主要研究方向：

油气田高效开发的压裂技术研究，土壤原位修复（泡沫淋洗技术研究），以CO2泡沫（气泡）流体为介质的地质碳封存；

多相非牛顿流体流动与传热，多孔介质中多相流动；

泡沫能源材料

热能利用技术

浅层地热能用于空调制冷、制热

代表论文：

致力于能源开发与利用中的多相流动、泡沫等非牛顿流体应用基础研究、新能源开发利用等，发表期刊及会议论文50余篇，其中SCI国际期刊论文33篇，授权国家发明专利近20项，美国专利2项。

十篇代表性论文：

1. Zefeng Jing*, Chenchen Feng, Xurui Ma, Donghai Xu, Shuzhong Wang. Mechanical evolution of bubble structure and interactive migration behaviors of two particles in flowing wet foam[J]. Journal of Rheology, 2022, 66(2): 349-364.
2. Zefeng Jing*, Chenchen Feng, Xurui Ma, Mingzheng Qiao, Huaijiu Wang, Shuzhong Wang. Non-uniform heat transfer behavior of wet foam fluid in a narrow fracture channel[J]. Experimental Thermal and Fluid Science, 2022, 134: 110614.
3. Zefeng Jing*, Chenchen Feng. Influence mechanisms of several parameters on the interaction between flowing wet foam and settling particle[J]. International Journal of Multiphase Flow, 2022, 150: 104015.
4. Zefeng Jing*, Chenchen Feng. Variation of the lift force components of a settling particle caused by structural evolution of flowing foam[J]. Journal of Non-Newtonian Fluid Mechanics, 2022, 305: 104819.
5. Chenchen Feng, Zefeng Jing*, Xurui Ma, Huaijiu Wang. Effect of finite contact angle on the structure and shear behavior of two-dimensional wet foam[J]. International Journal of Multiphase Flow, 2021, 143: 103782.
6. Chenchen Feng, Huaijiu Wang, Zefeng Jing*. Investigation of heat extraction with flowing CO₂ from hot dry rock by numerical study[J]. Renewable Energy, 2021, 169: 242-253.
7. Zefeng Jing*, Huaijiu Wang, Chenchen Feng, Shuzhong Wang. Numerical study on the heat characteristics of a novel artificial seepage thermal storage based on the successive four seasons[J]. Renewable Energy, 2020, 160: 1185-1193.
8. Zefeng Jing*, Shuzhong Wang, Zhende Zhai. Effects of slip and rheological parameters on the flow and heat transfer of a Herschel–Bulkley fluid[J]. International Journal of Numerical Methods for Heat & Fluid Flow, 2017, 27(4): 981-999.
9. Zefeng Jing*, Shuzhong Wang*, Zhiguo Wang. Detailed structural and mechanical response of wet foam to the settling particle[J]. Langmuir, 2016, 32(10): 2419–2427.
10. Zefeng Jing*, Shuzhong Wang*, Mingming Lv, Zhiguo Wang, Xiangrong Luo. The effect of plastic rearrangements on the flow of two-dimensional wet foam[J]. Soft Matter, 2015, 11(15): 2973-2982.

近年发表期刊论文：

1. Jing Z, Feng C, Ma X, et al（2022）. Non-uniform heat transfer behavior of wet foam fluid in a narrow fracture channel[J]. Experimental Thermal and Fluid Science, 134: 110614.

2. Jing, Z., & Feng, C. (2022). Variation of the lift force components of a settling particle caused by structural evolution of flowing foam[J]. Journal of Non-Newtonian Fluid Mechanics, 305, 104819.

3. Guo, S., Xu, D., Jiang, G., Guo, Y., & Jing, Z. (2022). Sulfate corrosion and phosphate passivation of Ni-based alloy in supercritical water. The Journal of Supercritical Fluids, 184, 105564.

4. Jing, Z., & Feng, C. (2022). Influence mechanisms of several parameters on the interaction between flowing wet foam and settling particle. International Journal of Multiphase Flow, 150, 104015.

