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# LI Zhibao
  • Title:
    Professor
  • Subject:
    Chemical Engineering
  • Email:
    zhibaoli@ipe.ac.cn
  • Address:
    No. 1, BeiErJie, ZhongGuanCun, Haidian District, Beijing
Resume

Dr. Zhibao Li is based in Beijing, China, where he serves as a well-renowned, One Hundred Talents Program 100s’ research professor at the Chinese Academy of Sciences, Institute of Process Engineering. During the past decades, his research group published over 100 research articles in a number of prestigious chemical engineering journals. Professor Li expertise spans research and education at the convergence of chemical engineering and computer modeling on topics related to thermodynamic modeling, hydrometallurgical processing, and industrial crystallization. His research group takes the lead in applying thermodynamics models into developing precipitation-crystalline-separation techniques to solve real world problem, continuously innovating for sustainable process that is both energy-saving and cost efficient to ensure the comprehensive utilization of waste, ultimately to satisfy our country' strategic development needs.

Since the beginning of his research career, the group has been sponsored by the One Hundred Talents Program of Chinese Academy of Sciences, the 973 Program (National High-Tech R&D Program),Qinghai key scientific and technological projectJiangsu Jingshen Salt company, Qinghai science technology department, etc. Professor also provides consultancy and is currently a joint science & technology executive working in collaboration with Shandong Haihua, a leading soda ash manufacturer located in Shandong Province.

Publications

1. Wang, QX; Liu, X; Li, ZB. Unraveling a Sustainable Process for the Production of High-Strength α-Gypsum Using Soda Residues and H2SO4. Ind. Eng. Chem. Res. 2020; 59: 16516–16526.

2. Zhang, XJ; Asselin, E; Li, ZB. CaCO3 Precipitation Kinetics in the System CaCl2–CO2–Mg(OH)2–H2O for Comprehensive Utilization of Soda Production Wastes. ACS Sus. Chem. Eng. 2020:9:398-410.

3. Zhang, XJ; Zeng, Y; Li, ZB. Enhanced Hydromagnesite Process for CO2 Sequestration by Desilication of Serpentine Ore in NaOH Solution. Ind. Eng. Chem. Res. 2020; 59: 11370–11380.

4. Wang, QX.; Li, ZB. Thermodynamic modeling for the carbonate system K-HCO3-CO3 in alkanolamine solutions: An extended application for CO2 scrubbing. Chem. Eng. J. 2020; 384: 123250.

5. Wang, QX.; Li, ZB. A modified Solvay process with lowtemperature calcination of NaHCO3 using monoethanolamine: Solubility determination and thermodynamic modeling. AIChE J. 2019; 65: 1-12.

6. Zeng, XZ., Zeng Y., Li, ZB. Measurements and modeling of the phase equilibria in AlCl3 + NaCl + CaCl2 + H2O and AlCl3 + CaCl2 + NH4Cl + H2O Systems. J. Chem Eng Data. 2019; 64: 895-904.

7. Wang, QX., Li, ZB. Solubility determination and thermodynamic modeling for he system NaCl-NH4Cl-Diethanolamine-H2O. J. Chem Eng Data. 2019; 64: 895-904.

8. Ansari ZH., Zeng Y., Demopoulos G., Li, ZB. Nucleation kinetics of MgCl2–ethanol adduct for the supported Ziegler–Natta catalysts with a thermodynamic approach. J Cryst Growth. 2019; 494: 44-52.

9. Zhou J., Zeng Y., Demopoulos G., Li CX., Li, ZB. Phase Transition of FeSO4?7H2O to FeSO4?H2O in the H2SO4–HCl–H2O System by Modeling Solubility. ACS Sus. Chem. Eng. 2018;6(2):2207–2219.

10. Zhang Y, Li Z, Zeng Y, Demopoulos GP. A Green Process for Recovery of H2SO4 and Fe2O3 from FeSO4?7H2O by Modeling Phase Equilibrium of the Fe(П)-SO4-H-Cl System. AIChE J. 2017;63(10):4549-4563.

CONTACT US

  • CONTACT US 86-10-82544817
  • CONTACT US 62551257
  • CONTACT US ghb@ipe.ac.cn
  • CONTACT US Institute of Process Engineering,Chinese Academy of Sciences,1 North 2nd Street, Zhongguancun, Haidian District, Beijing 100190, PR China

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