张鑫鑫——海智汇

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张鑫鑫

领域：新材料产业学校：中南大学职称：

多工艺冲击回转钻进技术、非常规能源钻采技术、振荡射流理论与技术等...

具体了解该专家信息，请致电：027-87555799 邮箱 haizhi@uipplus.com

专家简介

教育背景

[1] 2008.9-2012.6 吉林大学 | 勘查技术与工程 | 工学学士学位

[2] 2012.9-2017.6 吉林大学 | 地质工程 | 工学博士学位

工作经历

[1] 2017.7-2019.6 中南大学博士后

[2] 2019.6-至今中南大学特聘副教授

项目课题经历

论文、成果、著作等

代表性论文：

[1] Xinxin Zhang, Yongjiang Luo*, Liming Fan, Jianming Peng, Kun Yin. Investigation of RC-DTH air hammer performance using CFD approach with dynamic mesh method. Journal of Advanced Research, 2019, 18: 127-135. (SCI, IF=5.045)

[2] Xinxin Zhang, Yongjiang Luo*, Xin Gan, Kun Yin. Design and numerical analysis of a large-diameter air RC drill bit for RC-DTH air hammer drilling. Energy Science & Engineering, 2019, 7: 921–929. (SCI, IF=2.839)

[3] Xinxin Zhang, Shaohe Zhang, Yongjiang Luo*, Dongyu Wu. Experimental study and analysis on a fluidic hammer—an innovative rotary-percussion drilling tool. Journal of Petroleum Science and Engineering, 2019, 173: 362-370. (SCI, IF=2.886)

[4] Jianming Peng, Dong Ge, Xinxin Zhang*, Maosen Wang, Dongyu Wu. Fluidic DTH hammer with backward-impact-damping design for hard rock drilling. Journal of Petroleum Science and Engineering, 2018, 171: 1077-1083. (SCI, IF=2.886)

[5] Xinxin Zhang, Shaohe Zhang, Jianming Peng*, Dongyu Wu. A fluidic oscillator with concave attachment walls and shorter splitter distance for fluidic DTH hammers. Sensors and Actuators A: Physical, 2018, 270: 127-135. (SCI, IF=2.739)

[6] Xinxin Zhang, Jianming Peng*, Mingze Sun, Kun Bo, Kun Yin, Dongyu Wu. The effect of actuator parameters on the performance of a liquid-jet hammer associated with its jet behavior. P I MECH ENG C-J MEC, 2017, 231: 2610-2620. (SCI, IF=1.359)

[7] Xinxin Zhang, Jianming Peng*, He Liu, Dongyu Wu. Performance analysis of a fluidic axial oscillation tool for friction reduction with the absence of throttling plate. Applied Sciences-Basel, 2017, 7: 360. (SCI, IF=2.217)

[8] Xinxin Zhang, Jianming Peng*, Dong Ge, Kun Bo*, Kun Yin, Dongyu Wu. Performance study of a fluidic hammer controlled by an output-fed bistable fluidic oscillator. Applied Sciences-Basel, 2016, 6: 305. (SCI, IF=2.217)

[9] Xinxin Zhang, Jianming Peng*, Mingze Sun, Qing Gao, Dongyu Wu. Development of applicable ice valves for ice-valve-based pressure corer employed in offshore pressure coring of gas hydrate-bearing sediments. Chemical Engineering Research & Design, 2016, 111: 117-126. (SCI, IF=3.073)

[10] Xinxin Zhang, Jianming Peng*, Kun Yin, Qilei Yin*, Dongyu Wu. A high-energy liquid-jet hammer with specially designed backward stroke end buffer structure. Journal of Vibroengineering, 2016, 18: 4935-4948. (SCI, IF=0.398)

[11] Pinghe Sun, Junyi Zhu, Binkui Zhao, Xinxin Zhang*, Han Cao*, Mingjin Tian, Meng Han. Study on the Mechanism of Ionic Stabilizers on Shale Gas Reservoir Mechanics in Northwestern Hunan. Energies, 2019, 12: 2453. (SCI, IF=2.707)