5. Jing, Z., Feng, C., Ma, X., Xu, D., & Wang, S. (2022). Mechanical evolution of bubble structure and interactive migration behaviors of two particles in flowing wet foam. Journal of Rheology, 66(2), 349-364.

6. Feng, C., Ma, X., & Jing, Z. (2022). Dynamic proppant-carrying performance of VES-CO2 foam fracturing fluid in the pipeline and the fracture. Journal of Petroleum Science and Engineering, 210, 110034.

7. Guo, S., Xu, D., Jiang, G., Jing, Z., Wang, S., & Lv, H. (2021). High-temperature corrosion of Fe-Ni-based alloy HR6W, Ni-based alloys Haynes 282 and Inconel 740 in supercritical water at 450° C and 25 MPa. Journal of Alloys and Compounds, 878, 160350.

8. Feng, C., Jing, Z., Ma, X., & Wang, H. (2021). Effect of finite contact angle on the structure and shear behavior of two-dimensional wet foam. International Journal of Multiphase Flow, 143, 103782.

9. Jing, Z., Feng, C., Cox, S., & Hutzler, S. (2021). Variation of average coordination number with liquid fraction for two-dimensional foams with finite contact angle. Philosophical Magazine, 101(9), 1048-1060.

10. Feng, C., Wang, H., & Jing, Z. (2021). Investigation of heat extraction with flowing CO2 from hot dry rock by numerical study. Renewable Energy, 169, 242-253.

11. Hao, B., Xu, D., Jiang, G., Sabri, T. A., Jing, Z., & Guo, Y. (2021). Chemical reactions in the hydrothermal liquefaction of biomass and in the catalytic hydrogenation upgrading of biocrude. Green Chemistry, 23(4), 1562-1583.

12. Jing, Z., Wang, H., Feng, C., & Wang, S. (2020). Numerical study on the heat characteristics of a novel artificial seepage thermal storage based on the successive four seasons. Renewable Energy, 160, 1185-1193.

13. Xu, D., Liu, L., He, Z., Yang, J., Wu, Z., & Jing, Z. (2019). Hydrothermal upgrading of water-insoluble algal biocrude over γ-Al2O3 supported multi-metallic catalysts. Journal of Analytical and Applied Pyrolysis, 140, 188-194.

14. Jing, Z., Feng, C., Wang, S., & Xu, D. (2019). Effects of temperature and pressure on rheology and heat transfer among bubbles in waterless CO2-based foam fracturing fluid. Journal of Natural Gas Science and Engineering, 63, 18-26.

15. Ma, L., Wang, S., Zhao, J., Zhang, X., Zhang, Z., Jing, Z., & Meng, H. (2019). Numerical simulation of liquid slag flow in liquid slag storage device from energy saving of steel industry. Energy Procedia, 158, 4735-4740.

16. Zhang, X., Wang, S., Zhao, J., Ma, L., Yu, P., Wu, Z., & Jing, Z. (2019). Energy saving from furnace slag: An analysis of free-surface film flow characteristics of liquid slag on the rotary cup. Energy Procedia, 158, 4747-4752.

17. Xu, D., Lin, G., Guo, S., Wang, S., Guo, Y., & Jing, Z. (2018). Catalytic hydrothermal liquefaction of algae and upgrading of biocrude: A critical review. Renewable and Sustainable Energy Reviews, 97, 103-118.

18. Ma, Z., Xu, D., Guo, S., Wang, Y., Wang, S., Jing, Z., & Guo, Y. (2018). Corrosion properties and mechanisms of austenitic stainless steels and Ni-base alloys in supercritical water containing phosphate, sulfate, chloride and oxygen. Oxidation of Metals, 90(5), 599-616.

19. Jing, Z., Feng, C., Wang, S., & Xu, D. (2018). Stress and bubble pressure response of wet foam to continuous and oscillatory sinusoidal shear. The European Physical Journal E, 41(12), 1-11.

20. Xu, D., Lin, G., Liu, L., Wang, Y., Jing, Z., & Wang, S. (2018). Comprehensive evaluation on product characteristics of fast hydrothermal liquefaction of sewage sludge at different temperatures. Energy, 159, 686-695.

