天津大学化工学院导师教师师资介绍简介-马友光

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马友光现任职称/职务：长聘教授
通讯地址：天津市津南区海河教育园区内雅观路135号天津大学化学工程研究所52教F区301室
电子邮箱：ygma@tju.edu.cn
办公电话：**
研究方向: 1.传质与分离工程
2.微化工技术
3.化工过程强化
4.多相流与传质
5.化工热力学
6.精细化工

马友光现任职称/职务：长聘教授
通讯地址：天津市津南区海河教育园区内雅观路135号天津大学化学工程研究所52教F区301室
电子邮箱：ygma@tju.edu.cn
办公电话：**
讲授课程: 微化工技术与过程强化

马友光现任职称/职务：长聘教授
通讯地址：天津市津南区海河教育园区内雅观路135号天津大学化学工程研究所52教F区301室
电子邮箱：ygma@tju.edu.cn
办公电话：**
学术兼职: 中国化工学会会员
美国化学工程师学会会员
《 Chinese Journal of Chemical Engineering》编委。
Lab on a Chip,Soft Matter,Langmuir；CES, CEJ, CEP, CET,IECR, ChERD, IJHMT, JECD, JCT，MNF，J Phy Chem, RSC Advances, Separation andPurification Technology, CJChE，《化工学报》等近百种国内外期刊审稿人。
国家科技进步奖，国家自然科学基金，教育部博士点基金，全国百优论文等评审专家。

马友光现任职称/职务：长聘教授
通讯地址：天津市津南区海河教育园区内雅观路135号天津大学化学工程研究所52教F区301室
电子邮箱：ygma@tju.edu.cn
办公电话：**
学术成就: 均三甲苯生产技术及工艺，天津市科技进步二等奖，2001
蒸馏过程中若干基础理论问题研究，天津市自然科学一等奖，2002
1，3，5-三甲苯，河北省科技进步三等奖，1998
均三甲苯生产工艺技术，教育部科技进步三等奖，2000
1，3，5-三甲苯，廊坊市科技进步一等奖，1998
均三甲苯，河北省优秀新产品奖，1998
1，3，5-三甲苯，廊坊市市长特别奖，2000

马友光现任职称/职务：长聘教授
通讯地址：天津市津南区海河教育园区内雅观路135号天津大学化学工程研究所52教F区301室
电子邮箱：ygma@tju.edu.cn
办公电话：**
科研项目: 1. 界面湍动现象与传质的研究，国家自然科学基金(No. **)，合作负责人
2. 界面吸收机理与强化，国家自然科学基金(No. **)，负责人
3. 非牛顿流体中的气泡行为及传质特性，国家自然科学基金(No. **)，负责人
4. 微通道内气液两相流及传质，国家自然科学基金(No. **)，负责人
5. 非牛顿流体中运动气泡间的相互作用及界面传质机理, 国家自然科学基金(No. **)，负责人
6.微反应器内气-液传递过程强化行为研究，国家自然科学基金（国际合作）(No. )
7. 微通道内气液界面传质机理与调控，国家自然科学基金(No. **)，负责人
8. 气-液两相反应器介尺度流动结构与颗粒传质过程的关联与调控, 国家自然科学基金重点项目（“多相反应过程中的介尺度机制及调控”重大研究项目）(No. **)，子课题负责人
9. 微反应器限域空间内非常规流体液滴的形成、运动、聚并、传质及其耦合机理与调控，国家自然科学基金(No **)，负责人
10. 微反应器CO₂捕集过程中的气泡传质机理以及气-液微反应器的集成与放大,国家自然科学基金(No **)，负责人
11. 均三甲苯、偏三甲苯、连三甲苯生产技术，企业委托，负责人
12. 对二乙苯生产技术，企业委托，负责人
13. C10重芳烃分离技术，企业委托，负责人
14. 高纯异丁烷分离技术，企业委托，负责人
15. 高纯α-甲基萘与β-甲基萘分离技术，企业委托，负责人
16. 煤及甲醇制油副产均四甲苯分离提纯技术，企业委托，负责人
17. 高纯正戊烷、正己烷分离技术，企业委托，负责人

马友光现任职称/职务：长聘教授
通讯地址：天津市津南区海河教育园区内雅观路135号天津大学化学工程研究所52教F区301室
电子邮箱：ygma@tju.edu.cn
办公电话：**
论著专利:
主要论文
1. Guo Rongwei, Fu Taotao*, Zhu Chunying,MaYouguang*,Flow distribution and mass transfer of gas-liquid flow intree-shaped microchannels with different flow distributor: halving-width versusconstant-width, Industrial & Engineering Chemistry Research, 2020, 59, 3(1): 1327-1335
2. Daofan Ma, Chunying Zhu*, Taotao Fu, Xigang Yuan,YouguangMa*，Study on the volumetric and viscometric properties for binary andternary solutions of diethylenetriamine, N,N- Diethylethanolamine and water, Journalof Chemical and Engineering Data, 2020, 65, 1(1): 239-254
3. Zhang Qingjun, Li Chenxiaodong, Zeng Aiwu*,Ma, Youguang,Yuan Xigang, Dynamic control analysis of partially heat-integratedpressure-swing distillation for separating a maximum-boiling azeotrope, Separationand Purification Technology, 2020, 230, 2(1): 223-237
4. Xiaoxi Yu,*, Yining Wu, Yuan Li,*, Zhi Yang,Youguang Ma, The formationof satellite droplets in micro-devices due to the rupture of neck filament, ChemicalEngineering Research and Design, 2020, 153(1): 435-442
5. Qindan Zhang,Yining Wu,Youguang Maand Huai Z. Li*,Self-sustained coalescence-breakup cycles of ferrodrops under a magnetic field,langmuir, 2019, 35-37 (8)，12028-12034
6. Qindan Zhang, Xiaofeng Jiang, David Brunello,Taotao Fu, Chunying Zhu,Youguang Ma,Huai Z. Li1*，Initialcoalescence of a drop at planar liquid surface，Physical ReviewE, 2019, 100（3）：033112
7. Hao Zhou，Chunying Zhu*，Taotao Fu，Youguang Ma*，Huai Z. Li，Dynamics and interfacial evolution for bubblebreakup in shear-thinning non-Newtonian fluid in microfluidic T-junction，Chemical Engineering Science，2019，208（11）：115158
8. Liang, Di， Ma, Pengcheng， Zhu, Chunying*， Fu, Taotao，Ma, Youguang*， Wang, Kai， Luo,Guangsheng，Manipulable formation of ferrofluid droplets in Y-shaped flow-focusingmicrochannels， Industrial & EngineeringChemistry Research，2019, 58(41): 19226-19238
9. Qingjun Zhang, Chenxiaodong Li, Aiwu Zeng*, YouguangMa，Xigang Yuan，Dynamic ControlAnalysis of Partially Heat-Integrated Pressure-Swing Distillation forSeparating a Maximum-Boiling Azeotrope，Separation and Purification Technology, 2019, 224(10):70-84
