尧超群个人简历


               

尧超群

研究员 硕士生导师

电话:+86-0411-84379327

传真:+86-0411-84379327

Email: superyao@dicp.ac.cn

http://www.microchem.dicp.ac.cn/index.html

尧超群分别于2010年和2015年获得工学学士学位(天津大学,化学工程与工艺)和工学博士学位(中国科学院大学,大连化物所,化学工程)。2015年9月破格提拔为副研究员,入职大连化学物理研究所,从事微化工技术研究。研究方向包括微通道内多相流及传递过程,基于微反应器过程工艺开发和超声强化等。在AIChE J, Chem Eng Sci, Ind Eng Chem Res, Chem Eng J, Lab Chip,化工学报等国内外著名期刊发表学术论文30余篇;受邀在14th国际气液和气液固反应器工程会议、6th亚太化工和生物微流控会议、5th全国传质与分离工程学术会议、亚洲流动化学2019会议上做邀请或主旨报告。

入选“中科院优秀博士论文”、“中科院青年创新促进会”科技部“新型高效过程耦合强化创新团队”等荣誉或组织。作为项目负责人主持国家自然科学基金面上项目和联合项目、人才支持计划中科院“青年创新促进会”和首届大连化物所“优秀青年博士人才”项目、大连化物所青年创新基金和横向合作项目等共8项科研项目,总经费530万元。作为项目骨干参与基金委重点项目、大连市科技创新基金和克拉玛依市科技计划项目等。 


招生方向:化学工程,有机合成,化工机械


主要研究方向:

1.微尺度多相流及传递过程

研究微通道内气-液、液-液及气-液-液等多相流动、传质及混合特性,开发高效的微分散多相体系,建立多相反应过程传递模型,为微反应器设计提供理论指导。

2.基于微反应器的过程工艺开发和过程强化

基于微反应器的异构烷烃-烯烃烷基化反应,通过提高相间传质速率以提高反应活性、减少浓酸量和降低烃类循环比。

发展二氧化碳高效捕集技术,实现油田伴生气、沼气和填埋气等的分散式甲烷回收以及FLNG等受限空间的甲烷净化过程。

3.超声强化技术

利用超声空化作用,分析微尺度下空化机理,实现多相传递及反应过程强化。


承担科研项目:

✓ 国家自然科学基金面上项目,21676263,微通道内弹状流型下泄漏流的流动、传质、混合及其耦合机理与调控,2017/01-2020/12,64万元,在研,主持。

✓ 国家自然科学基金石油化工联合基金项目(A类),U1662124,微通道反应器内异构烷烃/烯烃烷基化反应研究,2017/01-2019/12,65万元,在研,主持。

✓ 大连化物所创新基金,DICP I201925,微尺度设备内复杂流体传递规律与过程集成,2019/08 -2021/7,在研,主持。

✓ 企业合作项目:微反应器内亚硝酸甲酯再生反应研究,2017/04-2018/01,36万元,结题,主持。

✓ 企业合作项目:微反应器内气相磺化研究,40万元,2018/03-2018/11,在研,主持。

✓ 克拉玛依市科技计划项目,2017/06-2018/12,微化工应用技术开发项目,350万(市财政80万),在研,参加(负责课题)。


文章列表:

1. Yao CQ, Zheng J, Zhang Qi, Chen GW*. Characteristics of gas-liquid Taylor flow with different liquid viscosities in a rectangular microchannel.Chemical Engineering Journal, 2019,373,437-445.

2. Mi Y,Yao CQ, Zhao SN, Chen GW*.Ethylene/ethane absorption with AgNO3 solutions in ultrasonic microreactors.Chemical Engineering and Processing-Process Intensification, 2019, 137, 137-147.

3. Zhao SN,Yao CQ, Dong ZY, Chen GW*, Yuan Q.Role of ultrasonic oscillation in chemical processes in microreactors: A mesoscale issue,Particuology,in press,2019.

4. Zhang Q, Liu HC, Zhao SN,Yao CQ*, Chen GW*.Hydrodynamics and mass transfer characteristics of liquid–liquid slug flow in microchannels: The effects of temperature, fluid properties and channel size,Chemical Engineering Journal,2019,358,794-805.

5. Liu HC, Zhao SN, Zhou F,Yao CQ, Chen GW*.Ultrasonic Enhancement of CO2 Desorption from MDEA Solution in Microchannels,Industrial & Engineering Chemistry Research,2019, 58 (4), 1711-1719.

6. Zhao SN,Yao CQ, Dong ZY, Liu YY, Chen GW*, Yuan Q. Intensification of liquid-liquid two-phase mass transfer by oscillating bubbles in ultrasonic microreactor.Chemical Engineering Science,2018,186,122-134.

7. Zhao SN, Dong ZY,Yao CQ, Wen ZH, Chen GW, Yuan Q. Liquid-liquid two-phase flow in ultrasonic microreactors: Cavitation, emulsification, and mass transfer enhancement,AIChE Journal, 2018, 64,1412-1423.

