1. Zhou, Z; Lu, YY; Tang, JR*; Zhang, XW; Li, Q. Numerical simulation of supercritical carbon dioxide jet at well bottom[J]. Applied Thermal Engineering, 2017, 121: 210-217.(SCI、EI检索) 2. Ge, ZL; Zhang, HW; Zhou, Z*; Cao, SR; Zhang, D; Liu, XJ; Tian, C. Experimental study on the characteristics and mechanism of high-pressure water jet fracturing in high-temperature hard rocks[J]. Energy, 2023, 270: 126848.(SCI、EI检索) 3. Ge, ZL; Shangguan, JM; Zhou, Z*; Li, ZT; Liu, L; Chen, CJ; Shao, CF. Investigation of fracture damage and breaking energy consumption of hard rock repeatedly cut by abrasive water jet[J]. Rock Mechanics and Rock Engineering, 2023, DOI: 10.1007/s00603-023-03230-5.(SCI、EI检索) 4. Cao, SR; Ge, ZL; Zhou, Z*; Gao, FF; Liu, WC; Lu, YY. Fracturing mechanism and pore size distributions of rock subjected to water jets under in-situ stress: Breakage characteristics investigation[J]. Journal of Petroleum Science and Engineering, 2022, 213: 110392.(SCI、EI检索) 5. Li, ZT; Ge, ZL; Zhou, Z*; Mi, JY; Liu, L; Shangguan, JM; Shao, CF. Numerical simulation and experimental verification of heterogeneous granite impacted by abrasive water jet based on SPH-FEM coupling algorithm[J]. Powder Technology, 2023, 416: 118233.(SCI、EI检索) |