Peking University (China)    Fluid Mechanics    Ph.D 2013

University of Science and Technology Beijing    Ecology    B.Sc. 2008

Studies are conducted based on the theory of magnetic fluids and their applications, mainly involving the flow and heat transfer mechanisms of magnetic fluids, the thermal storage of magnetic fluids, the magnetic fluids seal and the theory of their seal failure, magnetic fluids rotating seal, magnetorheological fluids and their applications, etc. Our Research interests include but are not limited to magnetic fluids, magnetorheological fluids, porous medium, Lattice Boltzmann methods, thermal storage, heat and mass transfer, enhanced oil recovery, polymer flooding, etc.

Publications:

[1] Licong Jin, Decai Li* and Xinrong Zhang*, Experimental investigation of a new thermal energy storage system using thermo-sensitive magnetic fluid and porous medium, International Journal of Energy research, 2019, 1-16.

[2] Licong Jin, Lei Tao and Decai Li*, Injection fall-off analysis and interpretation of horizontal wells in polymer flooding, Journal of Petroleum Science and Engineering, 2019, 182:1-17, 106331.

[3] Bili Deng, Lin Chen, Xinrong Zhang and Licong Jin*, The Flow Transition Characteristics of Supercritical CO2 Based Closed Natural Circulation Loop (NCL) System, Annals of Nuclear Energy, 2019, 132:134-148.

[4] Licong Jin, Decai Li* and Xinrong Zhang*, Mathematical modeling and numerical simulation of a new thermal energy storage system using thermo-sensitive magnetic fluid in porous medium, Energy storage, DOI:10.1002/est2.34.

[5] Licong Jin and X. R. Zhang*, Analysis of temperature-sensitive magnetic fluids in a porous square cavity depending on different porosity and Darcy number, Applied Thermal Engineering, 2013. 50: 1-11.

[6] Licong Jin, X. R. Zhang* and X. D. Niu, Lattice Boltzmann simulation for temperature-sensitive magnetic fluids in a porous square cavity, Journal of Magnetism and Magnetic Materials, 2011. 324: 44-51.

[7] X. R. Zhang and L. C. Jin*, Lattice Boltzmann simulation for magnetic fluids in porous medium, Physics Procedia, 2010. 9: 162-166.

[8] Yang Hu, Decai Li and Licong Jin, Hybrid Allen-Cahn-based lattice Boltzmann model for incompressible two-phase flows: The reduction of numerical dispersion, Physical Review E 99, 023302 (2019).

[9] Xi Chen, Licong Jin and Xinrong Zhang, Slip Flow and Heat Transfer of Magnetic Fluids in Micro Porous Media Using a Lattice Boltzmann Method., Open Access Library Journal.

[10] Licong Jin, Decai Li *and Xinrong Zhang, Experimental investigation of a thermal energy storage system using thermo-sensitive magnetic fluid and porous carbon，the 1st World Energy Storage Conference, WESC-2019, China.

[11] Licong Jin*, Carl Fredick Berg and Thomas Ramstand, Image analysis of micro-CT core flooding experiments, 2016 EAGE-SCA International Symposium on Digital Rock Physics and Application, China.

[12] L. C. Jin and X. R. Zhang, Natural convection analysis of temperature-sensitive magnetic  fluids in a porous square cavity, 2011 International Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control, China.

[13] X. R. Zhang and L. C. Jin, Lattice Boltzmann simulation for magnetic fluids in porous medium. 2010 12th International Conference on Magnetic Fluids, Japan.

Patents：

1. A thermal storage system based on magnetic fluids and porous carbon, China, 2018116022653.

2. A thermal storage system based on magnetic fluids and porous carbon, China, 2018116041601.

3. A testing device for ultra-thin nanocrystalline strip, 201920403529.6.

4. A thermal storage system based on magnetic fluids and porous medium, CN101943534A.

The third prize of Science and Technology Awards in Shaoxing