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康勇

发布时间:2022-01-01 浏览量:

康勇:男,1978.10出生,博士研究生,教授。

学习及工作经历

(1)教育经历

1997.09--2001.07重庆大学采矿工程系本科

2001.09--2006.06重庆大学采矿工程系博士研究生

(2)工作经历

2006.07--2011.07重庆大学资源及环境科学学院任教(其间:2007.07-2010.12中国科学院武汉岩土力学研究所博士后;2008.11-2009.12美国哥伦比亚大学访问学者;2006.07聘为讲师;2008.09聘为副教授)

2011.08--2016.09武汉大学动力与机械学院任教(其间:2013.11聘为教授;2011.08至今武汉大学水射流理论与新技术湖北省重点实验室副主任)

2016.09至今武汉大学动力与机械学院副院长、教授,水射流理论与新技术湖北省重点实验室副主任

三、主要研究方向

水射流理论与新技术

超临界二氧化碳射流理论与技术应用

煤层气、页岩气安全高效开采

四、主讲课程

《现代能源》(本科生)

五、学术及主要科研成果

(1)代表性期刊论文

[1]Gan Feng,Yong Kang*, Ze-dong Sun, et al.Effects of Supercritical CO2adsorption on the mechanical characteristics and failure mechanisms of shale. Energy, 2019, 173: 870-882.

[2]Can Cai,Yong Kang*, Xiaochuan Wang, et al. Experimental study on shale fracturing enhancement by using multi-times pulse supercritical carbon dioxide (SC-CO2) jet. Journal of Petroleum Science and Engineering, 2019, 178: 948-963.

[3]Wenchuan Liu,Yong Kang*, Mingxing Zhang,et al. Experimental and theoretical analysis on chamber pressure of a self-resonating cavitation waterjet. Ocean Engineering, 2018, 151: 33–45.

[4]Can Cai,Yong Kang*, Xiaochuan Wang, et al. Mechanism of Supercritical Carbon Dioxide (SC-CO2) Hydro-jet Fracturing. Journal of CO2 Utilization, 2018, 26: 575-587.

[5]Dongping Zeng,Yong Kang*, Lu Xie, et al. A mathematic model and experimental verification of optimal nozzle diameter in needle-free injection. Journal of Pharmaceutical Sciences, 2018, 107(4): 1086-1094.

[6]Zhineng Wang,Yong Kang*, Deng Li, et al. Investigating the hydrodynamics of airlift pumps by wavelet packet transform and the recurrence plot. Experimental Thermal and Fluid Science, 2018, 96: 56-58.

[7]Man Huang,Yong Kang*, Xiaochuan Wang, et al. Experimental investigation on the rock erosion characteristics of a self-excited oscillation pulsed supercritical CO2jet. Applied Thermal Engineering, 2018, 139: 445-455.

[8]Zefeng Wang,Yong Kang*,Zhao Wang, et al. Recycling waste tire rubber by water jet pulverization: powder characteristics and reinforcing performance in natural rubber composites. Journal of Polymer Engineering, 2017.01.26,383.

[9]Wenchuan Liu,Yong Kang*, Mingxing Zhang, et al. Self-sustained oscillation and cavitation characteristics of a jet in a Helmholtz resonator. International Journal of Heat and Fluid Flow, 2017, 68: 158-172.

[10] Deng Li,Yong Kang*, Xiaolong Ding, et al. Experimental study on the effects of feeding pipe diameter on the cavitation erosion performance of self-resonating cavitating waterjet. Experimental Thermal & Fluid Science, 2017, 82: 314-325.

[11]Xiaolong Ding,Yong Kang*, Deng Li, et al. Experimental Investigation on Surface Quality Processed by Self-Excited Oscillation Pulsed Waterjet Peening. Materials, 2017,10(9): 989.

[12]Zefeng Wang,Yong Kang*, Yi Cheng. Multiresponse optimization of process parameters in water jet pulverization via response surface methodology. International Journal of Precision Engineering and Manufacturing, 2017,18(12):1855-1871.

[13]Deng Li,Yong Kang*, Xiaolong Ding, et al. Effects of Nozzle Inner Surface Roughness on the Performance of Self-Resonating Cavitating Waterjets under Different Ambient Pressures. Strojniski Vestnik/Journal of Mechanical Engineering, 2017, 63(2): 92-102.

