王凯,博士,副教授,清华大学化工系,化学工程联合国家重点实验室   (English Version)

 

   

联系方式

电话:010-62788568

传真:010-62788568

邮箱:kaiwang@tsinghua.edu.cn

地址:清华大学工物馆801

邮编:100084

 

 

课题组成员

   

张礼明(科研助理)

13704820825@qq.com

   

陈扬(硕士研究生)

tscyang@163.com

   

卢诗尧(硕士研究生)

774091069@qq.com

   

张圣龙(硕士研究生)

1169244319@qq.com

   

张皓(硕士研究生)

zhdtc123@qq.com

   

梁萧(本科毕业设计)

scu_liangx@163.com

   

董晓锐(本科毕业设计)

dxr_1234@126.com

   

周元昊(本科毕业设计)

zhouyh12@yeah.net

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

n    工作和教育经历

2014.1 – 今,清华大学化工系,副教授

2015.10 2016.9,麻省理工学院,访问学者(Klavs F. Jensen 组)

2012.7 2014.1,清华大学化工系,助理研究员

2010.7 2012.7,清华大学化工系,博士后

2005.9 2010.7,清华大学化工系,化学工程与技术,博士

2001.9 2005.7,清华大学化工系,化学工程与工艺,本科

n    研究方向

1.      多相微流控基本规律与技术:微通道内动态界面现象,液滴、气泡破碎与聚并机制,多相微流动模拟

 Fig 1-r Fig 8 analysis series 1 and run 1 without surfactant t 30 isoCa

2.      微流动化学合成:基于微流体的有机合成、纳米材料合成与配体修饰(主要针对医药中间体、阻燃材料、橡胶助剂等)

反应机理      

3.      微流动聚合物材料制备:微反应器聚合反应过程、聚合物基团改性。(包括:生物医药高分子、树脂材料、橡胶等)

  Figure 2 - 副本  仇禄20150824初稿  Fig 1

4.      微反应器工程开发:新型微混合结构、中试与工业级微反应装备和工艺

1    2016-10-13 110632

n    项目课题

1.      自然科学基金-云南联合基金重点项目,U1302271,湿法冶金微流体萃取的基础理论研究,2014. 1 - 2017. 12,子课题负责

2.      国家自然科学基金青年基金项目,21106076,气--液三相微尺度分散机制与模型化研究,2012.1 -2014.12

3.      全国优秀博士论文资助项目,201349,微尺度液滴聚并基本规律研究,2012.1 - 2016.12

4.      清华大学自主科研计划,20151080361,微反应器自由基聚合反应过程研究,2016.1 - 2018.12

5.      横向课题,20172000424,二硫化秋兰姆合成的微反应技术研究,2017.4 - 2017.12

6.      横向课题,20172000425,微反应器内磷酸三(2-氯丙基)酯合成过程研究,2017.3 - 2017.8

7.      横向课题,20162001085,微反应器内间甲基苯甲醚合成过程研究,2016.8 - 2018.7

8.      横向课题,20152000977,微反应器内己烯醛连续合成过程研究,2015.8 - 2020.12

9.      横向课题,20132001174,微反应器在聚乙烯醇缩丁醛生产中的应用,2013.10 - 2023.9

10.   国家重点实验室自主课题,SKL-ChE-12T02,微尺度液滴气泡聚并机制研究,2012.12 - 2014. 12

11.   博士后科学基金特别资助,201104095,微尺度气--液三相分散机制研究,2011.9 - 2012.7

12.   博士后科学基金面上资助,20100480283,气//液三相微尺度流动与微分散尺寸调控规律的基础研究,2011.1 - 2012.7

n    科技奖励

1.      微结构化工传质设备及其工业应用,国家技术发明二等奖,2012(骆广生,吕阳成,王玉军,王凯,徐建鸿,陈祥芝)

2.      一种纳米碳酸钙颗粒的制备方法,中国专利优秀奖,2012年(骆广生,陈祥芝,王玉军,陈桂光,王凯,陈绪奎,杜磊,徐建鸿)

3.      多相微尺度流动及其传递和反应性能,高等学校科学研究优秀成果奖自然科学二等奖,2012年(骆广生,徐建鸿,王凯,王玉军,吕阳成,李少伟,谭璟,陈桂光)