10. Daofan Ma, Chunying Zhu*, TaotaoFu, Xigang Yuan,Youguang Ma*, Volumetricand viscometric properties of binary and ternary mixtures of monoethanolamine,2-(Diethylamino)ethanol and water from (293.15 to 333.15) K, Journal ofChemical Thermodynamics, 2019, 138 (11): 350-365
11. Mi Sheng, Weldetsadik Netsanet Tesfaye, Hayat Zafar,Fu* Taotao, Zhu Chunying, Jiang Shaokun,Ma Youguang，Effects of the gas feed on bubble formation in a microfluidicT-junction: constant pressure vs constant flow rate injection, Industrial &Engineering Chemistry Research, 2019 , 58( 23): 10092-10105
12. Xin Sun,Chunying Zhu*, Taotao Fu, Youguang Ma*, Huai Z. Li, Breakup dynamics of elasticdroplet and stretching of polymeric filament in a T-junction, ChemicalEngineering Science, 2019，12 (10) 212-223
13. Chong Zhang, Netsanet Tesfaye Weldetsadik , ZafarHayat, Taotao Fu *, Chunying Zhua,Shaokun Jiang,Youguang Ma，The effect ofliquid viscosity on breakup dynamics of bubble formation in a microfluidicflow-focusing device，International Journal of Multiphase Flow, 2019，94(8): 206-211
14. RongweiGuo, Taotao Fu*, Chunying Zhu, Yaran Yin and Youguang Ma*，Hydrodynamics and mass transfer of gas-liquid flowin a tree-shaped parallel microchannel with T-type bifurcations, Chemical EngineeringJournal, 2019，373（10）1203-1211
15. Qingjun Zhang, Aiwu Zeng*, Xigang Yuan,Youguang Ma, Control Comparisonof Conventional and Thermally Coupled Ternary Extractive Distillation Processeswith Recycle Splitting Using a Mixed Entrainer as Separating Agent, Separationand Purification Technology, 2019, 224(10): 70-84
16. Rongwei Guo, Chunying Zhu, Yaran Yin, Taotao Fu*andYouguang Ma*,Mass transfercharacteristics of CO2absorption into 2-amino-2-methyl-1-propanolnon-aqueous solution in a microchannel, Journal of Industrial and Engineering Chemistry,2019，75(7): 194-201
17. Cai Liu, Chunying Zhua, Taotao Fu*,Youguang Ma*, Huai Z. Li, Interfacial dynamics of the core-annular flow forglycerol – water solution / ionic liquid ([BMIM][PF6]) two-phaseflow in a microfluidic flow-focusing junction, Journal of the Taiwan Instituteof Chemical Engineers, 2019, 98(5): 45-52
18. Xiaohan Yang, Netsanet Tesfaye Weldetsadik, ZafarHayat, Taotao Fu*, Shaokun Jiang, Chunying Zhu,youguang Ma, Pressure drop of single phase flow in microchannelsand its application in characterizing the apparent rheological property offluids, Microfluidics and Nanofluidics, 2019, 23(75): 2-9
19. Ziyi Xu, Taotao Fu*,Chunying Zhu, Shaokun Jiang,Youguang Ma*,Kai Wangc, Guangsheng Luoc， Dynamics of partially obstructed breakup of bubblesin a microfluidic Y-junction，ELECTROPHORESIS，2019， 40(3) :376-387
20. Guanyi Lin, Shan Jiang, Rongwei Guo,Yaran Yin, ChunyanChu,Chunying Zhu*, Taotao Fu,YouguangMa*， Mass transfercharacteristics of CO2absorption into aqueous solutions of N-methyldiethanolamine+ diethanolamine in a T-junction microchannel，ACSSustainable Chemistry & Engineering,2019, 7( 4): 4368-4375
21. Daofan Ma, Qing Liu, Chunying Zhu?*, HuishengFeng*,Youguang Ma, Volumetric and viscometricproperties of ternary solution of Nmethyldiethanolamine+ monoethanolamine +ethanol, Journal of Chemical Thermodynamics,2019，134(6): 5-19
22. Yaran Yina,ChunyingZhua*, Taotao Fua, RongweiGuoa,YouguangMaa*, Huaizhi Lib,Enhancement effect and mechanism of gas-liquid mass transfer by bafflesembedded in the microchannel, Chemical Engineering Science，2019，201（6）：264-273
23. Di Liang，Rui Ma,Taotao Fu*, Chunying Zhu, Kai Wang, Youguang Ma*, Guangsheng Luob, Formation and dynamics of alternating ferrofluiddroplets under magnetic field at a T-junction,Chemical Engineering Science，2019，200 (6): 248-256
24. Pengcheng Ma, Taotao Fu*,Chunying Zhu,Youguang Ma*,Controllable distribution of droplets in a branchingmicrofluidic T-junction,KJCE，2019, 36（1）: 26-29
25. Rongwei Guo, Taotao Fu*, Chunying Zhu, Yaran YinandYouguang Ma*, The effect of flow distribution on masstransfer of gas-liquid two-phase flow in two parallelizedmicrochannels in a microfluidicloop, International Journal of Heat and Mass Transfer，2019, 130（3）：266-273