8. Peng Zhang#Yao CQ#, Ma HY, Jin N,Zhang XL, Lü HY,Zhao YC*.Dynamic changes in gas-liquid mass transfer during Taylor flow in long serpentine square microchannels.Chemical Engineering Science, 2018,182,17-27.

9. Yao CQ*,Zhao YC,Chen GW*. Multiphase processes with ionic liquids in microreactors: hydrodynamics, mass transfer and applications.Chemical Engineering Science, 2018, 189,340-359.

10. Yao CQ,Liu YY,Chao Xu,Zhao SN,Chen GW*. Formation of liquid-liquid slug flow in a microfluidic T-junction: Effects of fluid properties and leakage flow.AIChE Journal, 2018,64,346-357.

11. Mi Y,Yao CQ, Chen GW*.Ethylene/ethane separation and mass transfer characteristics through absorption by AgNO3solutions in microchannels.Chemical Engineering and Processing-Process Intensification,2018,130, 110-118.

12. Liu YY,Jun Yue,Zhao SN,Yao CQ*,Chen GW*.Bubble splitting under gas-liquid-liquid three-phase flow in a double T-junction microchannel.AIChE Journal, 2018, 64, 376-388.

13. Liu HC,Yao CQ, Zhao YC, Chen GW*.Heat Transfer Characteristics of CO2Desorption from N-Methyldiethanolamine Solution in a Microchannel Reactor.Chemical Engineering & Technology,2018 41 (7), 1398-1405.

14. Yao CQ, Liu YY, Zhao SN, Dong ZY, Chen GW*.AIChE Journal, Bubble/droplet formation and mass transfer during gas-liquid-liquid segmented flow with soluble gas in a microchannel. 2017,63,1727-1739.

15. Yao CQ, Kai Zhu, Liu YY, Liu HC, Jiao FJ, Chen GW*. Intensified CO2absorption in a microchannel reactor under elevated pressures.Chemical Engineering Journal, 2017, 319,179-190.

16. Li L,Yao CQ, Jiao FJ, Han M, Chen GW*.Experimental and kinetic study of the nitration of 2-ethylhexanol in capillary microreactors.Chemical Engineering and Processing: Process Intensification.2017,117,179-185.

17. Dong ZY, Zhao SN, Zhang YC,Yao CQ, Yuan Q, Chen GW*.Mixing and residence time distribution in ultrasonic microreactors.AIChE Journal, 2017, 63,1404-1418.

18. Liu HC,Yao CQ, Zhao YC, Chen GW*.Desorption of carbon dioxide from aqueous MDEA solution in a microchannel reactor,Chemical Engineering Journal,2017, 307, 776-784.

19. ZhouF, Zhang BY,Yao CQ, Zhu K, Yang M, Chen GW*.Cyclization of pseudoionone catalyzed by sulfuric acid in a microreactor.Chemical Engineering & Technology,2016, 39 (5), 849-856.

20. Dong ZY,Yao CQ,Zhang YC,Chen GW*,Jie Xu, Yuan Q.Hydrodynamics and mass transfer of oscillating gas‐liquid flow in ultrasonic microreactors.AIChE Journal,2016, 62,1294-1307.

21. Yao CQ, Dong ZY, Zhang YC, Mi Y, Zhao YC, Chen GW*.On the leakage flow around gas bubbles in slug flow in a microchannel.AIChE Journal, 2015, 61,3964-3972.

22. 尧超群,乐军,赵玉潮,陈光文*,袁权。微通道内气一液弹状流动及传质特性研究进展.化工学报,2015, 66, 2759-2766.

23. Yao CQ, Dong ZY, Zhao YC, Chen GW*.Gas-liquid flow and mass transfer in a microchannel under elevated pressures.Chemical Engineering Science, 2015, 123,137-145.

24. Dong ZY,Yao CQ, Zhang XL, Xu J, Chen GW*, Zhao YC, Yuan Q.A high-power ultrasonic microreactor and its application in gas–liquid mass transfer intensification.Lab Chip, 2015, 15,1145-1152.

25. Yao CQ, Dong ZY, Zhao YC, Chen GW*.An online method to determine the mass transfer coefficient under gas-liquid slug flow in a microchannel.Chemical Engineering Science, 2014, 112, 15-24.

26. YaoCQ, Dong ZY, Zhao YC, Chen GW*.The effect of system pressure on gas‐liquid slug flow in a microchannel.AIChE Journal, 2014, 60, 1132-1142.

27. YaoCQ, Zhao YC, Ye CB, Dang MH, Dong ZY, Chen GW*.Characteristics of slug flow with inertial effects in a rectangular microchannel.Chemical Engineering Science, 2013, 95, 246-256.

28. Zhao YC,Yao CQ, Chen GW*, Yuan Q.Highly efficient synthesis of cyclic carbonate with CO 2 catalyzed by ionic liquid in a microreactor.Green Chemistry,2013, 15,446-452.

29. Ye CB, Dang MH,Yao CQ, Chen GW*, Yuan Q.Process analysis on CO2 absorption by monoethanolamine solutions in microchannel reactors.Chemical engineering Journal.2013 225, 120-127.

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