4.      微结构传质设备及其工业应用,中国石油和化学工业联合会技术发明一等奖,2011年(骆广生,吕阳成,王凯,王玉军,徐建鸿,谭璟)

5.      高效酸团微萃取技术开发与应用,中石化集团公司科技进步二等奖,2010年(骆广生,潘九海,吕阳成,曹志广,王文生,王仲霞,王志侃,苏华,徐建鸿,李辉,王凯,郭锐,邵华伟,任振宇,张吉松)

6.      己内酰胺高性能萃取技术和设备的研究及工业应用,中国石油和化学工业联合会科技进步一等奖,2010年(骆广生,吕阳成,龚行楚,唐晓津,曹志广,王志侃,徐建鸿,潘九海,王凯,刘岚,姜惠文)

7.      膜分散微结构反应器可控制备纳米颗粒的应用基础研究,中国石油和化学工业协会科技进步一等奖,2008年(骆广生,王玉军,汪家鼎,陈桂光,李少伟,徐建鸿,王凯,吕阳成,孙永,龚行楚,陈祥芝,徐西庆,陈绪奎,杜磊)

n    学术兼职

1.      中国颗粒协会青年理事

n    学术荣誉

1.      侯德榜化工青年科技奖,2015

2.      全国优秀博士论文,2012

3.      北京市优秀博士论文,2011

4.      清华大学特等奖学金,2009

5.      第十四届清华大学学术新秀,2009

n    论文与专著

 

4 SC-B-CN-COVER-2014,45(01)-01

2017

1.    Lin XY, Yan S, Zhou BY, Wang K,* Zhang JS, Luo GS*. Highly efficient synthesis of polyvinyl butyral (PVB) using a membrane dispersion microreactor system and recycling reaction technology. Green Chem. 2017; 19: 21552163.

2.    Xie P, Wang K,* Wang PJ, Xia Y, Luo GS.* Synthesizing bromobutyl rubber by a microreactor system. AIChE J. 2017; 63: 1002-1009.

3.    Yang L, Liu GT, Luo SC, Wang K,* Luo GS*. Investigation of dynamic surface tension in gas-liquid absorption using a microflow interfacial tensiometer. React Chem Eng. 2017; 2: 232238.

4.    Wang K, Luo GS.* Microflow extraction: A review of recent development. Chem Eng Sci. doi: 10.1016/j.ces.2016.10.025

5.    Zhang JS, Wang K, Teixeira AR, Jensen KF, Luo GS.* Design and scaling up of microchemical systems: A review. Annu Rev Chem Biomol Eng. 2017; 8: 13.1-13.2

2016

1.    Qin K, Wang K*, Luo R, Li Y, Wang T*. Interfacial tension and wetting properties of 1-ethyl-3-methylimidazolium tetrafluoroborate in carbon dioxide, from atmospheric pressure to supercritical state. J Supercritical Fluid. 2016, 116: 83-89.

2.    Qiu L, Wang K*, Zhu S, Lu YC, Luo GS. Kinetics study of acrylic acid polymerization with a microreactor platform. Chem Eng J. 2016; 284: 233-239.

3.    Zhou QQ, Sun Y, Yi ST, Wang K*, Luo GS. Investigation of droplet coalescence in nanoparticle suspensions by a microfluidic collision experiment. Soft Matter. 2016,12: 1674-1682.

4.    Wang K*, Zhang LM, Zhang WL, Luo GS. Mass transfer-controlled dynamic interfacial tension in microfluidic emulsification processes. Langmuir. 2016, 32: 3174-3185.

5.    王凯*, 易诗婷, 周倩倩, 骆广生. 微通道内纳米颗粒对液滴聚并的影响规律. 化工学报. 2016; 67: 469-475.

6.    Bi JY, Zhang TB, Wang K, Zhong BH, Luo GS*. Controllable synthesis of Li3PO4 hollow nanospheres for the preparation of high performance LiFePO4 cathode material. Particuology. 2016; 24: 142-150.

7.    Du L, Wang YJ, Wang K, Shen C*, Luo GS. In situ dispersion of oil-based Ag nanocolloids by microdroplet coalescence and their applications in SERS detection. RSC Adv. 2016, 6: 59639-59647.

