馬友光,男,回族,教授,博士生導師(就職於天津大學)。
中國化工學會會員;美國化學工程師學會會員;《 Chinese Journal of Chemical Engineering》編委。
Lab on a Chip,Soft Matter, Langmuir;CES, CEJ, CEP, CET, IECR, ChERD, IJHMT, JECD, JCT,MNF,J Phy Chem, RSC Advances, Separation and Purification Technology, CJChE,《化工學報》等60多個國內外期刊審稿人。
國家科技進步獎,國家自然科學基金,教育部博士點基金,全國百優論文等評審專家。
基本介紹
- 中文名:馬友光
- 國籍:中國
- 民族:回族
- 畢業院校:天津大學
- 性別:男
- 學位:博士
個人信息,學習經歷,工作經歷,研究領域,科研項目:,學術論文,獲得獎項,合作交流:,
個人信息
職業:教授,博士生導師(就職於天津大學)
畢業學校:天津大學化工學院(學士、碩士、博士學位均在這學校畢業)
學習經歷
1986年本科畢業於天津大學化工學院,獲化學工程專業工學學士學位;
1989年研究生畢業於天津大學化工學院,獲有機化工專業工學碩士學位;
1993年博士畢業於天津大學化工學院,獲化學工程專業工學博士學位,後留校工作至今。
工作經歷
1995年晉升為副研究員,2002年晉升為研究員,2003年被聘為博士生導師。
期間,2001,9-2002,7國家公派在北京語言文化大學進修英語和法語,
2002,9-2003,9作為國家公派訪問學者在法國科學研究中心化學工程實驗室進行科研工作,同時被法國科學研究中心聘為正高級研究員。
曾任化學工程聯合國家重點實驗室天津大學分室副主任。
研究領域
長期從事氣液兩相流氣泡運動和傳質特性、氣液界面傳質理論等相關理論及套用研究工作。主持國家自然科學基金10餘項、國家星火計畫、火炬計畫、中國石化集團、省校合作基金等省部級以上項目20餘項,企業委託項目20餘項。
科研項目:
- 1. 界面湍動現象與傳質的研究,國家自然科學基金(No. 29976001),合作負責人
- 2. 界面吸收機理與強化,國家自然科學基金(No. 20176036),負責人
- 3. 非牛頓流體中的氣泡行為及傳質特性,國家自然科學基金(No. 20476073),負責人
- 4. 微通道內氣液兩相流及傳質,國家自然科學基金(No. 20876107),負責人
- 5. 非牛頓流體中運動氣泡間的相互作用及界面傳質機理, 國家自然科學基金(No. 21076139),負責人
- 6. 微反應器內氣-液傳遞過程強化行為研究,國家自然科學基金(國際合作)(No. 20911130358)
- 7. 微通道內氣液界面傳質機理與調控,國家自然科學基金(No. 21276175),負責人
- 8. 氣-液兩相反應器介尺度流動結構與顆粒傳質過程的關聯與調控, 國家自然科學基金重點項目(“多相反應過程中的介尺度機制及調控”重大研究項目)(No. 91434204),子課題負責人
- 9. 微反應器限域空間內非常規流體液滴的形成、運動、聚並、傳質及其耦合機理與調控,國家自然科學基金(No 21576186),負責人
- 10. 微反應器CO2捕集過程中的氣泡傳質機理以及氣-液微反應器的集成與放大,國家自然科學基金(No 21776200),負責人
- 11. 均三甲苯、偏三甲苯、連三甲苯生產技術,企業委託,負責人
- 12. 對二乙苯生產技術,企業委託,負責人
- 13. C10重芳烴分離技術,企業委託,負責人
- 14. 高純異丁烷分離技術,企業委託,負責人
- 15.高純α-甲基萘與β-甲基萘分離技術,企業委託,負責人
- 16. 煤及甲醇制油副產均四甲苯分離提純技術,企業委託,負責人
學術論文
發表學術論文100餘篇,其中被Sci或EI檢索論文80餘篇。
論文
1. Rui Maa, Taotao Fua,*, Qindan Zhanga, Chunying Zhua, Youguang Maa,*, Huai Z. Lib, Breakup dynamics of ferrofluid droplet in a microfluidic T-junction, Journal of Industrial and Engineering Chemistry, 2017,54(10): 408-4202.
