Research Areas
A new method for speeding up drilling in large displacement wells in the ocean
Deepwater targeting extends the limits of large displacement wells
The well wall of deepwater drilling
is stable
Composite drilling parameters optimization
Research Projects
[1] New Technology of Jet Mill Drill bit and Drilling Speed Acceleration of Shale Gas Horizontal Well (2017ZX05009-003), a sub-project of the National Science and Technology Major Special Project, January 2018 to December 2020,
chaired
[2] Research on key technologies of high temperature and high pressure horizontal wells, CNOOC Zhanjiang Co., Ltd., October 2017 - June 2020, chaired
[3] Study on liquid flow state and well flow parameters of high temperature and high pressure naked eye test, CNOOC Zhanjiang Co., Ltd., January 2018 - December 2020, chair
[4] Research on optimization design and acceleration mechanism of jet mill drill bits in horizontal wells, China University of Petroleum (Beijing) Start-up Fund, October 2017 to December 2020, pi
[5] Basic Research on Efficient Development and Well Construction in Shale and Tight Oil and Gas Fields (U1762214), Key Project of the National Natural Science Foundation of China Joint Fund of Petroleum and Chemical Industry, October 2017 to December 2020, TechnicalLy Responsible
[6] Research on The Technology of Increasing Drilling Speed of Horizontal Shale Gas Wells, Jianghan Oilfield Branch of Sinopec, December 2016 to June 2018, Technical Responsibility
Publications
[1] Xuyue Chen, Deli Gao. The Maximum Allowable Well Depth While Drilling of Ultra-Extended-Reach Drilling from Shallow Water to Deepwater Target. SPE Journal. 2017, August. SPE 183025-PA, 1-13. (SCI, IF:2.208, Q1, TOP期刊).
[2] Xuyue Chen, Deli Gao, Boyun Guo. A Method for Optimizing Jet-Mill-Bit Hydraulics in Horizontal Drilling. SPE Journal. 2016, April. SPE 178436-PA, 416-422. (SCI, IF:2.208, Q1, TOP期刊).
[3] Xuyue Chen, Deli Gao, Boyun Guo, and Yongcun Feng. Real-time optimization of drilling parameters based on mechanical specific energy for rotating drilling with positive displacement motor in the hard formation, Journal of Natural Gas Science and Engineering, 2016, Sep. 35, 686-694. (SCI, IF:2.718, Q2).
[4] Xuyue Chen, Deli Gao, Boyun Guo. Optimal design of jet mill bit for jet comminuting cuttings in horizontal gas drilling hard formations, Journal of Natural Gas Science and Engineering. 2016, Sep. 28, 587-593. (SCI, IF:2.718, Q2).
[5] Xuyue Chen, Deli Gao, Boyun Guo, ea tl. A new method for determining the minimum gas injection rate required for hole cleaning in horizontal gas drilling, Journal of Natural Gas Science and Engineering, 2014, Nov. 21, 1084-1090. (SCI, IF:2.718, Q2).
[6] Xuyue Chen, Honghai Fan, Boyun Guo, Deli Gao, ea tl. Real-Time Prediction and Optimization of Drilling Performance Based on A New Mechanical Specific Energy Model, Arabian Journal for Science and Engineering. 2014, Nov. Volume 39, Issue 11, 2014, Page 8221-8231. (SCI, IF:0.865, Q3).
[7] Xin Li, Deli Gao, Xuyue Chen. A Comprehensive Prediction Model of Hydraulic Extended-Reach Limit Considering the Allowable Range of Drilling Fluid Flow Rate in Horizontal Drilling, Scientific Reports. 7(1), 3083. (SCI, IF:4.259, Q1).
[8] Xing Qin, Deli Gao, Xuyue Chen. Effects of initial curvature on coiled tubing buckling behavior and axial load transfer in a horizontal well. Journal of Petroleum Science and Engineering 150 (2017) 191-202. (SCI, IF:1.873, Q1, TOP期刊).
[9] PENG Qi, FAN Honghai, ZHOU Haobo, LI Chaowei, CHEN Xuyue, WANG Echuan, YE Zhi. General method of calculating annular laminar pressure drop of drilling fluids with different rheological models. PETROL. EXPLOR. DEVELOP., 2013, 40(6): 806-810. (SCI, IF:1.903, Q1, TOP期刊).