8.    Li LT, Zhang JS, Wang K, Xu JH, Luo GS*. Droplet formation of H2SO4/alkane system in a T-junction microchannel: Gravity effect. AIChE J. 2016; 62: 4564-4573.

9.    Li LT, Zhang JS, Wang K, Luo GS*. Caprolactam as a new additive to enhance alkylation of isobutane and butene in H2SO4. Ind Eng Chem Res. 2016, 55: 12818-12824.

10. Li YK, Wang K, Xu JH, Luo GS*. A capillary-assembled micro-device for monodispersed small bubble and droplet generation. Chem Eng J. 2016, 293: 182-188.

11. Lin XY, Zhang JS, Wang K, Luo GS*. Determination of micromixing scale in a microdevice by numerical simulation and experiments. Chem Eng Technol. 2016, 39: 909-917.

12. Liu GT, Wang X, Wang K, Tostado CP, Luo GS*. Effect of surface wettability on internal velocity profile during droplet formation process in microfluidic devices. Int J Multiphas Flow. 2016, 80: 188-193.

13. Lu YC*, Zhu S, Wang K, Luo GS. Generation of poly(isobutene-co-isoprene) in a microflow device. Ind Eng Chem Res. 2016, 55: 1215-1220.

14. Lu YC*, Zhu S, Wang K, Luo GS. Simulation of the mixing process in a straight tube with sudden changed cross-section. Chinese J Chem Eng. 2016, 24: 711-718.

15. Wang PJ, Zhang JS, Wang K, Luo GS*, Xie P. Kinetic study of reactions of aniline and benzoyl chloride using NH3 as acid absorbent in a microstructured chemical system. Ind Eng Chem Res. 2016, 55 :6310-6316.

16. Zhao F, Lu YC, Wang K, Luo GS*. Kinetic study on selective extraction of HCl and H3PO4 in a microfluidic device. Chinese J Chem Eng. 2016, 24, 221-225.

17. Zhao F, Lu YC, Wang K, Luo GS*. Back extraction of HCl from TOA dissolved in n-octanol by aqueous ammonia in a microchannel device. Solvent Extr Ion Exc. 2016; 34: 60-73.

18. Zhang JS, Wang K, Zhang CY, Luo GS*. Safety evaluating of Beckmann rearrangement of cyclohexanone oxime in microreactors using inherently safer design concept. Chem Eng Process. 2016; 110: 44-51.

19. Zheng C, Tan J, Wang K, Luo GS*. Stability and pressure drop of gas-liquid micro-dispersion flows through a capillary. Chem Eng Sci. 2016; 140: 134-143.

20. Zhu S, Lu YC*, Wang K, Luo GS. Flow synthesis of medium molecular weight polyisobutylene coinitiated by AlCl3. Eur Polym J. 2016, 80: 219-226.

21. Zhu S, Lu YC*, Wang K, Luo GS. Fast flow synthesis of highly reactive polyisobutylene co-initiated by an AlCl3/ isopropyl ether complex. RSC Adv. 2016, 6: 9827-9834.

22. Zhu S, Lu YC*, Wang K, Luo GS. Cationic polymerization of isobutylene catalyzed by AlCl3 with multiple nucleophilic reagents. RSC Adv. 2016; 6: 97983-97989.

2015

1.    Lin XY, Wang K*, Zhang JC, Luo GS*. Process intensification of the synthesis of poly(vinyl butyral) using a microstructured chemical system. Ind Eng Chem Res. 2015; 54: 35823588.

2.    Wang XY, Riaud A, Wang K*, Luo GS*. Pressure drop-based determination of dynamic interfacial tension of droplet generation process in T-junction microchannel. Microfluid Nanofluid. 2015; 18: 503-512.

3.    Wang PJ, Wang K*, Zhang JC, Luo GS*. Preparation of poly (p-phenylene terephthalamide) in a microstructured chemical system. RSC Adv. 2015; 5: 64055-64064.

4.    Qin K, Wang K*, Li Y, Kong FH, Wang T*. High-pressure phase behavior of 1-ethyl-3-methylimidazolium tetrafluoroborate and carbondioxide system. RSC Adv. 2015; 5: 3241632420

5.    Li Y, Wang K*, Qin K, Wang T*. Beckmann rearrangement reaction of cyclohexanone oxime in sub/supercritical water: byproduct and selectivity. RSC Adv. 2015; 5: 2536525371.

