骆广生

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清华大学化工系教授，博士生导师，国家杰出青年科学基金获得者，教育部长江学者特聘教授，化学工程联合国家重点实验室主任。1988年和1993年先后在清华大学获学士和博士学位。1993年留校从事教学和科研工作，1995年在法国进行博士后研究工作，2001年赴美国MIT化工系进行高访研究。从事微化工系统、分离科学与技术以及功能和纳米材料的研究工作，现任国际溶剂萃取会议国际委员会委员，中国化工学会和中国颗粒学会常务理事，担任《化工学报》、《化学工程》副主编，Chem Eng J、Particuology、Ind Eng Chem Res、《中国科学：化学》等刊物编委或顾问编委。

先后负责和参与国家自然科学基金项目、973项目、863重点项目、教育部博士点基金、北京市科技项目以及中国石化集团和中国石油集团等企业横向合作项目。发表SCI 论文近300篇，参加完成论著2部、译著1部和萃取手册1部，获授权发明专利70余件。获国家技术发明二等奖、国家科技进步二等奖、中国优秀专利奖、教育部自然科学一等奖和二等奖及中国石化协会科技进步一等奖和技术发明一等奖等国家和省部级科技奖励。荣获全国优秀科技工作者、全国化工优秀科技工作者、全国优秀博士论文指导教师、北京市优秀教师、侯德榜化工科学技术奖—创新奖等荣誉称号。

研究方向

1）微化工系统
以实现化工过程高效、绿色和安全为目标，发展微结构化工装备和配套工艺。以液液、气液等多相复杂体系为重点对象，采用在线显微、红外探针及化学反应探针等方法，进行均相及非均相体系微尺度流动、混合、传递及反应性能的基础研究和CFD模拟研究。

2）分离科学与技术
以萃取、吸收、吸附、离子交换等分离为主要研究对象，开展其在化学、化工、材料、食品、环境、制药等领域的应用基础研究，以多过程复合、设备微型化、反应和分离耦合以及外场强化等手段，发展新型分离技术、新型分离功能材料和高效分离设备。

3）功能材料可控制备
以分离材料、膜材料、功能材料、超细材料和催化材料等为主要研究对象，以液液、气液微尺度混合为主要手段，发展新型功能材料制备新方法，研究材料制备过程的控制因素，建立相应的机理模型，实现新型功能材料的可控制备，发展高效、连续及低能耗的功能材料工程制备技术和装备。

近期论文发表:

