研究领域

海洋钻井力学与提速方法

钻井提速

大位移井延伸能力预测与控制

智能钻井

科研项目

1. 国家自然科学基金面上项目，深部凸型阶梯井底岩石破碎力学与内凹型单牙轮-PDC复合钻头提速机理研究，负责
2. 国家自然科学基金青年基金，水平井射流磨钻头粉碎钻屑与提高钻速的机理研究，负责
3. 国家科技重大专项，复杂结构井、丛式井设计与控制新技术，子课题负责
4. 工信部国家高技术船舶项目，极地冷海大位移井及表层建井技术研究，子课题负责
5. 国家自然科学基金创新研究群体项目，复杂油气井钻井与完井基础研究，骨干
6. 国家自然科学基金重大项目，深海多金属结核高效采输系统设计基础理论研究，骨干
7. 中海油技术攻关项目，高温高压水平井关键技术研究，负责
8. 中海油技术攻关项目，陆丰古近系油田井壁稳定性及综合提速研究，负责
9. 中海油技术攻关项目，渤海浅层大位移井延伸极限研究，技术负责
10. 中海油技术攻关项目，疏松地层超大位移井安全提效工艺配套技术研究，技术负责

代表性研究成果

1. 中国海洋工程咨询协会, 科学技术二等奖, 排名1（1/9）, 2023.
2. 中国石油和化学工业联合会, 科技进步二等奖, 排名1（1/10）, 2022.
3. 山东省人民政府, 技术发明一等奖, 排名9（9/15）, 2024.
4. 上海市人民政府, 科学技术二等奖, 排名5（5/10）, 2020.
5. 上海市人民政府, 科学技术二等奖, 排名9（9/10）, 2024.
6. 中国海洋工程咨询协会, 科学技术特等奖, 排名12（12/20）, 2019.
7. 中国石油和化学工业联合会, 科技进步二等奖, 排名6（6/10）, 2019.

专利

1. 陈绪跃, 杨奇奇, 杨进, 高德利, 等. 内凹型PDC钻头. ZL202310004617.X.
2. 陈绪跃, 高德利, 杨进. 内排屑射流降压钻头. ZL201710732940.3.
3. 陈绪跃, 高德利, 杨进. 内排屑脉冲射流降压钻头. ZL201710732982.7.
4. 陈绪跃, 高德利, 杨进. 内排屑射流降压钻柱短节. ZL201710732938.6.
5. 陈绪跃, 高德利, 杨进. 内排屑脉冲射流降压钻柱短节. ZL201710732981.2.
6. 陈绪跃, 杨乃通, 杨进, 高德利等. PDC与单牙轮复合的内排屑钻头. ZL202010692025.8.
7. 陈绪跃, 金铭, 杨进, 高德利, 等. 推进补偿节及钻井设备. ZL 202411777821.6.
8. 陈绪跃, 杨进, 高德利, 等. 深水天然气水合物开采系统和深水天然气水合物开采方法. ZL201910281223.2.
9. 陈绪跃, 杨进, 高德利, 等. 深水天然气水合物注采系统和深水天然气水合物注采方法. ZL201910281208.8.
10. 高德利, 陈绪跃, 郭柏云, 等. 水平井安全高效泥浆钻井射流磨钻头. ZL201310654747.4.
11. 高德利, 陈绪跃, 郭柏云, 等. 水平井安全高效气体钻井射流磨钻头. ZL201310654718.8.
12. 高德利, 陈绪跃, 郭柏云, 等. 一种双壁钻杆反循环钻井射流泵钻头. ZL201410605681.4.