2. Chunying Zhua, Yutao Lua, Taotao Fua, Youguang Maa*, Huai Z. Lib,Experimental investigation on gas-liquid mass transfer with fast chemical reaction in microchannel International Journal of Heat and Mass Transfer,2017, 114: 83-89
3. Chong Zhanga, Taotao Fu a,*, Chunying Zhua, Shaokun Jiangb, Youguang Ma a,*, Huai Z. Lic, Dynamics of bubble formation in highly viscous liquids in a flow-focusing device, Chemical Engineering Science,2017, 172(11): 278-285
4. Xiaoda Wanga, b, Chunying Zhua, Taotao Fua,*, Ting Qiu, Youguang Maa, *, Critical condition for bubble breakup in a microfluidic flow-focusing junction, Chemical Engineering Science,2017, 164(6): 178-187
5. Jing Zhang, Taotao Fu, Chunying Zhu*, Youguang Ma*, Volumetric and viscometric properties of amino acids in aqueous myo-inositol solution at T = (293.15 to 323.15) K and p = 0.101 MPa,Journal of molecular Liquids , 2017(9), 242: 190-203
6. Wanpeng Suna, Chunying Zhua*, Taotao Fua, Hui Yanga, Youguang Maa* and Huaizhi Lib, The minimum in-line coalescence height of bubbles from a submerged nozzle in power law non-Newtonian fluid, International Journal of Multiphase Flow, 92: 161-170, 2017
7. Zhu, Chunying; Ren, Xiaofen; Ma, youguang*, Density and viscosity of amino acid in aqueous xylitol solution at T = (293.15, 303.15, 313.15, 323.15) K, Journal of Chemical & Engineering Data,2017,62(1):477-490
8. Jing Zhang, Chunying Zhu*, Youguang Ma*, Volumetric and viscometric properties of amino acids in aqueous maltitol solution at T = (293.15 to 323.15) K, Journal of Chemical Thermodynamics, 2017, 111: 52-64
9. Xiao F. Jiang, Yi N. Wu, Youguang Ma, Huai Z. Li*,Formation and breakup dynamics of ferrofluid drops,Chemical Engineering Research and Design, Part B, 2016,115(11): 262-269
10. Wei Dua, Taotao Fua*, Chunying Zhua, Youguang Maa,* Huai Z. Lib , Breakup dynamics for droplet formation in a flow-focusing device: Rupture position of viscoelastic thread from matrix, Chemical Engineering Science, 2016, 153:255-269
11. Yutao Lua, Taotao Fua*, Chunying Zhua, Youguang Maa*, Huai Z. Lib, Experimental investigation on the breakup dynamics for bubble formation in viscous liquids in a flow-focusing device,Chemical Engineering Science, 2016, 152: 516-527
12. Taotao Fu, Odile Carrier, Denis Funfschilling, Youguang Ma*, Huai Z. Li*, Newtonian and non-Newtonian flows in microchannels: in-line rheological characterization, Chemical Engineering & Technology,2016, 39(5): 987-992
13. Yaran Yin, Chunying Zhu,* Youguang Ma*, Volumetric and viscometric properties of binary and ternary mixtures of 1-butyl-3-methylimidazolium tetrafluoroborate, monoethanolamine and water, Journal of Chemical Thermodynamics, 2016, 102: 413-428
14. Huajun Li, Yining Wu, Xiaoda Wang, Chunying Zhu*, Taotao Fu, Youguang Ma*,Magnetofluidic control of the breakup of ferrofluid droplets in a microfluidic Y-junction,RSC Advances, 2016, 6(1), 778 - 785
15. Taotao Fu, Youguang Ma*, and Huai Z. Li*. Breakup dynamics of slender droplet formation in shear-thinning fluids in flow-focusing devices, Chemical Engineering Science, 2016, 144: 75-86
16. Yutao Lua, Taotao Fua*, Chunying Zhua, Youguang Maa*, Huai Z. Lib, Dynamics of bubble breakup at a T-junction, Physical Review E, 2016 , 93(2): 022802
17. Wei Dua, Taotao Fua*, Chunying Zhua, Youguang Maa*, Huai Z. Lib, Breakup Dynamics for High-viscosity Droplet Formation in a Flow-Focusing Device: Symmetrical and Asymmetrical Rupture, AIChE J, 2016, 62(1): 325-337
18. Xiaofen Ren, Chunying Zhu*, Youguang Ma. Volumetric and viscometric study of amino acids in aqueous sorbitol solution at different temperatures, Journal of Chemical Thermodynamics, 2016, 93: 179-192
19. Wang Guan, Ma Youguang, Wang Yongli, Hu Xiaowei, Hao, Hongxun*. Investigation of solution-mediated phase transformation of cefuroxime acid to its acetonitrile solvate, Organic Process research & Development, 2015, 19 (12): 1820–1825
