Gao Jubao

【Professional Title】: Associate Professor
【Department】: Department of Thermal Science and Energy Engineering
【Office】: 913 Jidian Building
【Tel】: +86 10 62332730
【Email】: b2132346@ustb.edu.cn
【Research Field】: Pollution control technology for flue gas from coal fired plant
CO2 capture and conversion technology
Solar energy and hydrogen energy utilization technology
Energy storage and conversion technology

Education & Working Experience

Education:

1999-2003，Tai Yuan University of Technology, Department of Thermal Engineering, B.S.

2003-2006，Xi’an Jiaotong University, Department of Thermal Engineering, M.S.

2008-2012，Tsinghua University, Department of Thermal Engineering, Ph.D.

Working Experience:

2006-2008，Engineer in Yantai Longyuan Power Technology CO.,LTD of China Guodian Corporation.

2012-2015，Institute of Process Engineering, Chinese Academy of Sciences, Assistant Professor.

2015-2018，Institute of Process Engineering, Chinese Academy of Sciences, Associate Professor.

2018-2021，Kyushu University, Department of Chemical engineering, Research Fellow.

2021-present, University of Science and Technology Beijing, Department of Thermal Science and Energy Engineering, Associate Professor.

Research projects

1. High-performance absorbent/adsorbent materials and technologies for CO2 capture, (Grant No. 2017YFB060200), supported by the National Key R&D Program of China Foundation; 2017.06 – 2018.03.

2. Study on key technologies of new ways to control and utilize coal conversion wastewater in the whole process，(Grant No.2016YFB0600505)，supported by the National Key R&D Program of China Foundation;2016.06 – 2018.03.

3. Two-phase flow and mass transfer during carbon capture in ionic liquid systems, (Grant No.51306194)，supported by National Natural Science Foundation of China; 2014.01-2016.12.

4. Research and demonstration on desulfurization and mercury removal of organic amines in flue gas of coal-fired power stations, (Grant No. 2013AA06540201), supported by the National Key R&D Program of China Foundation; 2013.01-2015.12，

5. The formation mechanism and regulation of mesoscale structure/interface of ionic liquids, (Grant No. 91434203), supported by National Natural Science Foundation of China; 2015.01-2018.12.

6. Design and control mechanism of functional ionic liquid membrane materials for CO2 separation, (Grant No. 21506219), supported by National Natural Science Foundation of China; 2016/01-2018/12.

7. Low temperature desorption polymer gel materials and technology development for CO2 capture, supported by JST-ALCA，2018/04-2021/01.

Academic Achievements

Main journal publications：

J.B Gao, Z.J Zhao, B.Wu, Y.S Zhao, Photo-triggered CO2 release from Mussel-inspired Polymers, Chem. Eng. J., 2021, 418 : 129382. ( SCI一区， IF: 10.65)

J.B Gao, Y. Liu, Y. Terayama, K. Katafuchi, Y. Hoshino, G. Inoue, Polyamine nanogel particles spray-coated on carbon paper for efficient CO2 capture in a milli-channel reactor, Chem. Eng. J., 2020, 401: 126059. ( SCI一区， IF: 10.65)

J.B Gao, Y. Hoshino, G. Inoue, Honeycomb-carbon-fiber-supported amine-containing nanogel particles for CO2 capture using a rotating column TVSA, Chem. Eng. J., 2020, 383: 123123. ( SCI一区， IF: 10.65)

J.B Gao, Y. Liu, Y. Hoshino, G. Inoue, Amine-containing nanogel particles supported on porous carriers for enhanced carbon dioxide capture, Appl. Energy, 2019, 253: 113567. (SCI一区， IF: 8.848)

J.B Gao, L Cao, H Dong, X.P Zhang, Ionic liquids tailored amine aqueous solution for pre-combustion CO2 capture: Role of imidazolium-based ionic liquids. Appl. Energy, 2015,154:771-780. (SCI一区， IF: 8.848)

J.B Gao, S Wang, J Wang, Effect of SO2 on the amine-based CO2 capture solvent and improvement using ion exchange resins. International Journal of Greenhouse Gas Control. 2015,37:38-45.