26. Wanpeng Suna,Chunying Zhua*, Taotao Fua,Youguang Maa*and Huaizhi Lib, 3DSimulation of Interaction, Coalescence and Drag Coefficient of Bubbles fromThree Nozzles in Shear-Thinning Fluids, International Journal ofMultiphase Flow, 2019，94（1）：69-81
27. Chunyan Chu, Fanbin Zhang，Chunying Zhu*，Taotao Fu,Youguang Ma*, Mass transfercharacteristics of CO2absorption into aqueous solution of ionicliquid [bmim][BF4] in microchannel，International Journal of Heat and Mass Transfer，2019，128（1）: 1064-1071
28. Yaran Yina, Taotao Fua, Chunying Zhua*, Rongwei Guoa,YouguangMaa*, Huaizhi Lib, Dynamics andmass transfer characteristics of CO2absorption into MEA/[Bmim][BF4]aqueous solutions in a microchannel, Separation and Purification Technology，2019, 210(2): 541-552
29. Cai Liu, Chunying Zhu, Taotao Fu*,Youguang Ma*, Huai Z. Li, Interfacial dynamics of the “sausage” wave for glycerol-water solution/ionic liquid([BMIM][PF6]) two-phase flow in a microfluidic flow-focusing junction, CEP,2018, 133(11): 294-302
30. Qindan Zhang, Chunying Zhu, Wei Du, Cai Liu, Taotao Fu,*Youguang Ma, Huai Z. Li *, Formation dynamics of elastic droplets in amicrofluidic T-junction, CHERD，2018, 139（11）: 188-196
31. Xin Sun，Chunying Zhu, Taotao Fu*, Youguang Ma*, Huai Zhi Li，Dynamics of droplet breakup and formation of satellitedroplets in a microfluidic T-junction，Chemical Engineering Science，2018，188（10）: 158-169
32. Shen, Qiuying; Zhang, Chong; Tahir, Muhammad Faran;Jiang, Shaokun; Zhu, Chunying;Ma,Youguang*; Fu, Taotao*, Numbering-up Strategies of Micro-chemical Process:Uniformity of Distribution of Multiphase Flow in Parallel Microchannels,CEP, 2018 , 132(10): 148-159
33. Rui Ma,QindanZhang,TaotaoFu*,ChunyingZhu,KaiWang,Youguang Ma*, Guangsheng Luo, Manipulation of microdroplet at a T-junction: coalescence and scaling law, Journal of Industrial and Engineering Chemistry, 2018， 65(9): 272-279
34. Yaran Yin, ChunyingZhu, Rongwei Guo, Taotao Fu*,YouguangMa*, Huai Z. Li, Gas-liquid two-phase flow in asquare microchannel with chemical mass transfer: Flow pattern, void fractionand frictional pressure drop, International Journal of Heat and Mass Transfer，2018,127(12),p 484-496
35. Chunyan Chu, Chunying Zhu*, TaoTao Fu,Youguang Ma*,Volumetric and viscometricproperties of aqueous solutions of sodium amino acids atT= (293.15 to 333.15) K, Journal of molecular Liquids, 2018, 253(3): 241-249
36. Cai Liu,Qindan Zhang,Chunying Zhu, Taotao Fu*,Youguang Ma*,Huai Z. Li, Formation of droplet and “string of sausages” forwater-ionic liquid ([BMIM][PF6]) two-phase flow in a flow-focusing device, ChemicalEngineering and Processing: Process Intensification，2018, 125(3): 8-17
37. Chunying Zhu, Hui Yang,Youguang Ma*,, Xiqun Gao,Numerical simulation of continuous generation and coalescenceof the bubbles from two parallel submerging nozzles in power law non-Newtonianfluid, ChemicalEngineering &Technology, 2018, 41(3): 541-552
38. Chunying Zhu,Shaobai Li, Taotao Fu，Youguang Ma*. The velocity evolutionfor the coalescence of the two in-line bubbles rising in non-Newtonian fluids,Theoretical Foundations of Chemical Engineering, 2018, 52(3): 459-464
39. Wei Dua,Taotao Fua*, Yingfeng Duanb, Chunying Zhua, Youguang Maa*, Huai Z. Lic,Breakup dynamics for droplet formation in shear-thinning fluids in aflow-focusing device, Chemical Engineering Science，2018，176(2)：66-76
40. Qing Liu, Taotao Fu, Chunying Zhu*,Youguang Ma*,Volumetricand viscometricpropertiesofalcohol amines+ethanolbinary mixtures, Journal of Chemical& Engineering Data，2017, 62, (10): 3261-3273
41. Yaran Yin, Tatao Fu, ChunyingZhu*,YouguangMa*,Volumetric and viscometric study and FT-IR analysis of binary and ternarymixtures of 1-butyl-3-methylimidazolium tetrafluoroborate +methyldiethanolamine + water, Journal of molecular Liquids, 2017,243:664-676
42. Wei Dua,Taotao Fua*, Qindan Zhanga, Chunying Zhua,Youguang Maa*, Huai Z. Lib, Self-similarbreakup of viscoelastic droplet in flow-focusing devices,AIChE Journal,2017，63(11): 5196–5206,