1. C. Shen, Y.J. Wang, J.H. Xu, G.S. Luo, Synthesis of TS-1 on porous glass beads for catalytic oxidative desulfurization, Chemical Engineering Journal 259 (2015) 552-561.
2. C. Dong, J.S. Zhang, K. Wang, G.S. Luo, Micromixing performance of nanoparticle suspensions in a micro-sieve dispersion reactor, Chemical Engineering Journal 253 (2014) 8-15.
3. L. Du, Y. Wang, K. Wang, G.S. Luo, Effects of nanoparticles with different wetting abilities on the gas-liquid mass transfer, Chemical Engineering Science 114 (2014) 105-113.
4. W.J. Lan, S. Li, Y. Wang, G.S. Luo, CFD Simulation of droplet formation in microchannels by a modified level set method, Industrial & Engineering Chemistry Research 53 (2014) 4913-4921.
5. G.T. Liu, K. Wang, Y.C. Lu, G.S. Luo, Liquid-liquid microflows and mass transfer performance in slit-like microchannels, Chemical Engineering Journal 258 (2014) 34-42.
6. A. Riaud, S.F. Zhao, K. Wang, Y. Cheng, G.S. Luo, Lattice-Boltzmann method for the simulation of multiphase mass transfer and reaction of dilute species, Physical Review E 89 (2014).
7. C. Shen, Y.J. Wang, C. Dong, G.S. Luo, In situ growth of TS-1 on porous glass beads for ammoximation of cyclohexanone, Chemical Engineering Journal 235 (2014) 75-82.
8. X.Y. Wang, K. Wang, A. Riaud, X. Wang, G.S. Luo, Experimental study of liquid/liquid second-dispersion process in constrictive microchannels, Chemical Engineering Journal 254 (2014) 443-451.
9. L. Yang, J. Tan, K. Wang, G.S. Luo, Mass transfer characteristics of bubbly flow in microchannels, Chemical Engineering Science 109 (2014) 306-314.
10. J.S. Zhang, K. Wang, X.Y. Lin, Y.C. Lu, G.S. Luo, Intensification of fast exothermic reaction by gas agitation in a microchemical system, AIChE Journal 60 (2014) 2724-2730.
11. J.S. Zhang, A. Riaud, K. Wang, Y.C. Lu, G.S. Luo, Beckmann rearrangement of cyclohexanone oxime to epsilon-caprolactam in a modified catalytic system of trifluoroacetic acid, Catalysis Letters 144 (2014) 151-157.
12. F. Zhao, Y.C. Lu, K. Wang, G.S. Luo, Solubility of KH2PO4 in KCl, H3PO4, and their mixture solutions, Journal of Chemical and Engineering Data 59 (2014) 439-443.
13. L. Du, Y.J. Wang, G.S. Luo, In situ preparation of hydrophobic CaCO3 nanoparticles in a gas-liquid microdispersion process, Particuology 11 (2013) 421-427.
14. L. Du, Y.J. Wang, K. Wang, G.S. Luo, Preparation of calcium benzene sulfonate detergents by a microdispersion process, Industrial & Engineering Chemistry Research 52 (2013) 10699-10706.
15. L. Du, Y.J. Wang, Y.C. Lu, G.S. Luo, Process intensification of BaSO4 nanoparticle preparation with agitation of microbubbles, Powder Technology 247 (2013) 60-68.
16. L. Du, Y.J. Wang, Y.C. Lu, G.S. Luo, Preparation of highly purified beta-tricalcium phosphate ceramics with a microdispersion process, Chemical Engineering Journal 221 (2013) 55-61.
17. W.J. Lan, S.W. Li, J.H. Xu, G.S. Luo, Preparation and carbon dioxide separation performance of a hollow fiber supported ionic liquid membrane, Industrial & Engineering Chemistry Research 52 (2013) 6770-6777.
18. A. Riaud, C.P. Tostado, K. Wang, G.S. Luo, A facile pressure drop measurement system and its applications to gas-liquid microflows, Microfluidics and Nanofluidics 15 (2013) 715-724.
19. A. Riaud, K. Wang, G.S. Luo, A combined Lattice-Boltzmann method for the simulation of two-phase flows in microchannel, Chemical Engineering Science 99 (2013) 238-249.
20. C. Shen, Y.J. Wang, J.H. Xu, G.S. Luo, Chitosan supported on porous glass beads as a new green adsorbent for heavy metal recovery, Chemical Engineering Journal 229 (2013) 217-224.
21. J. Tan, Y.C. Lu, J.H. Xu, G.S. Luo, Modeling investigation of mass transfer of gas-liquid-liquid dispersion systems, Separation and Purification Technology 108 (2013) 111-118.
22. J. Tan, Y.C. Lu, J.H. Xu, G.S. Luo, Modeling investigation of mass transfer of gas-liquid concurrent flow processes, Separation and Purification Technology 109 (2013) 77-86.
23. K. Wang, Y.C. Lu, K. Qin, G.S. Luo, T. Wang, Generating gas-liquid-liquid three-phase microflows in a cross-junction microchannel device, Chemical Engineering & Technology 36 (2013) 1047-1060.
24. K. Wang, Y.C. Lu, C.P. Tostado, L. Yang, G.S. Luo, Coalescences of microdroplets at a cross-shaped microchannel junction without strictly synchronism control, Chemical Engineering Journal 227 (2013) 90-96.
25. K. Wang, Y.C. Lu, L. Yang, G.S. Luo, Microdroplet coalescences at microchannel junctions with different collision angles, AIChE Journal 59 (2013) 643-649.
