»Research Interests
Chemical engineering of oil and gas well including: theory and technology of borehole stability, high temperature deep well drilling fluid, reservoir protection and reforming, unconventional oil and gas exploration drilling fluid, offshore deep water drilling fluid, oil base drilling fluid, resource utilization technology of waste drilling fluid, treatment agent development and so on.
»Courses Offered
Oilfield Chemistry, Modern Drilling Fluid Technology, Reservoir Protection, Drilling Fluid Technology Principle, Oil and Gas Field Environment Protection, Introduction To Petroleum Industry
»Research Projects
Engaged in scientific research projects a total of more than 50, including 13 national level project and 18 provincial and ministerial level projects. Some of them are as follows:
1. ��Study on chemical and physical approach to controlling flat rheology of offshore deep-water water-based drilling fluid�� ��National Science Foundation.
2. ��Optimization method of deep water oil and gas well completion and testing�� ��973 Project.
3. ��Research on high temperature drilling fluid technology in ultra-deep well�� ��863 Project.
4. ��Study on the control technology of ultra-high density drilling fluid and high temperature and high density�� ��863 Project.
5. ��Study on new technology of drilling and completion fluid under complicated geological conditions of deep well�� ��National key project.
6. ��Study on drilling fluid system of thick salt formation in overseas typical Oilfield�� ��National key project.
7. ��Study on stability control of well wall and technology of reservoir reconstruction in complex stratum�� ��National key project.
8. ��The research on mechanism and new methods of wellbore stability in shallow formation and hydrate inhibition for deep water drilling�� ��National Science Foundation.
9. ��Study on mechanism and method of shale gas reservoir protection�� ��National Science Foundation.
10. ��Study on physical approach to controlling flat rheology of offshore deep-water water-based drilling fluid�� ��Provincial Natural Science Foundation.
11. ��Regulation effect and its action mechanism of high frequency AC electric field on rheology of water-base drilling fluid�� ��innovation project of the education department.
12. ��Research on deep water drilling fluid technology�� ��863 Project.
13. ��Study on hydration stress model and experimental method of borehole wall shale�� ��Provincial Natural Science Foundation.
14. ��Well completion fluid system optimization and experimental study of Maysan oilfield reservoir protection drilling�� ��Industrial Projects.
15. ��Pre evaluation research of Bo Zi reservoir protection�� ��Industrial Projects
»Paper and Publications
Published papers have been more than 90, including 41 articles embodied by SCI, EI and ISTP. Some of them are as follows:
1. ��Colloidal Properties and Clay Inhibition of Sodium Silicate in Solution and Montmorillonite Suspension��, Silicon, 2016(8): 111�C122.
2. ��Bentonite free water based drilling fluid with high temperature tolerance (200 ��) for protecting deep reservoir��, Chemistry and Technology of Fuels and Oils, 2015(6):6-10.
3. ��Damage mechanism and protection measures of a coalbed methane reservoir in the Zhengzhuang block��, Journal of Natural Gas Science and Engineering, 2015(26): 683-694.
4. ��Synthesis, characterization and evaluation of a quadripolymer with low molecular weight as a water based drilling fluid viscosity reducer at high temperature (245 ∘C)��, Polym. Int, 2015( 64): 1352-1360.
5. ��Development and evaluation of an electropositive wellbore stabilizer with flexible adaptability for drilling strongly hydratable shales��, Pet. Sci., 2015(12): 458-469.
6. ��Colloid Particles Adsorption and Interfacial Assembly at the Fluids Interface��, PROGRESS IN CHEMISTRY, 2007(2): 211-218.
7. ��Synthesis and characterization of strong hydrophobic bentonite��, Materials Research Innovations, 2015(6): 427-433.
8. ��Design and application of removable plugging slurry��, Open petroleum engineering journal, 2015(8): 469-481.
9. ��Damage mechanism and water based drilling fluid protection technology for shale gas reservoir��, Journal of China University of Petroleum, 2014(3): 99-105.
10. ��Development and Evaluation of Anti Ultra-high Temperature and Salt Tolerant Polymeric Filtrate Loss Reducer ��, Oilfield Chemistry, 2012(2): 133-137.
11. ��Study on damage mechanism and protection drilling fluid for coalbed methane��, JOURNAL OF CHINA COAL SOCIETY, 2012(10): 1717-1721.
12. ��Experimental study on sidewall instability mechanism of oil wells in the western Tuha Oilfield��, ACTA PETROL EI SINICA, 2007(2): 16-120.
13. ��Development of modified polyalcohol anti sloughing agent and its anti2sloughing mechanisms��, ��Journal of China University of Petroleum, 2006(6): 51-54.
14. ��Damage Mechanism of Fractured Carbonate Buried-Hill Reservoir and Protective Drilling Fluid��. Electronic Journal of Geotechnical Engineering, 14(10): 6897-6910.
15. ��Inhibition Comparison Between Polyether Diamine and Formate Salts as Shale Inhibitor in Water based Drilling Fluid��. Energy Sources, 2015(9): 197191978.
16. ��Poly(oxypropylene)-amidoamine modified bentonite as potential shale inhibitor in water-based drilling fluids��, Applied Clay Science, 2012, 67-68: 36-43.
17.��Inhibition Comparison between Polyether Diamine and Quaternary Ammonium Salt as Shale Inhibitor in Water-based Drilling Fluid��, Energy Sources, 2012, 35: 218-225.
18.��Shale inhibitive properties of polyether diamine in water-based drilling fluid��, Journal of Petroleum Science and Engineering, 2011, 78: 510-515.
19. ��A novel aluminum-based shale stabilizer��, Petroleum Science and Technology, 2012: 1-16.��
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