43. RuiMaa,TaotaoFua,*,QindanZhanga,ChunyingZhua,YouguangMaa,*,HuaiZ.Lib, Breakup dynamics of ferrofluid droplet in a microfluidic T-junction, Journal of Industrial and Engineering Chemistry, 2017，54(10): 408-420
44. Jing Zhang, TaotaoFu, Chunying Zhu*,Youguang Ma*,Volumetric andviscometricpropertiesof amino acids in aqueousmyo-inositolsolution atT= (293.15 to 323.15) Kandp=0.101MPa，Journal ofmolecular Liquids , 2017(9), 242: 190-203
45. Chunying Zhua， Yutao Lua,Taotao Fua,Youguang Maa*, Huai Z. Lib，Experimental investigation on gas-liquid masstransfer with fast chemical reaction in microchannel International Journal of Heat and Mass Transfer，2017, 114: 83-89
46. Chong Zhanga, Taotao Fua,*, Chunying Zhua, ShaokunJiangb, Youguang Maa,*,Huai Z. Lic, Dynamics of bubble formation inhighly viscous liquids in a flow-focusing device, Chemical Engineering Science，2017, 172(11):278-285
47. Xiaoda Wanga, b,Chunying Zhua, Taotao Fua,*, Ting Qiu, Youguang Maa,*, Critical condition for bubble breakup in a microfluidic flow-focusingjunction, Chemical Engineering Science，2017, 164(6): 178-187
48. Wanpeng Suna,Chunying Zhua*, Taotao Fua, Hui Yanga,Youguang Maa*and Huaizhi Lib，The minimum in-line coalescence height of bubbles from asubmerged nozzle in power law non-Newtonian fluid, International Journal of Multiphase Flow, 2017, 92: 161-170
49. 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
50. Jing Zhang, Chunying Zhu*,Youguang Ma*, Volumetric and viscometricproperties of amino acids in aqueous maltitol solution at T = (293.15 to323.15) K, Journal of Chemical Thermodynamics, 2017，111（8）: 52-64
51. Xiao F. Jiang,Chunying Zhu,Youguang Ma, Huai Z. Li*, Undressing a Water Marble on OilFilm, Advanced Materials Interfaces,2017, 4( 13): **
52. Xiao F. Jiang, Yi N. Wu,Youguang Ma, Huai Z. Li*，Formation and breakup dynamics of ferrofluid drops，ChemicalEngineering Research and Design, Part B, 2016，115(11): 262-269
53. Yaran Yin,Chunying Zhu,*Youguang Ma*, Volumetric andviscometric properties of binary and ternary mixtures of 1-butyl-3-methylimidazolium tetrafluoroborate, monoethanolamine andwater, Journal of ChemicalThermodynamics, 2016,102(11): 413-428
54. Wei Dua, Taotao Fua*,Chunying Zhua, Youguang Maa,* Huai Z. Lib, Breakupdynamics for droplet formation in a flow-focusing device: Rupture position ofviscoelastic thread from matrix, Chemical Engineering Science, 2016, 153(10):255-269
55. Yutao Lua,Taotao Fua*, Chunying Zhua, Youguang Maa*,Huai Z. Lib, Experimental investigation on the breakupdynamics for bubble formation in viscous liquids ina flow-focusing device，Chemical Engineering Science,2016,152(10): 516-527
56. Taotao Fu, Odile Carrier, Denis Funfschilling,Youguang Ma*,Huai Z. Li*, Newtonian and non-Newtonian flows inmicrochannels: in-line rheological characterization, Chemical Engineering & Technology，2016,39(5): 987-992
57. Huajun Li, Yining Wu, Xiaoda Wang, Chunying Zhu*,Taotao Fu,Youguang Ma*，Magnetofluidic controlof the breakup of ferrofluid droplets in a microfluidic Y-junction，RSC Advances，2016, 6（1）, 778 - 785
58. TaotaoFu, Youguang Ma*, and Huai Z. Li*.Breakup dynamics of slender droplet formation in shear-thinning fluids inflow-focusing devices, Chemical Engineering Science, 2016,144(4): 75-86
59. Yutao Lua,Taotao Fua*, Chunying Zhua,Youguang Maa*,Huai Z. Lib, Dynamics ofbubble breakup at a T-junction, Physical Review E, 2016 , 93(2):022802
60. Wei Dua,Taotao Fua*, Chunying Zhua, Youguang Maa*,Huai Z. Lib, BreakupDynamicsforHigh-viscosityDroplet Formation inaFlow-FocusingDevice:Symmetrical and Asymmetrical Rupture,AIChE J, 2016, 62(1):325-337
61. Xiaofen Ren, Chunying Zhu*,Youguang Ma.Volumetric and viscometric study of amino acids inaqueous sorbitol solution at different temperatures, Journal of ChemicalThermodynamics, 2016,93: 179-192
62. Wang Guan, Ma Youguang, Wang Yongli, Hu Xiaowei,Hao, Hongxun*. Investigation of solution-mediated phasetransformation of cefuroxime acid to its acetonitrile solvate, Organic Processresearch & Development, 2015,19(12): 1820–1825
