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同学科/专业博导 同学科/专业硕导

  • 郑如意

  • 副教授

电子邮箱:

学历: 博士研究生毕业

学位: 博士

所属院系: 前沿科学技术研究院

学科: 材料科学与工程

论文

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  1. Zheng, R., Mohammed, S., Jia, Y., Hazra, R., Gadikota, G. (2025). The effect of H2 occupancy modes in small and large cages of H2–tetrahydrofuran hydrates on the hydrates’ stability and H2 storage capacity. Physical Chemistry Chemical Physics, 27, 13, 6532-6545.
  2. Lee, H., Zheng R., Huang L., Germann, T.C., Gross, M., Mehana M. (2025) Molecular insights into geochemical teactions of iron-bearing minerals: Implications for hydrogen geo-storage, ACS Sustainable Chemistry & Engineering, 13, 4548-4559.
  3. Zheng, R., Germann, T.C., Gross, M., Mehana, M. (2024). Hydrogen diffusion in slit pores: Role of temperature, pressure, confinement, and roughness. Energy & Fuels, 21, 21642-21650.
  4. Oliver M., Zheng R., Huang L. and Mehana M. (2024). Molecular insights into hydrogen diffusion in porous media: Implications for underground hydrogen storage. International Journal of Hydrogen Energy, 65, 540-547.
  5. Zheng, R., Germann, T.C., Gross, M., Mehana, M. (2024). Molecular insights into the impact of surface chemistry and pressure on quartz wettability: Resolving discrepancies for hydrogen geo-storage, ACS Sustainable Chemistry & Engineering, 12, 14, 5555–5563. 
  6. Zheng, R., Germann, T.C., Huang, L., Mehana, M. (2024). Driving mechanisms of quartz wettability alteration under in-situ h2 geo-storage conditions: Role of organic ligands and surface morphology. International Journal of Hydrogen Energy, 59, 1388-1398.
  7. Yu, S., Zheng, R., Kang Q. Mehana M. (2024). Predicted tenfold increase of hydrogen solubility in water under pore confinement. Environmental Chemistry Letters, 1-7.
  8. Zheng, R., Wang, Z., Li, X., Fan, Z., and Negahban, S. (2022). Structural and dynamic analyses of CH4- C2H6-CO2 hydrates using thermodynamic modeling and molecular dynamic simulation. Journal of Chemical Thermodynamics, 169, 106749.
  9. Zheng, R., Li, X., and Negahban, S. (2022). Molecular-level insights into the structure stability of CH4- C2H6 hydrates. Chemical Engineering Science, 247, 117039.
  10. Zheng, R., Li, X., and Negahban, S. (2022). Phase boundary of gas hydrates in single and mixed electrolyte solutions: Using a novel unified equation of state. Journal of Molecular Liquids, 345, 117825.
  11. Zheng, R., Li, S., and Cui, G. (2021). Determining the controlling mechanisms of hydrate dissociation front using optimized characteristic time. Fuel, 298, 120805.
  12. Li, S., Li, S., Zheng, R., Li, Q., and Pang, W (2021). Strategies for gas production from Class 2 hydrate accumulations by depressurization. Fuel, 286, 119380.
  13. Zheng, R., Fan, Z., Li, X., and Negahban, S. (2021). Phase boundary of CH4, CO2, and binary CH4-CO2 hydrates formed in NaCl solutions. Journal of Chemical Thermodynamics, 154, 106333.
  14. Zheng, R., Fan, Z., Li, X., and Negahban, S. (2020). Phase behavior of high-pressure CH4-CO2 gas hydrates in NaCl solutions. Fuel, 280, 118549.
  15. Zheng, R., Li, S., Li, Q., and Li, X. (2018). Study on the relations between controlling mechanisms and dissociation front of gas hydrate reservoirs. Applied Energy, 215, 405-415.
  16. Zheng, R., Li, S., and Li, X. (2018). Sensitivity analysis of hydrate dissociation front conditioned to depressurization and wellbore heating. Marine and Petroleum Geology, 91, 631-638.
  17. Zheng, R., Li, S., Zhang, M., Hao, Y., and Hou, J. (2017). Arrangement of measurement points of hydrate experiment devices based on seepage field. Oil Drilling & Production Technology, 39(1), 107- 111.
  18. Li, S., Wang, Z., Xu, X., Zheng, R., and Hou, J. (2017). Experimental study on dissociation of hydrate reservoirs with different saturations by hot brine injection. Journal of Natural Gas Science and Engineering, 46, 555-562.
  19. Li, S., Zheng, R., Xu, X., and Hou, J. (2016). Energy efficiency analysis of hydrate dissociation by thermal stimulation. Journal of Natural Gas Science and Engineering, 30, 148-155.
  20. Li, S., Zheng, R., Xu, X., and Hou, J. (2016). Natural gas hydrate dissociation by hot brine injection. Petroleum Science and Technology, 34(5), 422-428.
  21. Li, S., Xu, X., and Zheng, R., Chen, Y., and Hou, J. (2015). Experimental investigation on dissociation driving force of methane hydrate in porous media. Fuel, 160, 117-122.
  22. Li, S., Zheng, R., Xu, X., and Chen, Y. (2015). Dissociation of methane hydrate by hot brine. Petroleum Science and Technology, 33(6), 671-677.
  23. Zheng, R., Li, S., Li, Q., and Hao, Y. (2015). Using similarity theory to design natural gas hydrate experimental model. Journal of Natural Gas Science and Engineering, 22, 421-427. 
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