6.    Wang K*, Zhang JC, Zheng C, Dong C, Lu YC, Luo GS*. A consecutive microreactor system for the synthesis of caprolactam with high selectivity. AIChE J. 2015; 61: 19591967.

7.    Wang K*, Qin K, Lu YC, Luo GS*, Wang T. Gas/liquid/liquid three-phase flow patterns and bubble/ droplet size laws in a double T-Junction microchannel. AIChE J. 2015; 61: 17221734.

8.    Wang K*, Qin K, Wang T, Luo GS*. Ultra-thin liquid film extraction based on a gasliquidliquid double emulsion in a microchannel device. RSC Adv. 2015; 5: 64706474.

9.    Dong C, Wang K, Zhang JS, Luo GS*. Reaction kinetics of cyclohexanone ammoximation over TS-1 catalyst in a microreactor. Chem Eng Sci. 2015; 126: 633-640.

10. Du L, Wang YJ, Wang K, Luo GS*. Growth of aragonite CaCO3 whiskers in a microreactor with calcium dodecyl benzenesulfonate as a control agent. Ind Eng Chem Res. 2015; 54: 71317140.

11. Li YK, Liu GT, Xu JH, Wang K, Luo GS*. A microdevice for producing monodispersed droplets under jetting flow. RSC Adv. 2015; 5: 27356-27364.

12. Lin XY, Wang K, Zhang JS, Luo GS*. Liquidliquid mixing enhancement rules by microbubbles in three typical micro-mixers. Chem Eng Sci. 2015; 127: 60-71.

13. Wang PJ, Wang K, Zhang JC, Luo GS*. Kinetic study of reactions of aniline and benzoyl chloride in a microstructured chemical system. AIChE J. 2015; 61 38043811.

14. Wang PJ, Wang K, Zhang JS, Luo GS*. Non-aqueous suspension polycondensation in NMP-CaCl2/ paraffin system - A new approach for the preparation of poly(p-phenylene terephthalamide). Chinese J Polym Sci. 2015; 33: 564-575. (cover paper)

15. Wang X, Liu GT, Wang K, Luo GS*. Measurement of internal flow field during droplet formation process accompanied with mass transfer. Microfluid Nanofluid. 2015; 19: 757-766.

16. Zhao F, Lu YC, Wang K, Luo GS*. Modeling of kinetics of a microfluidic reaction-extraction process for the preparation of KH2PO4. Sep Purif Technol. 2015, 156: 108-115.

17. Zheng C, Zhao BC, Wang K, Luo GS*. Determination of kinetics of CO2 absorption in solutions of 2amino2methyl1propanol using a microfluidic technique. AIChE J. 2015; 61: 43584366.

18. Zheng C, Zhao BC, Wang K, Luo GS*. Bubble generation rules in microfluidic devices with microsieve array as dispersion medium. AIChE J. 2015; 61: 16631676.

19. 骆广生*, 王凯, 徐建鸿, 吕阳成, 王玉军, 张吉松. 微尺度气液液三相流研究进展. 中国科学:化学. 2015; 45: 1-6. (cover paper)

20. 张吉松, 刘国涛, 王凯, 骆广生*. 微通道内传递对液液分散过程的影响规律. 化工学报. 2015; 66: 2940-2946.

2014

1.    Riaud A, Zhao SF, Wang K*, Cheng Y, Luo GS. Lattice-Boltzmann method for the simulation of multiphase mass transfer and reaction of dilute species. Phys Rev E. 2014; 89: 053308.

2.    Wang XY, Wang K*, Riaud A, Wang X, Luo GS*. Experimental study of liquid/liquid second-dispersion process in constrictive microchannels. Chem Eng J. 2014; 254: 443-451.

3.    Wang K, Lu Y, Luo GS*. Strategy for scaling-up of a microsieve dispersion reactor. Chem Eng Technol. 2014; 37: 2116-2122. (Hottest Articles in Chemical Engineering, Wiley)

4.    Dong C, Zhang JS, Wang K, Luo GS*. Micromixing performance of nanoparticle suspensions in a micro-sieve dispersion reactor. Chem Eng J. 2014; 253: 8-15.