63. Xiaofen Ren, Chunying Zhu*,Youguang Ma,Volumetric and Viscometric Studies of Amino Acids inMannitol Aqueous Solution at T = (293.15 to 323.15) K, Journal of Chemical andEngineering Data, 60(6): 1787-1802, 2015
64. Taotao Fua,b,Youguang Maa*and Huai Z. Lib*，Bubble coalescence in non-Newtonian fluids in amicrofluidic expansion device，Chemical Engineering and Processing: ProcessIntensification, 97(11): 38-44, 2015
65. Xu, Xiaohui; Zhu, Chunying*;Ma, youguang*,Densities and Viscosities of Sugar Alcohols in VitaminB6 Aqueous Solutions at (293.15 to 323.15) K, Journal of Chemical andEngineering Data, 60（6）：1535?1543, 2015
66. Xu, Xiaohui，Zhu, Chunying*,Ma, Youguang, Song, Haihua，A robust combinatorialapproach based on P-graph for superstructure generation in downstreambioprocesses, Brazilian Journal of Chemical Engineering, 32(1): 259-267,2015
67. Xiaoda Wang, Chunying Zhu,Yining Wu, Taotao Fu*, Youguang Ma*，Dynamics of Bubble Breakup withPartly Obstruction in a Microfluidic T-junction，Chemical Engineering Science, 132(8)：128-138，2015
68. Yining Wua,b,TaotaoFua,Chunying Zhua,Youguang Maa*and HuaiZ. Lib*, Shear-induced tail breakup of particles flowing in astraight microfluidic channel, Chemical Engineering Science, 135（10）:61-66, 2015
69. Taotao Fu*and Youguang Ma*, Bubbleformation and breakup dynamics in microfluidic devices, Chemical Engineering Science, 135(10): 343-372,2015
70. Jingru Liu, Chunying Zhu*, Xiaoda Wang, Taotao Fu,Youguang Ma* and Huaizhi Li. 3-D numerical simulation of coalescence and interactionsof multiple horizontal bubbles rising in non-Newtonian fluid: the impact oforifice arrangements for perforated equipment, AIChE J,61( 10): 3528-3546,2015
71. Taotao Fua, Lijuan Weib,Chunying Zhua,Youguang Maa*，Flow patternsof liquid-liquid two-phase flow in non-Newtonian fluids in rectangularmicrochannels， ChemicalEngineering and Processing: Process Intensification，91：114-120，2015
72. XiaodaWang, Chunying Zhu, Taotao Fu*, Youguang Ma*, Bubble breakup with permanentobstruction in an asymmetric microfluidic T-junction, AIChE Journal, 2015, 61(3):1081-1091
73. Yining Wu, Taotao Fu,Youguang Maand Huai Z. Li*. Active control of ferrofluid dropletbreakup dynamics in a microfluidic T-junction, Microfluidics and Nanofluidics, 2015,18(1): 19-27
74. Chunfang Li, Chunying Zhu,Youguang Ma*, Dongzhi Liu, Xiqun Gao. Experimental study onvolumetric mass transfer coefficient of CO2absorption into MEAaqueous solution in a rectangular microchannelreactor, International Journal Heat and Mass Transfer, 2014, 78: 1055-1059
75. Yutao Lu, Taotao Fu*, Chunying Zhu,Youguang Ma*, Huaizhi Li.Pinch-offmechanismforTaylorbubbleformationinamicrofluidicflow-focusingdevice,Microfluidics and Nanofluidics, 2014; 16（6）: 1047-1055
76. Wang Guan, Wang Yongli, Zhang Jie,Luan Qinghua, Ma Youguang, Hao Hongxun*. Modeling and simulation of thermodynamicproperties of L-alanyl-L-glutamine in different solvents, Industrial and Engineering Chemistry Research,53( 8): 3385-3392, 2014
77. Wang Guan, Wang Yongli, Ma Youguang, Hao Hongxun*, Wang Huihui, Zhang jie, Concomitantcrystallization of cefuroxime acid and its acetonitrile solvate in acetonitrileand water solution，Industrial and EngineeringChemistry Research, 53（36）: 14028-14035, 2014
78. Wang Guan,Wang Yongli,Ma Youguang,Hao Hongxun*,Luan Qinghua,Wang Huihui，Determination and correlationof cefuroxime acid solubility in (acetonitrile + water) mixtures，Journal of Chemical Thermodynamics, 77(10): 144-150, 2014
79. Wang, Guan, Wang, Yongli, Hu, Xiaowei, Ma, Youguang, Hao, Hongxun, Determinationand correlation of cefoperazone solubility in different pure solvents andbinary mixture,Fluid PhaseEquilibria,361(1): 223-228, 2014
80. Jingru Liu, Chunying Zhu, Taotao Fu andYouguang Ma*, Systematic Study on the Coalescence and BreakupBehaviors of Multiple Parallel Bubbles Rising in Power-law Fluid, Industrial& Engineering Chemistry Research, 53(12): 4850-4860, 2014