20. Xiaofen Ren, Chunying Zhu*, Youguang Ma, Volumetric and Viscometric Studies of Amino Acids in Mannitol Aqueous Solution at T = (293.15 to 323.15) K, Journal of Chemical and Engineering Data, 60(6): 1787-1802, 2015
21. Taotao Fua,b, Youguang Maa* and Huai Z. Lib*,Bubble coalescence in non-Newtonian fluids in a microfluidic expansion device,Chemical Engineering and Processing: Process Intensification, 97(11) : 38-44, 2015
22. Xu, Xiaohui; Zhu, Chunying*; Ma, youguang*, Densities and Viscosities of Sugar Alcohols in Vitamin B6 Aqueous Solutions at (293.15 to 323.15) K, Journal of Chemical and Engineering Data, 60:535−1543, 2015
23. Xu, Xiaohui,Zhu, Chunying*, Ma, Youguang, Song, Haihua,A robust combinatorial approach based on P-graph for superstructure generation in downstream bioprocesses, Brazilian Journal of Chemical Engineering, 32(1): 259-267, 2015
24. Xiaoda Wang, Chunying Zhu, Yining Wu, Taotao Fu*, Youguang Ma*, Dynamics of Bubble Breakup with Partly Obstruction in a Microfluidic T-junction,Chemical Engineering Science, 132(?? ):128-138,2015
25. Yining Wu a,b,Taotao Fu a,Chunying Zhua,Youguang Ma a* and Huai Z. Li b*, Shear-induced tail breakup of particles flowing in a straight microfluidic channel, Chemical Engineering Science, 135(10): 61-66, 2015
26. Taotao Fu* and Youguang Ma*, Bubble formation and breakup dynamics in microfluidic devices, Chemical Engineering Science, 135(10): 343-372, 2015
27. Jingru Liu, Chunying Zhu*, Xiaoda Wang, Taotao Fu, Youguang Ma* and Huaizhi Li. 3-D numerical simulation of coalescence and interactions of multiple horizontal bubbles rising in non-Newtonian fluid: the impact of orifice arrangements for perforated equipment, AIChE J, 61( 10): 3528-3546, 2015
28. Taotao Fu a, Lijuan Wei b, Chunying Zhu a, Youguang Ma a*,Flow patterns of liquid-liquid two-phase flow in non-Newtonian fluids in rectangular microchannels, Chemical Engineering and Processing: Process Intensification,91:114-120,2015
29. Xiaoda Wang, Chunying Zhu, Taotao Fu*, Youguang Ma*, Bubble breakup with permanent obstruction in an asymmetric microfluidic T-junction, AIChE Journal, 2015, 61(3): 1081-1091
30. Yining Wu, Taotao Fu, Youguang Ma and Huai Z. Li*. Active control of ferrofluid droplet breakup dynamics in a microfluidic T-junction, Microfluidics and Nanofluidics, 2015, 18(1): 19-27
31. Chunfang Li, Chunying Zhu, Youguang Ma*, Dongzhi Liu, Xiqun Gao. Experimental study on volumetric mass transfer coefficient of CO2 absorption into MEA aqueous solution in a rectangular microchannelreactor, International Journal Heat and Mass Transfer, 2014, 78: 1055-1059
32. Yutao Lu, Taotao Fu*, Chunying Zhu, Youguang Ma*, Huaizhi Li. Pinch-off mechanism for Taylor bubble formation in a microfluidic flow-focusing device, Microfluidics and Nanofluidics, 2014; 16(6): 1047-1055
33. Wang Guan, Wang Yongli, Zhang Jie, Luan Qinghua, Ma Youguang, Hao Hongxun*. Modeling and simulation of thermodynamic properties of L-alanyl-L-glutamine in different solvents, Industrial and Engineering Chemistry Research, 53( 8): 3385-3392, 2014
34. Wang Guan, Wang Yongli, Ma Youguang, Hao Hongxun*, Wang Huihui, Zhang jie, Concomitant crystallization of cefuroxime acid and its acetonitrile solvate in acetonitrile and water solution,Industrial and Engineering Chemistry Research, 53(36): 14028-14035, 2014
35. Wang Guan, Wang Yongli, Ma Youguang, Hao Hongxun*, Luan Qinghua, Wang Huihui,Determination and correlation of cefuroxime acid solubility in (acetonitrile + water) mixtures,Journal of Chemical Thermodynamics, 77(10): 144-150, 2014
36. Wang, Guan, Wang, Yongli, Hu, Xiaowei, Ma, Youguang, Hao, Hongxun, Determination and correlation of cefoperazone solubility in different pure solvents and binary mixture, Fluid Phase Equilibria, 361(1): 223-228, 2014