5.    Du L, Wang YJ, Wang K, Luo GS*. Effects of nanoparticles with different wetting abilities on the gas-liquid mass transfer. Chem Eng Sci. 2014; 114: 105-113.

6.    Liu GT, Wang K, Lu YC, Luo GS*. Liquid-liquid microflows and mass transfer performance in slit-like microchannels. Chem Eng J. 2014; 258: 34-42.

7.    Yang L, Tan J, Wang K, Luo GS*. Mass transfer characteristics of bubbly flow in microchannels. Chem Eng Sci. 2014; 109: 306-314.

8.    Yang L, Tan J, Wang K, Luo GS*. Mass transfer characteristics of bubbly flow in microchannels (vol 109, pg 306, 2014). Chem Eng Sci. 2014; 119: 330-330.

9.    Zhang JS, Wang K, Lin XY, Lu YC, Luo GS*. Intensification of fast exothermic reaction by gas agitation in a microchemical system. AIChE J. 2014; 60: 2724-2730.

10. Zhang JS, Riaud A, Wang K, Lu YC, Luo GS*. Beckmann rearrangement of cyclohexanone oxime to epsilon-caprolactam in a modified catalytic system of trifluoroacetic acid. Catal Lett. 2014; 144: 151-157.

11. Zhao F, Lu YC, Wang K, Luo GS*. Solubility of KH2PO4 in KCl, H3PO4, and their mixture solutions. J Chem Eng Data. 2014; 59: 439-443.

12. 骆广生*, 王凯, 徐建鸿, 王玉军, 吕阳成. 微化工过程研究进展. 中国科学:化学. 2014; 44: 1404-1412.

13. 骆广生*, 王凯, 王佩坚, 吕阳成. 微反应器内聚合物合成研究进展. 化工学报. 2014; (07): 2563-2573.

2013

1.    Riaud A, Wang K*, Luo GS*. A combined Lattice-Boltzmann method for the simulation of two-phase flows in microchannel. Chem Eng Sci. 2013; 99: 238-249.

2.    Wang K, Xie LS, Lu YC*, Luo GS*. Generation of monodispersed microdroplets by temperature controlled bubble condensation processes. Lab Chip. 2013; 13: 73-76.

3.    Wang K, Xie LS, Lu YC*, Luo GS*. Generating microbubbles in a co-flowing microfluidic device. Chem Eng Sci. 2013; 100: 486-495.

4.    Wang K*, Lu YC, Yang L, Luo GS*. Microdroplet coalescences at microchannel junctions with different collision angles. AIChE J. 2013; 59: 643-649.

5.    Wang K*, Lu YC, Tostado CP, Yang L, Luo GS*. Coalescences of microdroplets at a cross-shaped microchannel junction without strictly synchronism control. Chem Eng J. 2013; 227: 90-96.

6.    Wang K, Lu YC, Qin K, Luo GS*, Wang T. Generating gas-liquid-liquid three-phase microflows in a cross-junction microchannel device. Chem Eng Technol. 2013; 36: 1047-1060.

7.    王凯*, 吕阳成, 秦康, 骆广生. T型微通道内气液液三相分散规律. 化工学报. 2013; (02): 470-475.

8.    Du L, Wang YJ, Wang K, Luo GS*. Preparation of calcium benzene sulfonate detergents by a microdispersion process. Ind Eng Chem Res. 2013; 52: 10699-10706.

9.    Riaud A, Tostado CP, Wang K, Luo GS*. A facile pressure drop measurement system and its applications to gas-liquid microflows. Microfluid Nanofluid. 2013; 15: 715-724.

10. Wang R, Lu YC*, Wang K, Luo GS. Liquid-liquid equilibria for the system water+1,3-dichloro-2-propanol + epichlorohydrin from (283.2 to 303.2) K. J Chem Eng Data. 2013; 58: 3222-3225.