81. Fu Taotao, Ma Youguang*, LiHuai Z.*, Hydrodynamic feedback on bubble breakup at a T-junction within anasymmetric loop, AIChE Journal, 60(5): 1920-1929, 2014
82. Xiaoda Wang, Chunying Zhu,Taotao Fu*, Youguang Ma*, Critical lengths for the transition of bubble breakupin microfluidic T-junctions, ChemicalEngineering Science, 111: 244-254, 2014
83. Lu Yutao, Fu Taotao*, ZhuChunying, Ma Youguang*, Li Huai Z., Scaling of the bubble formation in aflow-focusing device: role of the liquid viscosity, Chemical Engineering Science, 105: 213-219, 2014
84. Chunying Zhu, Chunfang Li, Xiqun Gao,YouguangMa*, Dongzhi Liu, Taylor flow and mass transfer of CO2chemicalabsorption into MEA aqueous solutions in microchannel, International Journal ofHeat and Mass Transfer, 73: 492-499, 2014
85. Xiaofeng Jiang; Chunying Zhu*;YouguangMa*,Volumetric and viscometric studies of amino acids in L-ascorbic acidaqueous solutions at T = (293.15 to 323.15) K, Journal of ChemicalThermodynamics, 71: 50-63, 2014
86. Yining Wu, Taotao Fu*, Chunying Zhu,YouguangMa,Huai Z. Li*, Bubble coalescence at a microfluidic T-junctionconvergence: from colliding to squeezing, Microfluidics & Nanofluidics,16(1-2): 275-286, 2014
87. Chunying Zhu, Shuang Han, Jingru Liu, andYouguang Ma*,Densities and Viscosities ofDiaminotoluene with Water, Ethanol, Propan-1-ol, Butan-1-ol from (293.15 to333.15) K, Journal of Chemical and Engineering Data, 59(3): 880-889, 2014
88. Xiaofeng Jiang , Chunying Zhu *, andYouguangMa,Densities and Viscosities of Erythritol, Xylitol, and Mannitol inl-ascorbic Acid Aqueous Solutions at T = (293.15 to 323.15) K, Journal ofChemical and Engineering Data, 58(11): 2970-2978, 2013
89. Xiaofeng Jiang , Chunying Zhu *, andYouguangMa,Density and viscosity of sorbitol / maltitol in L-ascorbic acid aqueoussolutions at T = (293.15 to323.15) K, Journal of MolecularLiquids, 188: 67-73, 2013
90. Jingru Liu, Chunying Zhu, Taotao Fu, Youguang Ma*, Huaizhi Li, Numericalsimulation of the interactions between three equal-interval parallel bubblesrising in non-Newtonian fluids, Chemical Engineering Science, 93: 55-66, 2013
91. Wu Yining, Fu Taotao,Ma Youguang,Li Huai Z*, Ferrofluid droplet formation and breakup dynamics in a microfluidicflow focusing device, Soft Matter, 9,pp 9792-9798, 2013
92. Xiaolei Li, Chunying Zhu, Youguang Ma*，Removal of SO2using ammonium bicarbonateaqueous solution as absorbent in a bubble column reactor，Frontiers of Chemical Science and Engineering，2013，7(2): 185-191，V39BE
93. Frank Xavier,CharpentierJean-Claude,Ma Youguang,Midoux No?l,Li Huai Z.A multiscaleapproach for modeling bubbles rising in non-newtonian fluids, Industrial andEngineering Chemistry Research, 51( 4):2084-2093 (2012)
94. TaotaoFu,YiningWu,YouguangMa*andHuaiZ.Li*,dropletformationandbreakupdynamicsinmicrofluidicflow-focusingdevices:fromdrippingtojetting,Chemical Engineering Science, 84（24）: 207-217（2012）
95. Yining Wu, Taotao Fu, Chunying Zhu, Yutao Lu,Youguang Ma*and Huai Z. Li，Asymmetrical breakupof bubbles at a microfluidic T-junction divergence: feedback effect of bubblecollision，Microfluidics and Nanofluidics,13(5): 723-733(2012)
96. Shuang Han, Chunying Zhu*, andYouguangMa, Densities and Viscosities of Naphthalen-1-ol, Naphthalen-2-ol and1-Aminonaphthalene in the Solvents of Ethanol, Propan-1-ol and Butan-1-ol, J.Chem. Eng. Data, 57(5): 1396-1403 (2012)
97. Shaobai Li,Youguang Ma*, Shaokun Jiang, Taotao Fu,Chunying Zhuand Huaizhi Li, The drag coefficient and shape of a single bubble rising innon-Newtonian fluids of CMC solution. Journal of Fluids Engineering-Transactionsof the ASME, 134(8): 084501, 2012.
98. Shaobai Li,Youguang Ma*,Taotao Fu, Chunying Zhu, Yang Gao, Luqing Qi, Study on themass transfer of bubble swarms in three differently rheologicalfluid, International Journal Heat andMass Transfer, 55（21-22）: 6010-6016, (2012).
99. Shaobai Li,Youguang Ma*, Chunying Zhu, Taotao Fu and HuaizhiLi, Turbulent Characteristic of Liquid around a Chain of Bubbles inNon-Newtonian Fluid, Chinese Journal of Chemical Engineering，20(5)：883—888 (2012).
