肖杰
  姓名:肖杰
  职称:教授、博士生导师
            江苏特聘教授、化工与环境工程学院副院长
  部门:化工与环境工程学院
  联系方式:

电话:86-512-65882756

邮箱:jie.xiao@suda.edu.cn

地址:苏州工业园区仁爱路199911505

邮编:215123


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常年招收科研助理和博士后;
欢迎对计算机建模模拟感兴趣的学子报考本课题组硕士或博士研究生!


教育及工作经历

        肖杰,现任苏州大学材化部化工与环境工程学院教授,博士生导师。1997-2004年期间在浙江大学就读并获得工业自动化学士,及控制科学与工程硕士学位。其后在美国韦恩州立大学分别于2006年,2009年,和2010年获得化工硕士,材料学硕士,和化工博士学位。20103月至20123月,在华盛顿州立大学应用科学实验室从事博士后研究。肖博士及其团队一直以来充分发挥数学建模与数值模拟的优势,从宏观尺度到微观尺度定量揭示集成系统中错综复杂的相互作用及其变化规律。在四个领域内开展了深入研究:仿生化工领域:动物消化系统行为多尺度模拟,柔性反应器;乳液热处理复杂系统内表界面设计及演变:换热器抑垢研究;过程与产品集成系统:乳品颗粒喷雾干燥生产研究;功能涂层的设计与生产优化。发表SCI/EI期刊论文68篇,其中近1/3是化工三大期刊的第一或通讯作者论文。赴国内外高校及会议作近76场报告,含18场邀请报告,作为组委会核心成员组织5次国际会议。获得江苏省优秀青年基金(2017),入选中澳青年科学家交流计划中方学者(2016),江苏省双创计划人才(2014),江苏省双创团队核心成员(2013),江苏特聘教授(2012)。现任AIChE高级会员,中国颗粒学会青年理事,中国化工学会过程模拟及仿真委员会的首届委员。

 

研究方向

仿生化工:消化系统,柔性反应器,植物生长中的化工原理、珊瑚系统中的化工原理

多尺度系统工程:理论开发及工程应用

喷雾干燥系统多尺度模拟与设计优化

换热器结垢多尺度模拟及防垢技术开发

 

代表性论文

1. Zhang YN, Wu P, Jeantet R, Dupont D, Delaplace G, Chen XD, Xiao J*. How motility can enhance mass transfer and absorption in the duodenum: Taking the structure of the villi into account. Chem. Eng. Sci. 2020; 213: 115406-1-13.

2. Zou SY, Zha JP, Xiao J*, Chen XD. How eyelashes can protect the eye through inhibiting ocular water evaporation: A chemical engineering perspective. J. R. Soc. Interface 2019; 16: 20190425-1-12.

3. Wei YC, Woo MW, Selomulya C, Wu WD, Xiao J*, Chen XD*. Numerical simulation of mono-disperse droplet spray dryer under the influence of nozzle motion. Powder Technology 2019; 355: 93-105.

4. George OA, Xiao J*, Mercade-Prieto R*, Fu N, Chen XD*. Numerical probing of suspended lactose droplet drying experiment. Journal of Food Engineering 2019; 254: 51-63.  

5. Xiao J*, Yang SJ, George OA, Putranto A, Wu WD, Chen XD*. Numerical simulation of mono-disperse droplet spray dryer: Coupling distinctively different sized chambers. Chem. Eng. Sci. 2019; 200: 12-26.

6. Pan F, Chen XD, Mercade-Prieto R*, Xiao J*. Numerical simulation of milk fouling: Taking fouling layer domain and localized surface reaction kinetics into account. Chem. Eng. Sci. 2019; 197: 306-316. 

7. Delaplace G*, Gu YY, Liu MH, Jeantet R, Xiao J*, Chen XD. Homogenization of liquids inside a new soft elastic reactor: Revealing mixing behavior through dimensional analysis. Chem. Eng. Sci. 2018; 192: 1071-1080.

8. Xiao J*, Pan F, Xia HT, Zou SY, Zhang H, George O, Zhou F, Huang YL. Computational study of single droplet deposition on randomly rough surfaces: Surface morphological effect on droplet impact dynamics. Ind. Eng. Chem. Res. 2018; 57(22): 7664-7675.

9. Xiao J*, Zou C, Liu MH, Zhang GD, Delaplace G, Jeantet R, Chen XD*. Mixing in a soft-elastic reactor (SER) characterized using an RGB based image analysis method. Chem. Eng. Sci. 2018; 181: 272-285.  

10. Xiao J*, Li Y, George OA, Li ZH, Yang SJ, Woo MW, Wu WD, Chen XD*. Numerical investigation of droplet pre-dispersion in a monodisperse droplet spray dryer. Particuology 2018; 38: 44-60.

11. Xiao J*, Li ZH, Han J, Pan F, Woo MW, Chen XD*. A systematic investigation of the fouling induction phenomena with artificial crystal structures and distributions. Chem. Eng. Sci. 2017; 168: 137-155.

12. George OA, Xiao J*, Rodrigo CS, Mercade-Prieto R, Sempere J, Chen XD*. Detailed numerical analysis of evaporation of a micrometer water droplet suspended on a glass filament. Chem. Eng. Sci. 2017; 165:33-47.

13. Gao Q, Xiao J*, Chen XD*. Understanding hydrotropism: A chemical Engineering perspective. AIChE J. 2016; 62(4): 1331-1346.

14. George OA, Chen XD*, Xiao J*, Woo M, Che L. An effective rate approach to modelling single-stage spray drying. AIChE J. 2015; 61(12): 4140-4151. 

15. Xiao J*, Chen XD*. Multiscale modeling for surface composition of spray-dried two-component powders.  AIChE J. 2014; 60: 2416-2427. 

16. Xiao J, Huang YL.  Technology integration for sustainable manufacturing: An applied study on integrated profitable pollution prevention in surface finishing systems. Ind. Eng. Chem. Res. 2012; 51: 11434-11444. 

17. Xiao J, Chaudhuri S.  Design of anti-icing coatings using supercooled droplets as nano-to-microscale probes. Langmuir 2012; 28: 4434-4446. 

18. Xiao J, Chaudhuri S. Predictive modeling of localized corrosion: An application to aluminum alloys. Electrochimica Acta 2011; 56: 5630-5641. 

19. Xiao J, Huang YL, Manke C.  Computational design of thermoset nanocomposite coatings: Methodological study on coating development and testing. Chem. Eng. Sci. 2010; 65: 753-771. 

20. Xiao J, Huang YL, Manke C. Computational design of polymer nanocomposite coatings: A multiscale hierarchical approach for barrier property prediction. Ind. Eng. Chem. Res. 2010; 49: 7718-7727. 

21. Xiao J, Huang YL.  Microstructure-property-quality-correlated paint design: an LMC-based approach. AIChE J. 2009; 55: 132-149.  

22. Xiao J, Huang YL, Lou HH. A probability distribution estimation based method for dynamic optimization. AIChE J. 2007; 53: 1805-1816. 

23. Xiao J, Huang YL, Qian Y, Lou HH.  Integrated product and process control of single-input-single-output systems. AIChE J.  2007; 53: 891-901. 

24. Xiao J, Li J, Xu Q, Huang YL, Lou HH. ACS-based dynamic optimization for curing of polymeric coating. AIChE J. 2006; 52: 1410-1422. 

25. Xiao J, Li J, Lou HH, Huang YL. Cure-window-based proactive quality control in topcoat curing.  Ind. Eng. Chem. Res. 2006; 45: 2351-2360.