11. Yang L, Wang K, Mak S, Li YK, Luo GS*. A novel microfluidic technology for the preparation of gas-in-oil-in-water emulsions. Lab Chip. 2013; 13: 3355-3359. (cover paper)

12. Zhang TB, Lu YC*, Liu JQ, Wang K, Luo GS. Continuous ammonium silicofluoride ammonification for SiO2 nanoparticles preparation in a microchemical system. Ind Eng Chem Res. 2013; 52: 5757-5764.

13. Zhang JS, Lu YC, Wang K, Luo GS*. Novel one-step synthesis process from cyclohexanone to caprolactam in trifluoroacetic acid. Ind Eng Chem Res. 2013; 52: 6377-6381.

14. 骆广生*, 王凯, 吕阳成, 王玉军, 徐建鸿. 微尺度下非均相反应的研究进展. 化工学报. 2013; (01): 165-172.

2012

1.    Shao HW, Lu YC, Wang K, Luo GS*. Liquid-liquid flow and mass transfer characteristics in micro-sieve array device with dual-sized pores. Chem Eng J. 2012; 193: 96-101.

2.    Shao HW, Lu YC, Wang K, Luo GS*. Liquid-liquid microflows in micro-sieve dispersion devices with dual pore size. Microfluid Nanofluid. 2012; 12: 705-714.

3.    Shao HW, Lu YC, Wang K, Luo GS. An experimental study of liquid-liquid microflow pattern maps accompanied with mass transfer. Chinese J Chem Eng. 2012: 20, 18-26.

4.    Shen C, Wang YJ, Xu JH, Wang K, Luo GS*. Size control and catalytic activity of highly dispersed Pd nanoparticles supported on porous glass beads. Langmuir. 2012; 28: 7519-7527.

5.    Yang L, Wang K, Tan J, Lu YC, Luo GS*. Experimental study of microbubble coalescence in a T-junction microfluidic device. Microfluid Nanofluid. 2012; 12: 715-722.

6.    Zhang JS, Tan J, Wang K, Lu YC, Luo GS*. Chlorohydrination of allyl chloride to dichloropropanol in a microchemical system. Ind Eng Chem Res. 2012; 51: 14685-14691.

7.    Zhang JS, Wang K, Lu YC, Luo GS*. Beckmann rearrangement of cyclohexanone oxime in a microchemical system: The role of SO3 and product inhibition. AIChE J. 2012; 58: 3156-3160.

8.    Zhang JS, Lu YC, Jin QR, Wang K, Luo GS*. Determination of kinetic parameters of dehydrochlorination of dichloropropanol in a microreactor. Chem Eng J. 2012; 203: 142-147.

9.    Zhang JS, Wang K, Lu YC, Luo GS*. Beckmann rearrangement in a microstructured chemical system for the preparation of e-caprolactam. AIChE J. 2012; 58: 925-931.

2011

1.    Wang K*, Lu YC, Xia Y, Shao HW, Luo GS*. Kinetics research on fast exothermic reaction between cyclohexanecarboxylic acid and oleum in microreactor. Chem Eng J. 2011; 169: 290-298.

2.    Wang K*, Lu YC, Xu JH, Luo GS*. Droplet generation in micro-sieve dispersion device. Microfluid Nanofluid. 2011; 10: 1087-1095.

3.    Wang K, Lu YC, Xu JH, Tan J, Luo GS*. Generation of micromonodispersed droplets and bubbles in the capillary embedded T-junction microfluidic devices. AIChE J. 2011; 57: 299-306.

4.    Du L, Tan J, Wang K, Lu YC, Luo GS. Controllable preparation of SiO2 nanoparticles using a microfiltration membrane dispersion microreactor. Ind Eng Chem Res. 2011; 50: 8536-8541.

5.    Tan J, Du L, Xu JH, Wang K, Luo GS*. Surfactant-free microdispersion process of gas in organic solvents in microfluidic devices. AIChE J. 2011; 57: 2647-2656.

6.    秦康, 王凯, 王涛*. 超临界二氧化碳构成的两相体系及其在催化反应中的应用. 石油化工. 2011; (09): 917-925.

7.    骆广生*, 王凯, 王玉军, 吕阳成, 徐建鸿. 微化工系统的原理和应用. 化工进展. 2011; (08): 1637-1642.

2010年以前

1.    Wang K, Lu YC, Tan J, Yang BD, Luo GS*. Generating gas/liquid/liquid three-phase microdispersed systems in double T-junctions microfluidic device. Microfluid Nanofluid. 2010; 8: 813-821.