37. Jingru Liu, Chunying Zhu, Taotao Fu and Youguang Ma*, Systematic Study on the Coalescence and Breakup Behaviors of Multiple Parallel Bubbles Rising in Power-law Fluid, Industrial & Engineering Chemistry Research, 53(12): 4850-4860, 2014
38. Fu Taotao, Ma Youguang*, Li Huai Z.*, Hydrodynamic feedback on bubble breakup at a T-junction within an asymmetric loop, AIChE Journal, 60(5): 1920-1929, 2014
39. Xiaoda Wang, Chunying Zhu, Taotao Fu*, Youguang Ma*, Critical lengths for the transition of bubble breakup in microfluidic T-junctions, Chemical Engineering Science, 111: 244-254, 2014
40. Lu Yutao, Fu Taotao*, Zhu Chunying, Ma Youguang*, Li Huai Z., Scaling of the bubble formation in a flow-focusing device: role of the liquid viscosity, Chemical Engineering Science, 105: 213-219, 2014
41. Chunying Zhu, Chunfang Li, Xiqun Gao, Youguang Ma*, Dongzhi Liu, Taylor flow and mass transfer of CO2 chemical absorption into MEA aqueous solutions in microchannel, International Journal of Heat and Mass Transfer, 73: 492-499, 2014
42. Xiaofeng Jiang; Chunying Zhu*; Youguang Ma*, Volumetric and viscometric studies of amino acids in L-ascorbic acid aqueous solutions at T = (293.15 to 323.15) K, Journal of Chemical Thermodynamics, 71: 50-63, 2014
43. Yining Wu, Taotao Fu*, Chunying Zhu, Youguang Ma, Huai Z. Li*, Bubble coalescence at a microfluidic T-junction convergence: from colliding to squeezing, Microfluidics & Nanofluidics, 16(1-2): 275-286, 2014
44. Chunying Zhu, Shuang Han, Jingru Liu, and Youguang Ma*, Densities and Viscosities of Diaminotoluene with Water, Ethanol, Propan-1-ol, Butan-1-ol from (293.15 to 333.15) K, Journal of Chemical and Engineering Data, 59(3): 880-889, 2014
45. Xiaofeng Jiang , Chunying Zhu *, and Youguang Ma, Densities and Viscosities of Erythritol, Xylitol, and Mannitol in l-ascorbic Acid Aqueous Solutions at T = (293.15 to 323.15) K, Journal of Chemical and Engineering Data, 58(11): 2970-2978, 2013
46. Xiaofeng Jiang , Chunying Zhu *, and Youguang Ma, Density and viscosity of sorbitol / maltitol in L-ascorbic acid aqueous solutions at T = (293.15 to 323.15) K, Journal of Molecular Liquids, 188: 67-73, 2013
47. Jingru Liu, Chunying Zhu, Taotao Fu, Youguang Ma*, Huaizhi Li, Numerical simulation of the interactions between three equal-interval parallel bubbles rising in non-Newtonian fluids, Chemical Engineering Science, 93: 55-66, 2013
48. Wu Yining, Fu Taotao, Ma Youguang, Li Huai Z*, Ferrofluid droplet formation and breakup dynamics in a microfluidic flow focusing device, Soft Matter, 9, pp 9792-9798, 2013
49. Xiaolei Li, Chunying Zhu, Youguang Ma*, Removal of SO2 using ammonium bicarbonate aqueous solution as absorbent in a bubble column reactor, Frontiers of Chemical Science and Engineering,2013,7(2): 185-191,V39BE
50. Frank Xavier, Charpentier Jean-Claude, Ma Youguang, Midoux Noël, Li Huai Z. A multiscale approach for modeling bubbles rising in non-newtonian fluids, Industrial and Engineering Chemistry Research, 51( 4): 2084-2093 (2012)
51. Taotao Fu, Yining Wu,Youguang Ma and Huai Z. Li, droplet formation and breakup dynamics in microfluidic flow-focusing devices: from dripping to jetting, Chemical Engineering Science, 84(24): 207-217(2012)
52. Yining Wu, Taotao Fu, Chunying Zhu, Yutao Lu, Youguang Ma and Huai Z. Li,Asymmetrical breakup of bubbles at a microfluidic T-junction divergence: feedback effect of bubble collision, Microfluidics and Nanofluidics, 13(5): 723-733 (2012)
53. Shuang Han, Chunying Zhu, and Youguang Ma, Densities and Viscosities of Naphthalen-1-ol, Naphthalen-2-ol and 1-Aminonaphthalene in the Solvents of Ethanol, Propan-1-ol and Butan-1-ol, J. Chem. Eng. Data, 57(5): 1396-1403 (2012)
54. Shaobai Li, Youguang Ma*, Shaokun Jiang, Taotao Fu,Chunying Zhu and Huaizhi Li, The drag coefficient and shape of a single bubble rising in non-Newtonian fluids of CMC solution. Journal of Fluids Engineering-Transactions of the ASME, 134(8): 084501, 2012.