Publications

1. Xuyue Chen, Jin Yang, Deli Gao, et al. Unlocking the deepwater natural gas hydrate’s commercial potential with extended reach wells from shallow water: Review and an innovative method. Renewable and Sustainable Energy Reviews, 2020, 134: 110388. (SCI，中科院大类一区，IF=16.3)
2. Xuyue Chen, Xu Du, Jin Yang, Deli Gao, et al. Developing offshore natural gas hydrate from existing oil & gas platform based on a novel multilateral wells system: Depressurization combined with thermal flooding by utilizing geothermal heat from existing oil & gas wellbore. Energy, 2022, 258: 124870. (SCI，中科院大类一区，IF=9.4)
3. Xuyue Chen, Tong Cao, Kaian Yu, Deli Gao, ea tl. Numerical and experimental investigation on the depressurization capacity of a new type of depressure-dominated jet mill bit. Petroleum Science, 2020, 17(6):1602-1615. (SCI，中科院大类一区，IF=6.1)
4. Tong Cao, Xuyue Chen, Kaian Yu, et al. Hydraulic modeling and optimization of jet mill bit considering the characteristics of depressurization and cuttings cleaning. Petroleum Science, 2023, 20(5): 3085-3099. (SCI，中科院大类一区，IF=6.1)
5. Xuyue Chen, Chengkai Weng, Lin Tao, Jin Yang, Deli Gao, et al. A novel method for predicting formation pore pressure ahead of the drill bit by embedding petrophysical theory into machine learning based on seismic and logging-while-drilling data. Petroleum Science, 2025, 22(7): 2868-2883. (SCI，中科院大类一区，IF=6.1)
6. Xuyue Chen, Jin Ming, Jin Yang, Deli Gao, et al. Numerical investigation on the flow field characteristics of a new type of double-stage jetting PDC bit for deepwater shallow formations drilling. Ocean Engineering, 2024, 313: 119463. (SCI，中科院大类二区，IF=5.5)
7. Xuyue Chen, Chengkai Weng, Xu Du, Jin Yang, Deli Gao, et al. Prediction of the rate of penetration in offshore large-scale cluster extended reach wells drilling based on machine learning and big-data techniques. Ocean Engineering, 2023, 285: 115404. (SCI，中科院大类二区，IF=5.5)
8. Xuyue Chen, Xu Du, Chengkai Weng, Jin Yang, Deli Gao, et al. A real-time drilling parameters optimization method for offshore large-scale cluster extended reach drilling based on intelligent optimization algorithm and machine learning. Ocean Engineering, 2024, 291: 116375. (SCI，中科院大类二区，IF= 5.5)
9. Xuyue Chen, Qiqi Yang, Jin Yang, Deli Gao, et al. The stress field simulation of a novel M-type convex stepped bottomhole and the rate of penetration enhancement mechanism of a new type of central-grooved PDC bit for offshore deep & ultradeep well drilling. Ocean Engineering, 2024, 293: 116706. (SCI，中科院大类二区，IF= 5.5)
10. Xuyue Chen, Deli Gao. The Maximum Allowable Well Depth While Drilling of Ultra-Extended-Reach Drilling from Shallow Water to Deepwater Target. SPE Journal, 2018, 23(1), 224-236. (SCI，中科院大类三区，IF= 3.0)
11. Xuyue Chen, Deli Gao, Boyun Guo. A Method for Optimizing Jet-Mill-Bit Hydraulics in Horizontal Drilling. SPE Journal, 2016, 21(2), 416-422. (SCI，中科院大类三区，IF= 3.0)
12. Xuyue Chen, Qiqi Yang, Naitong Yang, Deli Gao, et al. The bottomhole stress field analysis and the rate of penetration enhancement mechanism of a new type of central-grooved single-cone/multi-blade hybrid bit for deep well drilling, Geoenergy Science and Engineering, 2024, 233: 212485. (SCI，中科院大类二区，IF= 4.6)
13. Yiqi Zou, Xuyue Chen, Deli Gao. Flow field characteristics and cuttings removal mechanisms of a new type of hybrid bit with central-grooved single-cone & multi-blade. Geoenergy Science and Engineering, 2025, 246: 213637. (SCI，中科院大类二区，IF= 4.6)
14. 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, 35, 686-694. (SCI，中科院大类二区，IF= 5.9)
15. 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, 28, 587-593. (SCI，中科院大类二区，IF= 5.9)
16. 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, 21: 1084-1090 (SCI，中科院大类二区，IF= 5.9)
17. Xuyue Chen, Deli Gao, Jin Yang, ea tl. A comprehensive wellbore stability model considering poroelastic and thermal effects for inclined wellbores in deepwater drilling, Journal of Energy Resources Technology, 2018, 140(9): 092903. (SCI，中科院大类三区，IF= 2.4)
18. 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, 39(11): 8221-8231. (SCI，中科院大类四区，IF= 2.9)
19. Xuyue Chen, Jin Yang, Deli Gao, et al. The maximum-allowable well depth while drilling of extended-reach wells targeting to offshore depleted reservoirs. Energies, 2018, 11(5): 1072. (SCI，中科院大类四区，IF= 3.2)