J.B Gao, Y Xu, X Zhang, X Zhang, Solubility measurement and process simulation of CO2/CH4 gas mixtures using ionic liquids. Computer Aided Chemical Engineering. 2015, 37: 2525-2530.

J.B Gao, S.J Wang, C.C Sun, B Zhao, C.H Chen, Corrosion Behavior of Carbon Steel at Typical Positions of an Amine-based CO2 Capture Pilot Plant. Ind. Eng. Chem. Res. 2012, 51: 6714-6721.

J.B Gao, S.J Wang, B Zhao, G.J Qi, C.H Chen. Pilot-scale experimental study on the CO2 capture process with existing of SO2: degradation, reaction rate and mass transfer. Energy &Fuels. 2011,25:5802-5809.

J.B Gao, S.J Wang, S Zhou, B Zhao, C.H Chen, X.C Xu, Experimental Study on the Influence of SO2 to the CO2 Capture Process. Proceedings of the CSEE, 2011, 31:52-57.

J.B Gao, S.J Wang, B Zhao, S Zhou, C.H Chen, Experimental study and numerical simulation on CO2 capture from flue gas using amine-based absorbent in coal-fired power plant. Journal of Engineering Thermophysics, 2011, 32:1421-1424. Conference on coal combustion in China. (oral presentation)

J.B Gao, S.J Wang, B Zhao, C.H Chen, Absorber corrosion performance for CO2 capture using an amine absorbant in a coal-fired power plant. J Tsinghua Univ (Sci ＆ Tech), 2011,51:657-661.

J.B Gao, S.J Wang; S Zhou, B Zhao, C.H Chen. Corrosion and degradation performance of novel absorbent for CO2 capture in pilot-scale. Energy procedia., 2011, 4:1534-1541. 10th International Conference on Greenhouse Gas Control Technologies. (oral presentation)

L.D Cao, J.B Gao, X Zhang, Feasible ionic liquid-amine hybrid solvents for carbon dioxide capture. International Journal of Greenhouse Gas Control, 2017,66:120-128.

G.F Deng, Z.H Li, Z.C Wang, J.B Gao, Z.W Xu, J.D Li, Z.Y Wang, Indoor/outdoor relationship of PM2.5 concentration in typical buildings with and without air cleaning in Beijing. INDOOR AND BUILT ENVIRONMENT, 2017, 26:60-68.

Y Zhao, J.B Gao, X Zhang, Predicting the H2S solubility in ionic liquids by the quantitative structure−property relationship method using Sσ-profile molecular descriptors. RSC Advances, 2016, 74（6）: 70405-70413.

Z.J Zhao, H.F Dong , Y Huang, L.D Cao, J.B Gao, Ionic degradation inhibitors and kinetic models for CO2 capture with aqueous monoethanolamine. International Journal of Greenhouse Gas Control. 2015,39:119-128.

L.D Cao, J.H Huang, X.P Zhang, S.J Zhang, J.B Gao, Imidazole tailored deep eutectic solvents for CO2 capture enhanced by hydrogen bonds. PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 2015, 17(41):27306-27316.

L.D Cao, J.H Huang, X.P Zhang, S.J Zhang, J.B Gao, Highly efficient carbon dioxide capture by a novel amine solvent containing multiple amino groups. JOURNAL OF CHEMICAL TECHNOLOGY AND BIOTECHNOLOGY.2015,10(90):1918-1926.

B Zhao, Y.K Sun, Y Yuan, J.B Gao, S.J Wang, Y.Q Zhuo, C.H Chen. Study on Corrosion in CO2 Chemical Absorption Process Using Amine Solution. Energy procedia., 2011,4:93-100.

J.B, Gao, Y Hoshino, G Inoue. Enhanced CO2 capture by supported nanogel particles on porous carriers. IEAGHG 5th Post Combustion Capture Conference.17th -19th September 2019, Kyoto, Japan.

Patents

The utility model relates to a coal-fired pulverizing device for a power plant pulverized coal boiler (CN201218515Y).

A method for inhibiting the degradation of decarbonized amine absorbent （CN103007687A）.

A new absorbent for capturing and separating carbon dioxide （CN102974203A）.