26. K. Wang, L.S. Xie, Y.C. Lu, G.S. Luo, Generation of monodispersed microdroplets by temperature controlled bubble condensation processes, Lab on a Chip 13 (2013) 73-76.
27. K. Wang, L.S. Xie, Y.C. Lu, G.S. Luo, Generating microbubbles in a co-flowing microfluidic device, Chemical Engineering Science 100 (2013) 486-495.
28. L. Yang, K. Wang, S. Mak, Y. Li, G.S. Luo, A novel microfluidic technology for the preparation of gas-in-oil-in-water emulsions, Lab on a Chip 13 (2013) 3355-3359.
29. J.S. Zhang, Y.C. Lu, K. Wang, G.S. Luo, Novel one-step synthesis process from cyclohexanone to caprolactam in trifluoroacetic acid, Industrial & Engineering Chemistry Research 52 (2013) 6377-6381.
30. C. Zheng, J. Tan, Y.J. Wang, G.S. Luo, CO2 solubility in a mixture absorption system of 2-amino-2-methyl-1-propanol with ethylene glycol, Industrial & Engineering Chemistry Research 52 (2013) 12247-12252.
31. W.J. Lan, S.W. Li, J.H. Xu, G.S. Luo, A one-step microfluidic approach for controllable preparation of nanoparticle-coated patchy microparticles, Microfluidics and Nanofluidics 13 (2012) 491-498.
32. W.J. Lan, S.W. Li, J.H. Xu, G.S. Luo, Controllable synthesis of microscale titania fibers and tubes using co-laminar micro-flows, Chemical Engineering Journal 181 (2012) 828-833.
33. H.W. Shao, Y.C. Lu, K. Wang, G.S. Luo, Liquid-liquid microflows in micro-sieve dispersion devices with dual pore size, Microfluidics and Nanofluidics 12 (2012) 705-714.
34. H.W. Shao, Y.C. Lu, K. Wang, G.S. Luo, Liquid-liquid flow and mass transfer characteristics in micro-sieve array device with dual-sized pores, Chemical Engineering Journal 193 (2012) 96-101.
35. C. Shen, Y.J. Wang, J.H. Xu, G.S. Luo, Facile synthesis and photocatalytic properties of TiO2 nanoparticles supported on porous glass beads, Chemical Engineering Journal 209 (2012) 478-485.
36. C. Shen, Y.J. Wang, J.H. Xu, Y.C. Lu, G.S. Luo, Porous glass beads as a new adsorbent to remove sulfur-containing compounds, Green Chemistry 14 (2012) 1009-1015.
37. C. Shen, Y.J. Wang, J.H. Xu, K. Wang, G.S. Luo, Size control and catalytic activity of highly dispersed Pd nanoparticles supported on porous glass beads, Langmuir 28 (2012) 7519-7527.
38. J. Tan, J.S. Zhang, Y.C. Lu, J.H. Xu, G.S. Luo, Process intensification of catalytic hydrogenation of ethylanthraquinone with gas-liquid microdispersion, AIChE Journal 58 (2012) 1326-1335.
39. J. Tan, Y.C. Lu, J.H. Xu, G.S. Luo, Mass transfer performance of gas-liquid segmented flow in microchannels, Chemical Engineering Journal 181 (2012) 229-235.
40. J. Tan, Y.C. Lu, J.H. Xu, G.S. Luo, Mass transfer characteristic in the formation stage of gas-liquid segmented flow in microchannel, Chemical Engineering Journal 185 (2012) 314-320.
41. J. Tan, C. Dong, Y.C. Lu, J.H. Xu, G.S. Luo, Coupling process of oxidation and extraction in a gas-liquid-liquid microdispersion system for H2O2 synthesis, Industrial & Engineering Chemistry Research 51 (2012) 1834-1845.
42. C.P. Tostado, J.H. Xu, A.W. Du, G.S. Luo, Experimental study on dynamic interfacial tension with mixture of SDS-PEG as surfactants in a coflowing microfluidic device, Langmuir 28 (2012) 3120-3128.
43. J.H. Xu, H. Zhao, W.J. Lan, G.S. Luo, A novel microfluidic approach for monodispersed chitosan microspheres with controllable structures, Advanced Healthcare Materials 1 (2012) 106-111.
44. J.H. Xu, R. Chen, Y.D. Wang, G.S. Luo, Controllable gas/liquid/liquid double emulsions in a dual-coaxial microfluidic device, Lab on a Chip 12 (2012) 2029-2036.
45. L. Yang, K. Wang, J. Tan, Y.C. Lu, G.S. Luo, Experimental study of microbubble coalescence in a T-junction microfluidic device, Microfluidics and Nanofluidics 12 (2012) 715-722.
46. J.S. Zhang, J. Tan, K. Wang, Y.C. Lu, G.S. Luo, Chlorohydrination of allyl chloride to dichloropropanol in a microchemical system, Industrial & Engineering Chemistry Research 51 (2012) 14685-14691.
47. J.S. Zhang, K. Wang, Y.C. Lu, G.S. Luo, Beckmann rearrangement in a microstructured chemical system for the preparation of e-caprolactam, AIChE Journal 58 (2012) 925-931.
48. J.S. Zhang, K. Wang, Y.C. Lu, G.S. Luo, Beckmann rearrangement of cyclohexanone oxime in a microchemical system: The role of SO3 and product inhibition, AIChE Journal 58 (2012) 3156-3160.
49. J.S. Zhang, Y.C. Lu, Q.R. Jin, K. Wang, G.S. Luo, Determination of kinetic parameters of dehydrochlorination of dichloropropanol in a microreactor, Chemical Engineering Journal 203 (2012) 142-147.
50. C. Zheng, J. Tan, Y.J. Wang, G.S. Luo, CO2 Solubility in a mixture absorption system of 2-amino-2-methyl-1-propanol with glycol, Industrial & Engineering Chemistry Research 51 (2012) 11236-11244.