2016, 35 (S1): 159-166
9、H. L. Ping, Y. Wang ,S. F. Wu,Preparation of MgO-coated Nano CaO Using Adsorption Phase Reaction Technique for CO2 Sorption,RSC Advances, 2016, DOI: 10.1039/C6RA05452H
10、H. L. Ping, S. F. Wu, CO2 sorption durability of Zr-modified nano-CaO sorbents with cage-like hollow sphere structure. ACS Sus. Chem. Eng., 2016, (DOI: 10.1021/acssuschemeng.5b01397)(SCI)
11、J. Y. Xu, X. C. Xue, S. F. Wu, Stability of the Ni-TiO2@nano CaO/Al2O3 complex catalyst used in ReSER process for hydrogen production. Int. J. Hydrogen Energ., 2016, (DOI: 10.1016/j.ijhydene.2016.03.070)(SCI)
12、S. Q. Lu, S. F. Wu, Calcination-carbonation durability of nano CaCO3 doped with Li2SO4. Chem. Eng. J., 2016, 294, 22-29.(SCI,EI)
13、X. Wu, R. Wu, S. F. Wu, Kinetic study of reactive sorption-enhanced reforming of coke oven gas for hydrogen production. Journal of Natural Gas Science and Engineering. 2015.10.007.(SCI)
14、H. L. Ping, G. H. Xu, S. F. Wu, System optimization of cyclohexane dehydrogenation under multiphase reaction conditions using the uniform design method. Int. J. Hydrogen Energy. 2015.09.002(SCI)
15、X. C. Xue, S. F. Wu, The microstructure and stability of a Ni-nano-CaO/Al2O3 reforming catalyst under carbonation–calcination cycling conditions. Int. J. Hydrogen Energy.2015, 40 (16): 5617-5623 .(SCI)
16、X. Wu, S. F. Wu, Production of high-purity hydrogen by sorption-enhanced steam reforming process of methanol. J. Energ. Chem., 2015. 24(3): p. 315-321.(SCI)
17、X. C. Xue, Y. Wang, S. F. Wu, 包覆改性纳米CaO基CO2吸附剂的反应吸附性能, Chem. Reac. Eng. Technol.,2015,04:379-384(EI)
18、Shangqing Lu, Sufang Wu, Advances in calcium carbonate thermal decomposition,CIESC J., 2015,08:2895-2902(EI)
19、H. L. Ping, S. F. Wu, Preparation of cage-like nano-CaCO3 hollow spheres for enhanced CO2 sorption[J], RSC Advances, 2015,5:65052-65057(SCI,EI)
20、X Wu,C Wu,S. F. Wu, Dual-enhanced steam methane reforming by membrane separation of H2 and reactive sorption of CO2[J], Chem. Eng. Res. Des., 2015,96(1):150-7(SCI,EI)
21、Y. Y. Shi, P. Q. Lan, Y. Wang, S. F. Wu, Modified Kinetics Model of Nano CaO Reactions with CO2 in a CaO-Based Adsorbent, J. Chem. Eng. Chinese Universities, 2015,29(1):96-101
22、P. Q. Lan, S. F. Wu, Mechanism for self-reactivation of nano-CaO-based CO2 sorbent in calcium looping. Fuel, 2015, 143, (1): 9-15.(SCI)
23、R. Wu, S. F. Wu,Thermodynamic calculations for reactive sorption enhanced reforming of C2/C3 light hydrocarbons, CIESC J., 2014,65 (6): 1961-1970
24、P. Q. Lan, S. F. Wu, Synthesis of a Porous Nano-CaO/MgO-Based CO2 Adsorbent, Chem. Eng. Technol., 2014,37(4):580-586.(SCI)
25、F. Zhang,R. Wu,S. F. Wu,Preparation of a NiO-CaO/Al2O3 Sorption Complex Catalyst by Hydrothermal Precipitation Method and its Application in ReSER Process, J. Chem. Eng. Chinese Universities, 2014 (EI)
26、F. Zhang,S. F. Wu,水热沉淀法制备Ni-CaO/Al2O3复合催化剂工艺条件的考察, Chem. Reac. Eng. Technol., 2014.30(5),428-431(EI )
27、F. Zhang, Q. Tang, S. F. Wu. Preparation of a mesoporous sorption complex catalyst and its evaluation in Reactive Sorption Enhanced Reforming [J]. J. ZJU Sci. (A), 2013, 12: 915-922.( SCI, EI )
28、R. Wu, S. F. Wu The ReSER-COG process for hydrogen production on a Ni–CaO/Al2O3 complex catalyst[J]. Int. J. Hydrogen Energ., 2013,38:11818-11825.( SCI, EI )
29、Y. Wang,Y. Q. Zhu,S. F. Wu,A New Nano CaO-based CO2 Adsorbent Prepared Using an Adsorption Phase Technique, Chem. Eng. J., 2013, 218: 39-45.( SCI, EI )
30、H. Z. Feng, P.Q,Lan, S. F. Wu, A Study on the Stability of a NiO-CaO/Al2O3 Complex Catalyst by La2O3 Modification for Hydrogen Production, Int. J. Hydrogen Energ., 2012, 37(19):14161-14166 ( SCI, EI )
31、Q. Tang,S. F. Wu,The Effect of CaO Content on Sorption Performance of Nano CaO Based CO2 Adsorbent, J. Chem. Eng. Chinese Universities, 2012,26(1):31-37
32、S. F. Wu, P. Q. Lan, A kinetic model of Nano-CaO reactions with CO2 in a sorption complex catalyst, AIChE J. 2012, 58(5):1570-1577
33、Y. Q. Zhu, S. F. Wu , X. Q. Wang. Nano CaO grain characteristics and growth model under calcination, Chem. Eng. J., 2011,175(15):512-518(SCI, EI)