[12] Dongyu Wu, Jianming Peng, Jingqing Cheng, Yanliang Li, Xinxin Zhang. A numerical and laboratory study of ice layer growth and freezing characteristics in the vicinity of a vertical ice valve. Applied Thermal Engineering, 2017, 123: 1214-1222. (SCI, IF=4.026)

[13] Dongyu Wu, Jianming Peng, Mingze Sun, Qing Gao, Xinxin Zhang, Sun Qiang, Kun Bo. Experimental study on a pressure-coring technology based on a freeze-core valve for marine hydrate-bearing sediment sampling. Journal of Natural Gas Science and Engineering, 2016, 33: 135-142. (SCI, IF=3.859)

[14] Dongyu Wu, Kun Yin, Qilei Yin, Xinxin Zhang, Jingqing Cheng, Dong Ge, Pengfei Zhang. Reverse Circulation Drilling Method Based on a Supersonic Nozzle for Dust Control. Applied Sciences-Basel, 2016, 7: 5. (SCI, IF=2.217)

[15] 张鑫鑫，彭枧明*，杨冬冬，吴冬宇，孙强. 冲锤处流体阻力对高能射流式液动锤性能影响. 振动、测试与诊断, 2016, 36: 998-1002. (EI)

[16] 张鑫鑫，彭枧明*，孙铭泽，罗永江. 冰阀式保压取样器中冰阀形成的数值模拟与试验研究. 哈尔滨工业大学学报, 2017, 49: 162-166. (EI)

[17] 张鑫鑫，彭枧明*，孙铭泽，吴冬宇. 基于CFD的高能射流式液动冲击器活塞与缸体密封特性研究. 吉林大学学报(地球科学版), 2017, 47: 534-541. (CSCD)

[18] 吴冬宇，彭枧明，殷琨，张鑫鑫. 基于Ls-dyna 的射流式冲击器冲锤结构东北大学学报: 2016, 10: 1441-1445. (EI)

[19] 吴冬宇，罗永江，彭枧明，张鑫鑫. 微波加热辅助多孔介质水合物制样方法与装置国防科技大学学报, 2016, 2: 165-170. (EI)

[20] 吴冬宇，彭枧明，孙强，张鑫鑫，杨冬冬. 碟簧对射流式冲击器密封影响研究. 振动与冲击, 2016, 35: 221-225. (EI)

[21] 吴冬宇，殷琨，甘心，张鑫鑫，殷其雷. 两种贯通潜孔锤反循环钻头应用效果及理论分析. 吉林大学学报, 2017, 1: 197-202. (CSCD)

专利成果：

[12]微纳米气泡发生装置和含油废水的微纳米气泡处理方法（受理），ZL201910988805.4

[11]振荡射流式微纳米气泡发生装置，发明专利（受理），ZL201910889943.7

[10]涡流式振荡射流圧力脉冲减阻工具，实用新型（发明专利实审阶段），ZL201721788478.0

[9]井底压力脉冲减阻工具，实用新型（发明专利实审阶段），ZL201721785601.3

[8]井底压力脉冲发生器，实用新型（发明专利实审阶段），ZL201721788477.6

[7]冲击回转钻进系统用稳压罐，实用新型，ZL201420259673.4

[6]一种信号道侧置式射流元件，实用新型，ZL201521020684.8

[5]两体式新型射流元件，实用新型，ZL201420220443.7

[4]冰封保压取心钻具固液相变冷源，发明专利，ZL201410796176.2

[3]悬浮态水合物地层模拟装置及地层模拟方法，发明专利，ZL201310751213.3

[2]冲程差动式高能液动潜孔冲击器，发明专利，ZL201410756548.9

[1]船载共振柱仪，发明专利，ZL201410012414.6

专利、著作版权等

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