2.    Wang K, Lu YC, Shao HW, Luo GS*. Measuring enthalpy of fast exothermal reaction with micro-reactor-based capillary calorimeter. AIChE J. 2010; 56: 1045-1052.

3.    Tan J, Xu JH, Wang K, Luo GS*. Rapid measurement of gas solubility in liquids using a membrane dispersion microcontactor. Ind Eng Chem Res. 2010; 49: 10040-10045.

4.    Zhang JS, Wang K, Lu YC, Luo GS*. Characterization and modeling of micromixing performance in micropore dispersion reactors. Chem Eng Process. 2010; 49: 740-747.

5.    骆广生*, 王凯, 徐建鸿, 吕阳成, 王玉军. 微化工系统内多相流动及其传递反应性能研究进展. 化工学报. 2010; (07): 1621-1626.

6.    Wang K, Lu YC, Xu JH, Luo GS*. Determination of dynamic interfacial tension and its effect on droplet formation in the T-shaped microdispersion process. Langmuir. 2009; 25: 2153-2158.

7.    Wang K, Lu YC, Xu JH, Tan J, Luo GS*. Liquid-liquid micro-dispersion in a double-pore T-shaped microfluidic device. Microfluid Nanofluid. 2009; 6: 557-564.

8.    Tan J, Li SW, Wang K, Luo GS*. Gas-liquid flow in T-junction microfluidic devices with a new perpendicular rupturing flow route. Chem Eng J. 2009; 146: 428-433.

9.    骆广生*, 王凯, 徐建鸿, 吕阳成, 邵华伟. 微反应器研究最新进展. 现代化工. 2009; (05): 27-31.

10. Wang K, Lu YC, Shao HW, Luo GS*. Improving selectivity of temperature-sensitive exothermal reactions with microreactor. Ind Eng Chem Res. 2008; 47: 4683-4688.

11. Wang K, Lu YC, Shao HW, Luo GS*. Heat-transfer performance of a liquid-liquid microdispersed system. Ind Eng Chem Res. 2008; 47: 9754-9758.

12. Wang K, Wang YJ, Chen GG, Luo GS*, Wang JD. Enhancement of mixing and mass transfer performance with a microstructure minireactor for controllable preparation of CaCO3 nanoparticles. Ind Eng Chem Res. 2007; 46: 6092-6098.

13. Wang K, Lu YC, Xu JH, Gong XC, Luo GS*. Reducing side product by enhancing mass-transfer rate. AIChE J. 2006; 52: 4207-4213.

n    专著章节

1.    Wang K, Xu JH, Liu GT, Luo GS*. Chapter three-role of interfacial force on multiphase microflowAn important meso-scientific issue. Advances in Chemical Engineering. Academic Press, Burlington. 2015, 47: 163-191.

2.    Luo GS, Du L, Wang YJ, Wang K. Composite Nanoparticles. Encyclopedia of Microfluidics and Nanofluidics, Springer New York. 2015; 453-460

3.    骆广生, 程易, 李鑫钢, 任其龙, 李继定, 李群生, 王凯. 反应工程与分离工程若干最新进展. 化学工程学科前沿与展望. 孙宏伟, 段雪. 中国科学出版社, 21-64, 中国, 2012.9.

