◎Research Interests My research direction is drilling fluid chemistry and engineering. At present, my research mainly includes the following interests: (1) Water-based drilling fluid technology (2) High temperature resistant oil-based drilling fluid technology (3) Wellbore stabilization drilling fluid technology (4) Development of new drilling fluid additives
◎Research Projects 1. “Study on Mechanism of Controlling High Temperature Stability of Water-Based Drilling Fluids by Charged Laponite Nanoparticles”---NSFC(Natural Science Foundation of China) 2. “Study on stability mechanism of water-based drilling fluid under ultra-high temperature conditions”——Shandong Natural Science Fund 3. “Research on ultra-high temperature stability mechanism and new method of water-based drilling fluid for deep drilling”——China Postdoctoral Science Foundation 4. CNPC (China National Petroleum Corporation) Innovation Fund: Study on special acrylic resin of environmentally-friendly nano plugging agent for drilling fluid with temperature resistance above 240℃, 2021.1-2022.11, project leader; 5. NSFC (Natural Science Foundation of China): Mechanism and regulation method of wellbore working fluid and natural gas hydrate reservoir, 2020.1-2024.12, project participant. 6. NSFC (Natural Science Foundation of China): Construction and spatial adaptive plugging mechanism of shear-responsive gel system in deep fractured strata. 2021.1-2024.12, project participant. 7. Shandong provincial Key research and development program: Preparation and industrialization of key materials for environmental-friendly and efficient wellbore working fluid. 2020.12-2023.12, project participant. 8. CNPC (China National Petroleum Corporation) Major science and technology program: Construction and application of environment-friendly polymer drilling fluid system with high temperature resistance, salt resistance and high density. 2019.1-2023.12, project participant. 9. CNPC (China National Petroleum Corporation) Key program: Preparation of high temperature and salt resistant environment-friendly nano plugging agent. 2018.6-2018.12, project leader. 10. CNPC Key program: Preparation of high temperature and salt resistant environment-friendly fluid loss reducer. 2019.3-2019.12, project leader. 11. CNPC (China National Petroleum Corporation) Engineering Technology Research Institute: Study on the internal law of the structure of drilling fluid agent on the environmental protection and temperature resistance. 2018.3-2019.6, project leader. 12. CNPC (China National Petroleum Corporation) Engineering Technology Research Institute: Preparation of flocculant for oil - based drilling fluid and study on removal process of harmful solid phase. 2019.6-2020.12, project leader. 13. SINOPEC (China Petroleum and Chemical Corporation) Chongqing Fuling Shale Gas Exploration and Development Co., Ltd.: Study on oil-based drilling fluid leakage prevention and plugging technology in Fuling Shale gas. 2019.1-2020.6, project leader. 14. SINOPEC (China Petroleum and Chemical Corporation) Northwest Oilfield Company: Testing standards and operation specifications of compound enhanced plugging and hydrophobic anti-collapse technology additives. 2019.1-2019.12, project leader. 15. CNPC (China National Petroleum Corporation) Xinjiang Oilfield Company: Research and application of hydrophobic anti-collapse water-based drilling fluid technology. 2020.6-2022-10, project leader.
◎Paper And Publications [1] Huang X, Sun J, Li H, et al. Fabrication of a Hydrophobic Hierarchical Surface on Shale Using Modified Nano-SiO2 for Strengthening the Wellbore Wall in Drilling Engineering[J]. Engineering, 2021. [2] Huang X, Shen H, Sun J, et al. Nanoscale laponite as a potential shale inhibitor in water-based drilling fluid for stabilization of wellbore stability and mechanism study[J]. ACS applied materials & interfaces, 2018, 10(39): 33252-33259. [3] Huang X B, Sun J S, Huang Y, et al. Laponite: a promising nanomaterial to formulate high-performance water-based drilling fluids[J]. Petroleum Science, 2021, 18(2): 579-590. [4] Huang X, Sun J, Lv K, et al. Application of core-shell structural acrylic resin/nano-SiO2 composite in water based drilling fluid to plug shale pores[J]. Journal of Natural Gas Science and Engineering, 2018, 55: 418-425. [5] Huang X, Sun J, Jin J, et al. Use of silicone quaternary ammonium salt for hydrophobic surface modification to inhibit shale hydration and mechanism study[J]. Journal of Molecular Liquids, 2021, 341: 117369. [6] Huang X, Meng X, Lv K, et al. Development of a High Temperature Resistant Nano-Plugging Agent and the Plugging Performance of Multi-Scale Micropores[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022: 128275. [7] Huang X, Lv K, Sun J, et al. Enhancement of thermal stability of drilling fluid using laponite nanoparticles under extreme temperature conditions[J]. Materials Letters, 2019, 248: 146-149. [8] Huang X, Jiang G, He Y, et al. Improvement of rheological properties of invert drilling fluids by enhancing interactions of water droplets using hydrogen bonding linker[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2016, 506: 467-475. [9] Lv K, Huang X※, Li H, et al. Modified biosurfactant cationic alkyl polyglycoside as an effective additive for inhibition of highly reactive shale[J]. Energy & Fuels, 2020, 34(2): 1680-1687. [10] Huang X, Sun J, Lv K, et al. An alternative method to enhance w/o emulsion stability using modified dimer acid and its application in oil based drilling fluids[J]. RSC advances, 2018, 8(46): 26318-26324. [11] Huang X, Jiang G, Deng Z. Oil extraction from oil-contaminated drill cuttings using a recyclable single-phase o/w microemulsion[J]. Tenside Surfactants Detergents, 2015, 52(6): 454-463. [12] Shen H, Lv K, Huang X, et al. Hydrophobic/associated polymer/based laponite nanolayered silicate composite as filtrate reducer for water/based drilling fluid at high temperature[J]. Journal of Applied Polymer Science, 2019. [13] Guancheng, J., Yourong, Q., Yuxiu, A., Xianbin, H., & Yanjun, R. (2016). Polyethyleneimine as shale inhibitor in drilling fluid. Applied Clay Science, 127, 70-77. |