55. Shaobai Li, Youguang Ma*, Taotao Fu, Chunying Zhu, Yang Gao, Luqing Qi, Study on the mass transfer of bubble swarms in three differently rheological fluid, International Journal Heat and Mass Transfer, 55(21-22): 6010-6016, (2012).
56. Shaobai Li, Youguang Ma*, Chunying Zhu, Taotao Fu and Huaizhi Li, Turbulent Characteristic of Liquid around a Chain of Bubbles in Non-Newtonian Fluid, Chinese Journal of Chemical Engineering,20(5):883—888 (2012).
57. Shaobai Li, Youguang Ma, Shaokun Jiang, Taotao Fu, Chunying Zhu and Huai Z. Li,The viscosity distribution around a rising bubble in shear-thinning non-Newtonian fluids,Brazilian Journal of Chemical Engineering, 29(2): 265-274 (2012).
58. Fu Taotao, Ma Youguang, Funfschilling Denis, Zhu Chunying, Li Huai Z. Breakup dynamics of slender bubbles in non-Newtonian fluids in microfluidic flow-focusing devices. AIChE. J., 58(11): 3560-3567 (2012).
50. ZHU Chunying, FU Taotao, GAO Xiqun , MA Youguang, Numerical simulation of concentration field on liquid side around bubble during rising and coalescing process in non-Newtonian fluid, Chinese Journal of Chemical Engineering, 19(5): 799-807 (2011).
59. Fu Taotao, Funfschilling Denis, Ma Youguang, Li Huai Z. Bubble formation in non-Newtonian fluids in a microfluidic T-junction device. Chemical Engineering and Processing: Process Intensification, 50(4), 438-442 (2011).
60. Liu Jingru, Zhu Chunying, Ma Youguang, Densities and viscosities of binary solutions of benzene-1,3-diol+water, ethanol, propan-1-ol, and butan-1-ol at T = (293.15 to 333.15) K. J. Chem. Eng. Data, 56(5), 2095-2099 (2011).
61. Fu Taotao, Ma Youguang, Funfschilling Denis, Li Huai Z. Dynamics of bubble breakup in a microfluidic T-junction divergence. Chemical Engineering Science, 66(18): 4184-4195 (2011).
62. Fu Taotao, Ma Youguang, Funfschilling Denis, Li Huai Z. Gas-liquid flow stability and bubble formation in non-Newtonian fluids in microfluidic flow-focusing devices. Microfluidics and Nanofluidics, 10(5): 1135-1140 (2011).
63. Ji Xiyan, Ma Youguang, Fu Taotao, Zhu Chunying, Wang Dongji. Experimental investigation on liquid volumetric mass transfer coefficient for upward gas-liquid two-phase flow in rectangular microchannels. Brazilian Journal of Chemical Engineering, 27(4): 573-582, (2010)
64. Ma Youguang, Ji Xiyan, Wang Dongji, Fu Taotao, Zhu Chunying. Measurement and correlation for pressure drop of gas-liquid two-phase flow in Y-junction rectangular microchannels. Chinese Journal of Chemical Engineering, 18(6): 940-947, (2010)
65. S. M. Lu, Y. G. Ma, S. H. Shen and C. Y. Zhu, Experimental Research for SO2 Absorption in Bubbling Stirring Reactor, Advanced material research, 113-114: 339-342(2010).
