肖文德
发布日期:2021-05-28阅读次数: 976
1、基本信息
姓名:肖文德
职称:教授
电话:021-34203788,13916955528
通讯地址:
200240,
上海市东川路800号,
上海交通大学,
化学化工学院B楼409室
2、教育经历
1981-1985:华东理工大学,煤化工学士学位
1985-1988:华东理工大学,化学工程硕士学位
1988-1991:华东理工大学,化学工程博士学位
3、工作经历
2001-2009:华东理工大学,化工学院,国家化学工程重点实验室,联合化学反应工程研究所,1994年副教授,1997年教授,博导
2009-:上海交通大学,化学化工学院化工系,教授,博导
4、研究方向
学术专长:催化工程、反应工程、分离工程、化工系统工程,尤其在非定态催化,多相反应器,反应精馏和化学吸收,计算流体力学(CFD)和计算化学(DFT)等方面。
研究领域:化工与能源、环境和材料的交叉领域。
研究方向:洁净煤技术、绿色化学、C1化学(煤化工)、和新能源(太阳能光伏)和新材料(多晶硅)等方向的工程科学研究。
5、研究项目
1995-1999,国家“九五”重点科技攻关项目“二氧化硫废气回收新技术的工程化研究”
1996-2000,国家自然科学基金会“九五”重点基础研究项目“若干重要催化过程的基础研究”
2001-2005,国家科技部“十五”863项目“可资源化烟气脱硫技术”
2006-2009,国家科技部“十一五”863项目“烟气脱硝新技术的研究”
2009-2012, 企业合作项目“合成气制乙二醇2000吨中试过程研究”
2010-, 企业合作项目“多晶硅生产新技术500吨中试过程研究”
2012- 企业合作项目“合成气制乙二醇十万吨级工业性示范过程研究”
2016-,企业合作项目,“硅烷生产装置升级改造技术研究和开发”
2018-,企业合作项目,“循环流化床锅炉近零排放技术研究及工业化示范”
2019-,内蒙古自治区重大专项,“合成气制乙二醇关键技术研究”
2019-,内蒙古自治区关键技术攻关项目,“高产率甲醇制烯烃新技术研究与开发”
6、荣誉奖励
1995年,教育部“跨世纪优秀人才”计划;
1996年,上海市科技“启明星”计划;
1999年,国家教育部“长江学者”计划;
2000年,国务院特殊津贴;
2001年,上海市优秀科技“启明星”;
2000年,第16届国际化学反应工程年会(ISCRE,波兰,克拉科夫市),
获得由Bayer、BASF和Degussa资助的青年学者奖;
2002年,第17届国际化学反应工程年会(ISCRE,香港),
获得由王宽诚基金资助的青年学者奖。
7、学术兼职
《石油化工》,《化学工程》,《高校化学工程学报》编委
8、教学工作
1、本科生:《反应工程原理》、《绿色能源与化工》
2、研究生:《高等反应工程》
9、代表性论文及专著
Xun Huang, Hu Li, Hui Li, Wen-De Xiao*. Modeling and analysis of the lurgi-type methanol to propylene process: Optimization of olefin recycle. AIChE Journal, accepted
Xue-Gang Li, Xun Huang, Wen-De Xiao,Reactive Distillation Aided Ultrapure Silane Production from Trichlorosilane: Process Simulation and Optimization, Industrial & Engineering Chemistry Research, revised.
Xun Huang, Xue-Gang Li, Hu Li, Wen-De Xiao*. High-Performance HZSM-5/ cordierite monolithic catalyst for methanol to propylene reaction: a combined experimental and modeling study. Submitted to Fuel Processing Technology.
Xue-Gang Li and Wen-De Xiao,Silane Pyrolysis to Silicon Rod in a Bell-Jar Reactor at High Temperature and Pressure: Modeling and Simulation, Industrial & Engineering Chemistry Research, 2016, 55, 4887?4896.
Xun Huang, Dilireba Aihemaitijiang, Wen-De Xiao*. Co-reaction of methanol and olefins on the high silicon HZSM-5 catalyst: a kinetic study. Chemical Engineering Journal, 2016, 286: 150-164.
Xun Huang, Hu Li, Wen-De Xiao*, De Chen. Insight into the side reactions in methanol-to-olefin process over HZSM-5: a kinetic study. Chemical Engineering Journal, 2016, 299: 263-275.
Xun Huang, Hui Li, Hu Li, Wen-De Xiao*. A computationally efficient multi-scale simulation of a multi-stage fixed-bed reactor for methanol to propylene reactions. Fuel Processing Technology, 2016, (150),104-116.