21. He, Z., Xu, D., Liu, L., Wang, Y., Wang, S., Guo, Y., & Jing, Z. (2018). Product characterization of multi-temperature steps of hydrothermal liquefaction of Chlorella microalgae. Algal research, 33, 8-15.

22. Xu, D., Guo, S., Liu, L., Hua, H., Guo, Y., Wang, S., & Jing, Z. (2018). Ni-Ru/CeO2 catalytic hydrothermal upgrading of water-insoluble biocrude from algae hydrothermal liquefaction. BioMed Research International, 2018.

23. Jing, Z., Feng, C., Wang, S., & Xu, D. (2018). Origin of accelerated and hindered sedimentation of two particles in wet foam. The European Physical Journal E, 41(3), 1-10.

24. He, Z., Xu, D., Wang, S., Zhang, H., & Jing, Z. (2018). Catalytic upgrading of water-soluble biocrude from hydrothermal liquefaction of chlorella. Energy & Fuels, 32(2), 1893-1899.

25. Xu, D., Guo, S., He, Z., Huang, C., Jing, Z., & Wang, S. (2018). Simulation of a transpiring wall reactor for supercritical water oxidation: characteristics of water film. Industrial & Engineering Chemistry Research, 57(4), 1307-1318.

26. Jing, Z., Feng, C., Wang, S., Xu, D., & Xu, G. (2017). Effect of foam quality on flow behavior of liquid CO2-based foam fracturing fluid stabilized by hydrofluoroether. Journal of Petroleum Science and Engineering, 159, 710-716.

27. Jing, Z., Wang, S., & Zhai, Z. (2017). Effects of slip and rheological parameters on the flow and heat transfer of a Herschel-Bulkley fluid. International Journal of Numerical Methods for Heat & Fluid Flow，27(4): 981-999

28. Lv, M., Wang, S., Zhai, Z., Luo, X., & Jing, Z. (2016). Comparative investigation of the static and dynamic properties of CO2 foam and N2 foam. The Canadian Journal of Chemical Engineering, 94(7), 1313-1321.

29. Jing, Z., Wang, S., & Wang, Z. (2016). Detailed structural and mechanical response of wet foam to the settling particle. Langmuir, 32(10), 2419-2427.

30. Wang, Z., Wang, S., Jing, Z., & Luo, X. (2016). Viscoelastic drag of particles settling in wormlike micellar solutions of varying surfactant concentration. Journal of Dispersion Science and Technology, 37(3), 442-449.

31. Luo, X., Wang, S., Wang, Z., Jing, Z., Lv, M., Zhai, Z., & Han, T. (2015). Adsorption of methane, carbon dioxide and their binary mixtures on Jurassic shale from the Qaidam Basin in China. International Journal of Coal Geology, 150, 210-223.

32. Luo, X., Wang, S., Wang, Z., Jing, Z., Lv, M., Zhai, Z., & Han, T. (2015). Experimental investigation on rheological properties and friction performance of thickened CO2 fracturing fluid. Journal of Petroleum Science and Engineering, 133, 410-420.

33. Jing, Z., Wang, S., Lv, M., Wang, Z., & Luo, X. (2015). Flow behavior of two-dimensional wet foam: Effect of foam quality. Journal of Fluids Engineering-Transactions of the ASME, 137(4).

34. Jing, Z., Wang, S., Lv, M., Wang, Z., & Luo, X. (2015). The effect of plastic rearrangements on the flow of two-dimensional wet foam. Soft Matter, 11(15), 2973-2982.

35. Luo, X., Wang, S., Wang, Z., Jing, Z., & Lv, M. (2014). Experimental research on rheological properties and proppant transport performance of GRF–CO2 fracturing fluid. Journal of Petroleum Science and Engineering, 120, 154-162.

36. 王治国, 王树众*, 孙晓, 景泽锋, 吴金桥, 何静. OTAC/NaSal虫状胶束流体微观结构与线性黏弹性[J]. 力学学报. 2013, 06: 854-859.