66. Jiang Shaokun,MAYouguang, Fan Wenyuan, Yang Ke, Li Huaizhi. Chaotic behavior of in-line bubbles rising with coalescences in non-Newtonian fluids: a multiscale analysis, The Korean Journal of Chemical Engineering, 27, (12): 1-8 (2010)
67. Ma Youguang, Fu Taotao, Zhu Chunying, Ji Xiyan, Li Huaizhi. Formation mechanism and size prediction of bubble in a co-flowing T-shaped microchannel. Transactions ofTianjinUniversity, 16(4): 251—255(2010)
68. QIAO Yan , DI Zhiguo, MA Youguang, MA Peisheng and XIA Shuqian,Viscosities of Pure Water, Acetic Acid + Water, and p-Xylene + Acetic Acid + Water at Different Temperature and Pressure, Chinese Journal of Chemical Engineering, 18(3) 446—454 (2010)
69. Yan Qiao, Youguang Ma, Yan Huo, Peisheng Ma, Shuqian Xia, A group contribution method to estimate the densities of ionic liquids, J. Chem. Thermodynamics 42 (2010) 852–855
70. Sumin LU , Youguang MA, Shuhua SHEN , Chunying ZHU, The effect of hydrophobic modification of zeolites on CO2 absorption in different solvents, Brazilian Journal of Chemical Engineering, 27(2) : 327-338 (2010)
71. Zhu Chunying, Ma youguang, Zhou Chuanling, Densities and viscosities of sugar alcohol aqueous solutions, Journal of Chemical & Engineering Data, 55 (9): 3882-3885 ( 2010)
72. SHEN Shuhua, MA Youguang, Liu Weili, LU Sumin, ZHU Chunying, Mass Transfer Enhancement of Propane Absorption into Dodecane-Water Emulsions, Chinese Journal of Chemical Engineering, 18(2) 217—222 (2010)
73. Fu Taotao, Funfschilling Denis, Ma Youguang, Li Huai Z. Scaling the formation of slug bubbles in microfluidic flow-focusing devices. Microfluidics and Nanofluidics, 8, 467-475 (2010)
74. Jiang Shaokun, MA Youguang, Fan Wenyuan, Yang Ke, Li Huaizhi, Chaotic Characteristics of Bubbles Rising with Coalescences in Pseudoplastic Fluid, Chinese Journal of Chemical Engineering, 18(1) 18—26 (2010)
75. Fu Taotao, Ma Youguang, Funfschilling Denis, Zhu Chunying, Li Huai Z. Squeezing-to- dripping transition for bubble formation in a microfluidic T-junction device. Chemical Engineering Science, 65( 12): 3739-3748( 2010)
76. FanWenyuan,MAYouguang, Jiang Shaokun, Yang Ke, Li Huaizhi, An experimental investigation for bubble rising in non-Newtonian fluids and empirical correlation of drag coefficient, JournalofFluidsEngineering, 132(2): 1-7 (2010)
77. FAN Wenyuan, MA Youguang, LI Xiaolei and LI Huaizhi, Study on the Flow Field around Two Parallel Moving Bubbles and Interaction Between Bubbles Rising in CMC Solutions by PIV, Chinese Journal of Chemical Engineering, 17(6) 904—913 (2009)
78. SHEN Shuhua, MA Youguang, LU Sumin, ZHU Chunying, An Unsteady Heterogeneous Mass Transfer Model for Gas Absorption Enhanced by Dispersed Third Phase Droplets,Chinese Journal of Chemical Engineering, 17(4):602-607(2009)
79. Fu Taotao, Ma Youguang, Funfschilling Denis, Li Huai Z. Bubble formation and breakup mechanism in a microfluidic flow-focusing device. Chemical Engineering Science, 64, 2392-2400 (2009).
80. LU Sumin,MA Youguang, ZHU Chunying, SHEN Shuhua, HE Qing, The influence of hydrophobic modification of zeolites on CO2 absorption rates,Chinese J. Chem. Eng, 17(1), 36-41 (2009)
81. ZHU Chunying,MA Youguang and JI Xiyan, Diffusion coefficients of L-arginine in non-Newtonian fluid , Chinese J. Chem. Eng, 16(6):856-860(2008)
82. LU Sumin,MA Youguang, SHEN Shuhua and ZHU Chunying, Gas Absorption of Carbon Dioxide in Ca(OH)2 Slurries,Transactions of Tianjin University, 13(6):423-427(2007).