Xun Huang, Dilireba Aihemaitijiang, Wen-De Xiao*. Reaction pathway and kinetics of C3-C7 olefin transformation over high-silicon HZSM-5 zeolite at 400-490oC. Chemical Engineering Journal 2015, 280: 222-232.
Liu, S.S., Xiao, W.D., CFD-PBM coupled simulation of silicon CVD growth in a fluidized bed reactor: effect of silane pyrolysis kinetic models. Chemical Engineering Science, 2015,127, 84-94.
Liu, S.S., Xiao, W.D., Sintering effect on crystallite size, hydrogen bond structure and morphology of the silane-derived silicon powders. Powder Technology, 2015,273,40-46.
Liu, S.S., Xiao, W.D., Numerical simulations of particle growth in a silicon-CVD fluidized bed reactor via a CFD-PBM coupled model. Chemical Engineering Science, 2014. 111: p. 112-125
Liu, S.S., Xiao, W.D., Evaluation of the flow behavior in a large-scale polydisperse particle fluidized system by an energy minimization multiscale-Eulerian combined model. Industrial & Engineering Chemistry Research, 2014. 53: p. 14113-14126
Ding, W. J.; Yan, J. M.; Xiao, W, D. Hydrogenation of Silicon Tetrachloride in the Presence of Silicon: Thermodynamic and Experimental Investigation. Industrial & Engineering Chemistry Research, 2014, 53, 10943-10953.
Ding, W. J.; Wang, Z. B.; Yan, J. M.; Xiao, W, D. CuCl-Catalyzed Hydrogenation of Silicon Tetrachloride in the Presence of Silicon: Mechanism and Kinetic Modeling. . Industrial & Engineering Chemistry Research, 2014, 53, 16725-16735.
Wenyao Guo, Wenzhang Wu, Man Luo, Wende Xiao*, Modeling of diffusion and reaction in monolithic catalysts for the methanol-to-propylene process, Fuel Processing Technology, 108 (2013) 133–138
Fan C. M. Luo, W. Xiao, Reaction mechanism of methyl nitrite dissociation during co catalytic coupling to dimethyl oxalate: A density functional theory study,Chinese Journal of Chemical Engineering, 2015, 10.1016
Xun Huang, Wei-Jie Ding, Jian-Min Yan, and Wen-De Xiao, Reactive Distillation Column for Disproportionation of Trichlorosilane to Silane: Reducing Refrigeration Load with Intermediate Condensers, Industrial & Engineering Chemistry Research ,2013, 52, 6211?6220
Guo W., Wu W., Luo M., Xiao W.D.,Modeling of diffusion and reaction in monolithic catalysts for the methanol-to-propylene process, Fuel Processing Technology 106 (2012) 91-97
Guo W., Xiao W.D., Comparison among monolithic and randomly packed reactorsfor the methanol-to-propylene process, Chemical Engineering Journal, 207–208 (2012) 734–745
Wu W.,Guo W., Xiao W. D,Methanol conversion to olefins (MTO) over H-ZSM-5: Evidence of product distribution governed by methanol conversion, Fuel Processing Technology, 104 (2012) 95–100
Wu W.,Guo W., Xiao W. D, Dominant reaction pathway for methanol conversion to propene over high silicon H-ZSM-5, Chemical Engineering Science, 66 (2011) 4722–4732
Wang F., Luo M., Xiao W. D, Coking behavior of a submicron MFI catalyst during ethanol dehydration to ethylene in a pilot-scale fixed-bed reactor, Applied Catalysis A: General , 393 (2011) 161–170
Ji Y.,Liu G., Li W, W. D. Xiao, The mechanism of CO coupling reaction to form dimethyl oxalate over Pd/a-Al2O 3, J. of Molecular Catalysis A: Chemical, 1-2(314), 63-70(2009)
Liu X. F., Ji Y.,Li W.,W.D. Xiao, Preparation and Catalytic Activity of Egg-Shelled Catalst Pd/a-Al2O3, Chinese J. of Catalysis, 3(30), 213-217(2009)
Mao Y. P., Chen H., Long X. L., W. D. Xiao, Experimental determination of equilibrium constant for the complexing reaction of nitric oxide with hexamminecobalt(II) in aqueous solution, J. of Hazardous Materials, 1(162), 99-102(2009)
Long X.L., Cheng H, Xin Z. L., W. D. Xiao, Adsorption of ammonia on activated carbon from aqueous solution, Environmental Progress, 2(27), 225-233(2008)