100 Shaobai Li,YouguangMa, Shaokun Jiang, Taotao Fu, Chunying Zhu and Huai Z. Li，The viscositydistribution around a rising bubble in shear-thinning non-Newtonian fluids，BrazilianJournalofChemicalEngineering, 29（2）: 265-274 (2012).
101 Fu Taotao,Ma Youguang*, Funfschilling Denis, Zhu Chunying, Li Huai Z*. Breakupdynamics of slender bubbles in non-Newtonian fluids in microfluidicflow-focusing devices. AIChE. J., 58（11）: 3560-3567 (2012).
102 ZHU Chunying, FU Taotao, GAO Xiqun ,MA Youguang*,Numericalsimulation of concentration field on liquid side around bubble during risingand coalescing process in non-Newtonian fluid, Chinese Journal of Chemical Engineering, 19（5）: 799-807 (2011).
103 Fu Taotao, Funfschilling Denis,Ma Youguang*, Li Huai Z. Bubble formationin non-Newtonian fluids in a microfluidic T-junction device. ChemicalEngineering and Processing: Process Intensification, 50(4), 438-442 (2011).
104 Liu Jingru, Zhu Chunying*,Ma Youguang,Densities and viscosities of binary solutions ofbenzene-1,3-diol+water, ethanol, propan-1-ol, and butan-1-ol at T = (293.15 to333.15) K. J. Chem. Eng. Data, 56(5), 2095-2099 (2011).
105 FuTaotao, Ma Youguang, Funfschilling Denis, Li Huai Z*. Dynamics of bubblebreakup in a microfluidic T-junction divergence. Chemical Engineering Science,66(18)：4184-4195 (2011).
106 Fu Taotao,MaYouguang,Funfschilling Denis, Li Huai Z*. Gas-liquid flow stability andbubble formation in non-Newtonian fluids in microfluidic flow-focusing devices.Microfluidics and Nanofluidics, 10(5)： 1135-1140(2011).
107 Ji Xiyan,Ma Youguang*,Fu Taotao, Zhu Chunying, Wang Dongji.Experimental investigation on liquidvolumetric mass transfer coefficient for upward gas-liquid two-phase flow in rectangularmicrochannels. Brazilian Journal of Chemical Engineering, 27（4）: 573-582, (2010)
108 )Ma Youguang*,Ji Xiyan, Wang Dongji, Fu Taotao, Zhu Chunying.Measurement andcorrelation for pressure drop of gas-liquid two-phase flow in Y-junctionrectangular microchannels. Chinese Journal of Chemical Engineering, 18（6）: 940-947, (2010)
109 S.M. Lu,Y. G. Ma*, S. H. Shen and C. Y. Zhu, Experimental Research forSO2 Absorption in Bubbling Stirring Reactor, Advanced material research,113-114: 339-342(2010).
110 Jiang Shaokun,MAYouguang*, Fan Wenyuan, Yang Ke, Li Huaizhi. Chaotic behavior of in-line bubbles rising with coalescences innon-Newtonian fluids: a multiscale analysis, The Korean Journal of ChemicalEngineering, 27, (12): 1-8 (2010)
111 MaYouguang*, Fu Taotao, Zhu Chunying, Ji Xiyan, LiHuaizhi. Formation mechanism and size prediction of bubble in a co-flowingT-shaped microchannel.Transactions ofTianjinUniversity, 16(4): 251—255(2010)
112 QIAO Yan , DI Zhiguo ,MA Youguang, MA Peisheng and XIA Shuqian，Viscosities of Pure Water, Acetic Acid + Water, and p-Xylene + AceticAcid + Water at Different Temperature and Pressure, Chinese Journal of ChemicalEngineering, 18(3) 446—454 (2010)
113 Yan Qiao,Youguang Ma, Yan Huo, Peisheng Ma, Shuqian Xia, A group contribution method toestimate the densities of ionic liquids, J. Chem. Thermodynamics 42 (2010)852–855
114 Sumin LU ,YouguangMA*, Shuhua SHEN , Chunying ZHU, The effect ofhydrophobic modification of zeolites on CO2 absorption in different solvents,BrazilianJournalofChemicalEngineering, 27(2) :327-338 (2010)
115 ZhuChunying,Mayouguang*,ZhouChuanling,Densities and viscosities of sugar alcohol aqueous solutions,JournalofChemical&EngineeringData, 55 (9):3882-3885 ( 2010)
116 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)
117 Fu Taotao, FunfschillingDenis,Ma Youguang,Li Huai Z*. Scaling the formation of slug bubbles inmicrofluidic flow-focusing devices.Microfluidicsand Nanofluidics, 8, 467-475 (2010)
118 Jiang Shaokun,MAYouguang*, Fan Wenyuan, Yang Ke, Li Huaizhi, Chaotic Characteristics ofBubbles Rising with Coalescences in Pseudoplastic Fluid, Chinese Journal of Chemical Engineering, 18(1)18—26 (2010)
119 Fu Taotao,MaYouguang, 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)
120 Fan Wenyuan,MA Youguang*,Jiang Shaokun, Yang Ke, Li Huaizhi, An experimental investigation forbubble rising in non-Newtonian fluids and empirical correlation of dragcoefficient, JournalofFluidsEngineering, 132(2): 1-7 (2010)
121 FAN Wenyuan，MA Youguang*， LI Xiaolei andLI Huaizhi， Study on theFlow Field around Two Parallel Moving Bubbles and Interaction Between BubblesRising in CMC Solutions by PIV，Chinese Journal of Chemical Engineering, 17(6) 904—913 (2009)
122 SHEN Shuhua,MAYouguang*,LU Sumin， ZHU Chunying, An Unsteady Heterogeneous Mass Transfer Modelfor Gas Absorption Enhanced by Dispersed Third Phase Droplets，Chinese Journal of Chemical Engineering, 17（4）：602-607（2009）
123 Fu Taotao,MaYouguang, Funfschilling Denis, Li Huai Z*. Bubble formation and breakupmechanism in a microfluidic flow-focusing device.Chemical Engineering Science, 64, 2392-2400 (2009).