34、S. F. Wu, M. Z. Jiang. Formation of a Ca12Al14O33 Nanolayer and Its Effect on the Attrition Behavior of CO2-Adsorbent Microspheres Composed of CaO Nanoparticles, Ind. Eng. Chem. Res., 2010, 49(23), 12269–12275(SCI, EI)
35、S. F. Wu, L. L. Wang,Improvement of the stability of a ZrO2-modified Nienano-CaO sorption complex catalyst for ReSER hydrogen production, Int. J .Hydrogen Energy, 2010, 35(13):6518-6524(SCI, EI)
36、S. F. Wu, Y. Q. Zhu. Behavior of CaTiO3/Nano-CaO as a CO2 Reactive Adsorbent, Ind. Eng. Chem. Res., 2010,49(6):2701-2706(SCI, EI)
37、S. F. Wu, L.B. Li,Y. Q. Zhu,X.Q. Wang, A micro-sphere catalyst complex with nano CaCO3 precursor for hydrogen production used in ReSER process, Eng. Sci., 2010,8(1):22-26
38、Q. Shi, S. F. Wu, Mingzhe Jiang, Qinghui Li,Reactive sorption-decomposition kinetics of nano Ca-based CO2 sorbents, CIESC J., 2009,60(3):641-648 (EI)
39、Q. Shi,S. F. Wu,Properties of SiO2 coated nano SiO2/CaCO3 sorbents by precipitation method, CIESC J., 2009,60(2):507-513 (EI)
40、Q. Q. Wang, S. F. Wu, L. L. Wang. The Desulfurization Properties and Mechanism of Ni2+ Modified Zeolites for Desulfurization of Model Diesel, J. Chem. Eng. Chinese Universities, 2008, 22(6):1049-1054(EI)
41、S. F. Wu, Qing. H. Li, Jong. N. Kim ,Kwang. B. Yi,Properties of Nano CaO/Al2O3 CO2 Sorbent, Ind. Eng. Chem. Res., 2008, 47(1) 180-184 (SCI,EI)
42、S. F. Wu, T. H. Beum, J. I. Yang, and J.N. Kim, Properties of Ca-Base CO2 Sorbent Using Ca(OH)2 as Precursor, Ind. Eng. Chem. Res., 2007,46:7896-7899(SCI,EI)
43、M. Li,S.F.Wu,H.F.Li,Study on Macro-kinetics of Preparation of Tethyl Isobutyl Ketone via Dehydrogenation of Methyl Isobutyl Carbinol, J. Chem. Eng. Chinese Universities, 2007,21(3):520-524(EI)
44、Q. H. Li,S. F. Wu,Factors of CO2 Adsorption Ratio of CO2 Sorbent Used in the Adsorption Enhanced Reaction to Producing Hydrogen from Nature Gas, ZheJiang Chem. Ind., 2007,38(8):4-6
45、J. He,S. F. Wu,The Characteristics of Sorption Enhanced Steam Methane Reforming for Hydrogen Production on a Complex Catalyst, Chem. Reac. Eng. Technol., 2007,23(5):470-373
46、R. Wu, S. F. WU,Performance of nano-CaCO3 coated with SiO2 on CO2 adsorption at high temperature, CIESC J., 2006,57(7):1722-1726 (EI)
Patent
1、S. F. Wu,Z.W.Yang,P. Q. Lan, Method for continuously hydrogenating biogas steam by using carbon dioxide reaction to adsorb carbon dioxide, Chinese invention patent,ZL201510429092
2、S. F. Wu,Y.Wang,X.C.Xue,Surface coated modified nano calcium oxide based CO2 adsorbent and preparation method,Chinese invention patent,ZL2014101535278
3、S. F. Wu,P. Q. Lan, Method for preparing a nano calcium carbonate slurry from waste gypsum as calcium source, the product use and thereof ,US 8846562,2014,Sep.30
4、S. F. Wu,X Wu,Method and device for adsorbing enhanced methanol steam reforming hydrogen production,Chinese invention patent,ZL201310198209.9
5、S. F. Wu,X.C.Xue,Z.M.Wang,X.Wu,J.Y.Xu,Device and method for fluidized-fixed composite bed reaction adsorption enhanced methane steam reforming hydrogen production,Chinese invention patent,ZL201310241587.0
6、S. F. Wu,P. Q. Lan, Method, product and application for preparing nano calcium carbonate slurry by using waste gypsum as calcium source,Chinese invention patent,ZL201310631224.8
7、S. F. Wu,C.Wu,X.Q.Wang,Method and device for decarburization and dehydrogenation double strengthening methane steam reforming hydrogen production,Chinese invention patent,ZL201210133963.X
8、S. F. Wu,Y.Y.Shi,R.Wu,X.C.Xue,Y.Wang,Preparation method, product and application of microsphere nano-CaO-based CO2 adsorbent for circulating fluidized bed,Chinese invention patent,ZL20121012247205
9、S. F. Wu,Q.Tang,Reamed nickel oxide-calcium oxide/alumina composite catalyst and preparation and application,Chinese invention patent,ZL201110172085.8
10、S. F. Wu,M.Z.Jang,Method for preparing wear-resistant nano-calcium oxide-based carbon dioxide reaction adsorbent,Chinese invention patent,ZL201010515871.9
Book of publication
Hydrogen Energy and Hydrogen Production Technology