Liu S Y, Xiao W D, Liu P, Feasibility study of new limestone flue gas desulfurization process, Clean-Soil Air water, 5-6(36), 482-487(2008)
Mao Y P, Bi W, Long X L, W D Xiao, Kinetics for the simultaneous absorption of nitric oxide and sulfur dioxide with the hexamminecobalt solution, Separation and Purification Technology, 1(62), 183-191(2008)
Lin Q, Ji Y., Jiang Z. D., W. D. Xiao, Effects of precursors on preparation of Pd/a-Al2O3 catalyst for synthesis of dimethyl oxalate, Industrial and Engineering Chemistry Research, 24(46), 7950-7954 (2007)
Liu B T, Chen H Mao Y P, W D Xiao, Absorption of NO in aqueous solution of Co(II)-en: Determination of the equilibrium constant, J. of Chemical and Engineering Data, 3(52), 762-765(2007)
Long X L, Xin Z L, Chen M B, W D Xiao, Nitric oxide absorption into cobalt ethylenediamine solution, Separation and Purification Technology, 2(55), 226-231(2007)
Sun L., Fu J. Y., Li W, W. D. Xiao, Binary vapor-liquid equilibrium of methyl glycolate and ethylene glycol, Fluid Phase Equilibrium, 1-2(250), 33-36(2006)
Lin Q, Zhao X G, Bi W, W. D Xiao, Influence of a-Al2O3 properties on CO catalytic coupling reaction over Pd catalyst, Chinese J. of Catalysis, 10(27), 911-915(2006)
Liu S. Y., W. D. Xiao, Modeling and simulation of a bubbling SO2 absorber with granular limestone slurry and an organic additive, Chemical Engineering and Technology, 10(29), 1167-1173(2006)
Long X L, Xiao W. D., W K. Yuan, Removal of sulfur dioxide and nitric oxide using cobalt ethylene diamine solution, Industrial and Engineering Chemistry Research, 4(44), 686-691(2005)
Long X. L. Xiao W. D. W. K. Yuan, Kinetics of gas-liquid reaction between NO and Co(en)33+, Industrial and Engineering Chemistry Research, 12(44), 4200-4205(2005)
Zhao X. G. Lin Q, W. D. Xiao, Characterization of Pd-CeO2/a-Al2O3 catalyst for synthesis of dimethyl oxalate, Applied Catalysis A: General, 1-2(284), 253-257(2005)
Lu W Z, Teng L H, W D Xiao, Simulation and experimental study of dimethyl ether synthesis from syngas in a fluidized-bed reactor, Chemical Engineering Science, 22-23(59), 5455-5464(2004)
Long X L, Xin Z L, Wang H X, Xiao W D, W K Yuan, Simultaneous removal of NO and SO2 with hexamine cobalt(II) solution coupled with hexamminecobalt(II) regeneration catalyzed by activated carbon, Applied Catalysis B: Environmental, 1(54), 25-32 (2004)
Long X L, Xiao W D, W K Yuan, Removal of nitric oxide and sulfur dioxide from flue gas using a hexaminecolbalt(II)/ iodide solution, Industrial and Engineering Chemistry Research, 15(43), 4048-4053(2004)
Zhao X G, Lu X L, Zhao H G, Zhu Y Q, W D Xiao, Study on Pd/a-Al2O3 catalyst for vapor-phase coupling reaction of CO with CH3ONO to (CH3OOC)2, Chinese J. of Catalysis, 2(25), 125-128(2004)
Fang Y J, W D Xiao, Experimental and modeling studies on a homogeneous reactive distillation system for dimethyl carbonate synthesis by transesterification, Separation and Purification Technology, 1-3(34), 255-263(2004)
Li P, Lu G Z, Zhao X G, W D Xiao, Effects of SO2 on NO catalytic oxidation studied by TPD method, Chinese J. of Catalysis, 9(24), 681-686(2003)
Luo H P, Zhou J H, W D Xiao, Isobaric vapor-liquid equilibria of binary mixtures containing dimethyl carbonate under atmosphere pressure, J. of Chemical and Engineering Data, 1(47), 113-116(2002)
博士后应聘要求
1、在世界知名高校或科研院所获得化学、化工、催化剂、环境工程、热能工程、材料学或其他相关专业博士学位,35周岁以下。
博士后岗位待遇
1、提供具有市场竞争力的薪酬,底薪30万元起,另外根据工作表现,给予绩效奖金;
2、鼓励和支持博士后研究人员申报"博士后创新人才支持计划"("博新计划",两年60万资助,其中40万为博士后日常经费,20万为博士后科学基金)、国家自然科学青年基金以及其它国家与地方的科技项目和博士后资助项目;
3、按照上海市和上海交通大学博士后管理政策办理有关落户事宜,享受社会保险、公积金等福利待遇;
4、博士后出站若留上海工作,配偶及子女可随迁落户;
5、取得优秀科研成果、满足上交教研序列要求者,经评估后可推荐留校获教轨教职。