124 LU Sumin,MAYouguang*,ZHU Chunying, SHEN Shuhua, HE Qing, The influence of hydrophobic modification ofzeolites on CO2 absorption rates，Chinese J. Chem. Eng, 17(1), 36-41 (2009)
125 ZHUChunying,MAYouguang*and JI Xiyan, Diffusion coefficients of L-arginine innon-Newtonian fluid , Chinese J.Chem. Eng, 16（6）：856-860（2008）
126 LU Sumin,MA Youguang*,SHEN Shuhua and ZHU Chunying, Gas Absorption of Carbon Dioxide in Ca(OH)2Slurries，Transactions ofTianjin University, 13(6)：423-427(2007).
127 MA Youguang*, FAN Wenyuan, JIANG Shaokun, ZHU Chunying, LI Huaizhi, Modified Modelof the Bubble Formation in Non-Newtonian Fluids, Transactions of TianjinUniversity, 15（1）：50-60（2009）
128 Sumin Lu，Youguang Ma*， Shuhua Shen，Chunying Zhu， Effect of finesolid particles on absorption rate of gaseous CO2， Frontiers ofChemical Engineering in China, 2(4): 368-72, (2008)
129 LU Sumin,MAYouguang*,ZHU Chunying, SHEN Shuhua, The enhancement of CO2chemical absorption by K2CO3aqueous solution in the presence of activated carbon particles, Chinese J.Chem. Eng，15(6), 842-846( 2007)
130 Jiang Shaokun，Fan Wenyuan, ZhuChunying,Ma Youguang* and LiHuaizhi, Study on the Bubble Formation in Non-Newtonian Fluids Using a LaserImage Measurement System, Chinese J. Chem. Eng,15(4), 611-615 (2007)
131 Fan Wenyuan, JiangShaokun， Zhu Chunying,Ma Youguang*and Li Huaizhi, Study on bubble formation in non-Newtonian fluids byLaser image technique, Optics and Laser Technology, 40, (2）: 389-393 (2008)
132 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).
133 Youguang Ma, Chunying Zhu,Peisheng Ma, and K. T. Yu, Studies on diffusion coefficients of amino acids inaqueous solutions, J. Chem. Eng. Data, 50(4), 1192-1196(2005).
134 Frank X., Li H. Z., Funfschilling D., Burdin F.,andMa Youguang, Bubble motion in non-Newtonian Fluids and suspensions,Can. J. Chem. Eng., 81, 483-490(2003).
135 Ma Youguang, FengHuisheng, Xu Shichang, and Yu Guocong,The mechanism of interfacial masstransfer in gas absorption process, Chinese J. Chem.Eng., 11(2), 227-230(2003).
136 Ma Youguang, Liu Yongli,Cheng Hong, and Yu Guocong,Stuies on the influence of third component ongas-liquid mass transfer, Chinese J. Chem. Eng., 8(2), 100-102(2000).
137 Ma Youguang, Cheng Hong, and YuGuocong,measurement of concentration fields near the interface of a risingbubble by Holographic interfernece technique, Chinese J. Chem.Eng.,7(4), 363-367(1999).
138 Ma Youguang,Xu Shichang,Feng Huisheng, K.T.Yu, Effect of ultrafine particles on flow field andtransport properties near the interface around a moving bubble, Transactions ofTianjin University,10(1),1-4(2004).
139 Gao Xiqun,Ma youguang, Zhu Chunying, YuGuocong, Towards the Mechanism of Mass Transfer of a Single Bubble, Chinese J.Chem. Eng., 14(2),158-163(2006)
140 Ma Youguang, Gao Xiqun,Zhu Chunying, and Yu Guocong,The Analysis of Gas Absorption into a StationaryDroplet in Atmospheric Environment, Chinese J. Chem. Eng., 13（6），1-10(2005)

专利
1．朱春英，马友光，温宇，付涛涛，微气泡/液滴生成调控装置和方法，ZL 2015 1 **. 5，专利申请日：**（发明专利）
2．张卫江;马友光;任延，常压下单塔间歇萃取精馏方法，CN1994
3．杨长生;马沛生;马友光;樊丽华;相正乐，环己烷氧化液酸洗水硝酸催化氧化制备己二酸的方法，CN2005
4．杨长生;马沛生;马友光;金会义;樊丽华;相正乐，以环己烷氧化液酸洗水双氧水催化氧化制备己二酸的方法，CN2004
5．马沛生;杨长生;马友光;樊丽华;相正乐,环己烷氧化液酸洗水硝酸氧化制备无金属离子己二酸方法, CN2004

马友光现任职称/职务：长聘教授
通讯地址：天津市津南区海河教育园区内雅观路135号天津大学化学工程研究所52教F区301室
电子邮箱：ygma@tju.edu.cn
办公电话：**
合作交流: 与洛林大学及法国科学研究中心化学工程实验室（University of Lorraine, CNRS）建立了长期稳定的合作关系