n    专利

1.    王凯, 骆广生, 赵方, 吕阳成. 一种用于实施氯气与溴碘离子溶液反应的微结构反应器. CN201410008717.0

2.    王凯, 吕阳成, 骆广生, 邵华伟. 一种带有微筛孔结构的反应器或混合器. CN200710176045.4

3.    王凯, 吕阳成, 骆广生. 一种利用膜分散技术实现液/液不互溶体系换热的方法. CN200710176046.9

4.    骆广生, 李严凯, 王凯, 徐建鸿. 一种串联放大的微结构装置. CN201510405884.3

5.    骆广生, 李严凯, 徐建鸿, 王凯. 用于制备单分散液滴和气泡的微结构装置及其使用方法. CN201510093817.2

6.    骆广生, 唐安斌, 王凯, 徐康林, 林茜妍, 陈小强. 一种利用微反应系统合成聚乙烯醇缩丁醛的方法. CN201510080655.9

7.    吕阳成, 朱珊, 骆广生, 王凯. 一种具有螺旋通道的管式混合器. CN201510185307.8

8.    吕阳成, 朱珊, 骆广生, 王凯. 一种丁基橡胶的制备方法. CN201510239588.0

9.    骆广生, 王佩坚, 王凯. 一种制备对/间位芳纶的微反应系统及方法. CN201510080040.6

10. 骆广生, 王佩坚, 王凯. 一种利用乳液法由对苯二胺和对苯二酞氯缩聚制备对位芳纶的方法. CN201410788207.X

11. 骆广生, 毕佳颖, 王凯, 张同宝, 吕阳成. 一种制备磷酸锂纳米颗粒的方法. CN201410003275.0

12. 骆广生, 刘国涛, 吕阳成, 王凯. 一种用氨气从负载磷酸的有机溶剂中脱除杂质离子的方法. CN201310553236.3

13. 张吉松, 骆广生, 吕阳成, 王凯. 一种用于酮肟贝克曼重排反应的催化体系. CN201210380145.X

14. 骆广生, 王凯, 吕阳成. 一种控制卤化丁基橡胶中卤素取代位的方法. CN201310389238.3

15. 骆广生, 任纪文, 王凯, 代俊明, 吕阳成. 一种氯化丁基橡胶生产工艺. CN201310460844.X

16. 骆广生, 任纪文, 王凯, 代俊明, 吕阳成. 一种溴化丁基橡胶的生产工艺. CN201310459654.6

17. 骆广生,张吉松,吕阳成,王凯,姜育田. 一种氯丙烯氯醇化的微反应系统及方法. CN201210025302.5.

18. 吕阳成,张吉松,王凯,骆广生,姜育田. 在微反应器中用二氯丙醇环化制备环氧氯丙烷的方法. CN201210025400.9.

19. 王玉军,申春,骆广生,王凯. 一种高分散负载型贵金属纳米颗粒的制备方法. CN201210003673.3.

20. 张吉松,骆广生,吕阳成,王凯. 一种用于酮肟贝克曼重排反应的催化体系. CN201210380145.X

21. 骆广生, 王凯, 王涛, 秦康, 杨路. 一种微流控设备及其制备包覆液膜单分散气泡的方法. CN201210479305.6

22. 骆广生, 杨路, 王凯, 吕阳成. 一种基于微流控技术制备均匀中空液滴的方法. CN201210479303.7

23. 骆广生, 张吉松, 吕阳成, 王凯. 一种由环己酮直接合成己内酰胺的方法. CN201210380153.4

24. 骆广生, 任纪文, 吕阳成, 代俊明, 王凯. 一种溴化丁基橡胶合成工艺. CN201210279052.8

25. 骆广生, 任纪文, 吕阳成, 代俊明, 王凯. 一种氯化丁基橡胶合成工艺. CN201210278726.2

26. 张吉松, 王凯, 吕阳成, 骆广生. 一种多段重排由环己酮肟制备己内酰胺的系统及方法. CN201110117090.9

27. 骆广生, 张吉松, 王凯, 吕阳成. 一种由环己酮肟制备己内酰胺的贝克曼重排新方法. CN201010224892.5

28. 吕阳成, 骆广生, 王凯. 一种制备聚合硫的方法. CN200910086130.0

29. 骆广生, 李少伟, 兰文杰, 徐建鸿, 王凯, 王玉军. 一种利用超声波作用封装微结构器件的方法. CN200810116820.1

30. 骆广生, 陈祥芝, 王玉军, 陈桂光, 王凯, 陈绪奎, 杜磊, 徐建鸿. 一种纳米碳酸钙颗粒的制备方法. CN200510086388.2

31. 骆广生, 吕阳成, 陈桂光, 徐建鸿, 王凯. 一种预混合反应的方法. CN200510059635.X

n    已毕业学生

IMG_8429

IMG_8426

IMG_2415

宋劲

易诗婷(2009级本科)

 

周倩倩(2014级硕士)

王一帆(2009级本科)

 

周倩倩(2014级硕士)

孙悦(2010级本科)

 

王乙汀(2012级本科)

宋劲(2011级本科)