83. MA Youguang, FAN Wenyuan, JIANG Shaokun, ZHU Chunying, LI Huaizhi, Modified Model of the Bubble Formation in Non-Newtonian Fluids, Transactions of Tianjin University, 15(1):50-60(2009)
84. Sumin Lu,Youguang Ma, Shuhua Shen,Chunying Zhu, Effect of fine solid particles on absorption rate of gaseous CO2, Frontiers of Chemical Engineering in China, 2(4): 368-72, (2008)
85. LU Sumin, MA Youguang, ZHU Chunying, SHEN Shuhua, The enhancement of CO2 chemical absorption by K2CO3 aqueous solution in the presence of activated carbon particles, Chinese J. Chem. Eng,15(6), 842-846( 2007)
86. Jiang Shaokun,Fan Wenyuan, Zhu Chunying,Ma Youguang and Li Huaizhi, Study on the Bubble Formation in Non-Newtonian Fluids Using a Laser Image Measurement System, Chinese J. Chem. Eng, 15(4), 611-615 (2007)
87. Fan Wenyuan, Jiang Shaokun, Zhu Chunying,Ma Youguang and Li Huaizhi, Study on bubble formation in non-Newtonian fluids by Laser image technique, Optics and Laser Technology, 40, (2): 389-393 (2008)
88. Youguang Ma, Guocong Yu, Huai Zhi Li, Note on the mechanism of interfacial mass transfer of absorption, Int. J. Heat and Mass Trans., 48(16), 3454-3460(2005).
89. Youguang Ma, Chunying Zhu, Peisheng Ma, and K. T. Yu, Studies on diffusion coefficients of amino acids in aqueous solutions, J. Chem. Eng. Data, 50(4), 1192-1196(2005).
90. Frank X., Li H. Z., Funfschilling D., Burdin F., and Ma Youguang, Bubble motion in non-Newtonian Fluids and suspensions, Can. J. Chem. Eng., 81, 483-490(2003).
91. Ma Youguang, Feng Huisheng, Xu Shichang, and Yu Guocong,The mechanism of interfacial mass transfer in gas absorption process, Chinese J. Chem.Eng., 11(2), 227-230(2003).
92. Ma Youguang, Liu Yongli, Cheng Hong, and Yu Guocong,Stuies on the influence of third component on gas-liquid mass transfer, Chinese J. Chem. Eng., 8(2), 100-102(2000).
93. Ma Youguang, Cheng Hong, and Yu Guocong,measurement of concentration fields near the interface of a rising bubble by Holographic interfernece technique, Chinese J. Chem.Eng., 7(4), 363-367(1999).
94. Ma Youguang,Xu Shichang, Feng Huisheng, K.T.Yu, Effect of ultrafine particles on flow field and transport properties near the interface around a moving bubble, Transactions of Tianjin University,10(1),1-4(2004).
95. Gao Xiqun,Ma youguang, Zhu Chunying, Yu Guocong, Towards the Mechanism of Mass Transfer of a Single Bubble, Chinese J. Chem. Eng., 14(2),158-163(2006)
96.Ma Youguang, Gao Xiqun, Zhu Chunying, and Yu Guocong,The Analysis of Gas Absorption into a Stationary Droplet in Atmospheric Environment, Chinese J. Chem. Eng., 13(6),1-10(2005)
97. Zhu Chunying, Duan Zhiqing, Gao Xiqun,Ma Youguang, and Yu Guocong,The Diffusion of Amino Acids in non-Newtonian Fluids, Chinese J. Chem.Eng., 14(4),450-455(2006)
獲得獎項
學術成就:
1.均三甲苯生產技術及工藝,天津市科技進步二等獎,2001
2. 蒸餾過程中若干基礎理論問題研究,天津市自然科學一等獎,2002
3,5-三甲苯,河北省科技進步三等獎,1998
4. 均三甲苯生產工藝技術,教育部科技進步三等獎,2000
5,5-三甲苯,廊坊市科技進步一等獎,1998
6. 均三甲苯,河北省優秀新產品獎,1998
7. 1,3,5-三甲苯,廊坊市市長特別獎,2000
合作交流:
與洛林大學及法國科學研究中心化學工程實驗室(University of Lorraine, CNRS)建立了長期穩定的合作關係