Prof. Zongjie Mu | Drilling Engineering | Drilling Engineering
Professor, China University of Petroleum-Beijing at Karamy, China
Zongjie Mu is an Associate Professor at the China University of Petroleum-Beijing at Karamay, specializing in Petroleum Engineering. He has a prolific career marked by numerous publications, patents, and prestigious awards. His research primarily focuses on advanced drilling technologies and unconventional oil and gas stimulation. 🚀⛽
Profile
Education
Zongjie Mu is expected to graduate with a Doctor of Engineering Science in Petroleum Engineering from China University of Petroleum-Beijing at Karamay in June 2023. 🎓📚
Experience
As an Associate Professor, Zongjie Mu teaches various courses, including Drilling Engineering, Well Completion Engineering, and Introduction to Petroleum Engineering. He has been recognized for his excellence in research and teaching with multiple awards and honors. 👨🏫🏆
Research Interests
His research interests include the theory and application of advanced drilling technology in deep and ultra-deep wells, unconventional oil and gas stimulation, and the development and application of downhole tools in drilling, completion, and mechanical oil recovery. 🔬🌍
Awards
Zongjie Mu has received numerous awards, including:
- “Best Researcher Award” for International Research Awards on Mechanics of Functional Materials and Structures
- “Tianshan Talents” of Xinjiang Uygur Autonomous Region, China
- “Young Top-notch Talents in Science and Technology Innovation” in Xinjiang Uygur Autonomous Region, China
- “Top-notch Talents” in Karamay, Xinjiang Uygur Autonomous Region, China
- “The Most Beautiful Scientist” in Karamay, Xinjiang Uygur Autonomous Region, China
- “The Excellent Head Teacher” at China University of Petroleum-Beijing at Karamay
- “The Model Worker” at China University of Petroleum in Beijing 🌟🏅
Publications Top Notes
- An investigation into the ROP enhancing technology of axial-torsional coupled percussive drilling aided by pulsed water jet (2022). The 13th Pacific Rim International Conference (PRIC2022). Cited by: 5.
- Experimental study on dynamic characteristics of axial-torsional coupled percussive drilling (2022). Journal of Petroleum Science and Engineering. Cited by: 10.
- Mechanism research and field test of a novel axial vibratory tool for friction reduction in long horizontal wells (2021). Journal of Petroleum Science and Engineering, 208. Cited by: 8.
- Research and Field Application of the Axial-Torsional Coupled Percussion Drilling Technology (2020). Journal of Energy Resources Technology, Transactions of the ASME, 142(3). Cited by: 12.
- Development and field test of vibration drag reduction tool (in Chinese) (2021). China Petroleum Machinery, 49(12). Cited by: 4.
- Discussion of key technology on casing centralizer of horizontal well (in Chinese) (2021). Fault-block Oil & Gas Field, 27(05). Cited by: 7.
- Status and development trend of vibration-impact ROP improvement technologies (in Chinese) (2020). Oil Drilling & Production Technology, 42(3). Cited by: 6.
- Research on Axial-torsional Coupling Percussion Drilling Technology (in Chinese) (2018). China Petroleum Machinery, 46(10). Cited by: 9.
- The use of numerical simulation to investigate the enhanced Eagle Ford shale gas condensate well recovery using cyclic CO2 injection method with nano-pore effect (2018). Fuel, 233. Cited by: 15.
- Development and application of pin type hydraulic oscillator (in Chinese) (2021). China Petroleum Machinery, 49(11). Cited by: 3.
- Research on the technology of scraping while drilling (in Chinese) (2020). Oil Field Equipment, 49(01). Cited by: 5.