[14]Gan Feng,Yang Kang*, Tao Meng, et al. The Influence of Temperature on Mode I Fracture Toughness and Fracture Characteristics of Sandstone. Rock Mechanics & Rock Engineering, 2017, (4):1-13.

[15]Deng Li,Yong Kang*, Xiaolong Ding, et al. Effects of feeding pipe diameter on the performance of a jet-driven Helmholtz oscillator generating pulsed waterjets. Journal of Mechanical Science and Technology, 2017, 31(3): 1203~1212.

[16]Deng Li,Yong Kang*, Xiaolong Ding, et al. Effects of area discontinuity at nozzle inlet on the characteristics of high speed self-excited oscillation pulsed waterjets. Experimental Thermal and Fluid Science, 2016, 79: 254~265.

[17]Yi Hu,Yong Kang*, Xiaochuan Wang, et al. Experimental and theoretical analysis of a supercritical carbon dioxide jet on wellbore temperature and pressure. Journal of Natural Gas Science and Engineering, 2016, 36: 108~116.

[18]Deng Li,Yong Kang*, Xiaolong Ding, et al. An experimental investigation on the pressure characteristics of high speed self-resonating pulsed waterjets influenced by feeding pipe diameter. Journal of Mechanical Science and Technology, 2016, 30(11): 4997~5007.

[19]Deng Li,Yong Kang*, Xiaolong Ding, et al. Effects of area discontinuity at nozzle inlet on the characteristics of self-resonating cavitating waterjet. Chinese Journal of Mechanical Engineering, 2016, 29(4): 813~824.

[20]Zefeng Wang,Yong Kang*, Zhao Wang. Pulverization of end-of-life tires by ultra-high pressure water jet process. Journal of Polymer Engineering, 2016, 37(3): 211~225.

(2)授权发明专利

[1]康勇,李登,王晓川,等.一种自振高压脉冲水射流发生器, ZL201510743182.6.

[2]康勇,王晓川,李登,等.一种腔长连续可调高压自激振荡脉冲射流喷嘴, ZL201410089222.5.

[3]康勇,郑丹丹,粟登峰,等.一种高压水射流螺旋切槽松动爆破方法, ZL2013107347761.

[4]康勇,王晓川,丁小龙,等.一种水射流切割轮胎的装置, ZL201410291806.0.

[5]康勇,李登,丁小龙,等.多功能自振周期偏摆脉冲射流发生器, ZL201510739201.8.

[6]康勇,李登,丁小龙,等.无泵式高压脉冲水射流发生装置, ZL201510799445.5.

[7]康勇,丁小龙,李登,等.一种水射流煤层割缝喷孔处理装置, ZL201510888909.X.

[8]康勇,李登,丁小龙,等.基于亥姆霍兹不稳定性的流体瞬时流速测量装置及方法, ZL201510776803.0.

[9]康勇,李登,王晓川,等.一种高频无泵式高压脉冲水炮及射流发生方法, ZL201510801104.7.

[10]康勇,黄满,王晓川,等.一种超临界二氧化碳脉冲射流油管清污装置及方法, ZL201611182983.0.

[11]康勇,李登,胡毅,等.一种辅助高压水射流割缝防喷装置, ZL201310229014.6.

(3)主持科研项目

国家自然科学基金面上项目,No. 51474158

湖北省自然科学基金重点项目,No. 2016CFA088

国家重点基础研究计划(973计划),No. 2014CB239203

教育部新世纪优秀人才支持计划,No. NCET-12-0424

教育部留学回国基金,No. 2012-940

湖北省杰出青年基金,No. 2012FFA020

重庆市自然科学基金,No. CSTC2010BB6069

国家自然科学基金青年项目,No. 50704039

其它重大横向课题多项

(4)荣誉与奖励

国家科学技术进步二等奖(排名第6),2008

高等学校科学研究优秀成果奖(科学技术)技术发明一等奖(排名第4),2010

教育部新世纪优秀人才支持计划,2012

湖北省杰出青年基金资助,2012

武汉大学“351人才计划”珞珈青年学者,2012

武汉大学“烛光导航工程”优秀导航师,2015

第七届河南煤矿安全生产科技进步一等奖(排名第2),2016

中国煤炭工业协会科学技术奖一等奖(排名第3),2016

(5)学术兼职

中国职业安全健康协会水射流技术专业委员会常委

黑龙江省地温能学会理事

湖北省机械工程学会石油机械专业委员会理事

中国岩石力学与工程学会环境岩土工程分会青年工作委员会委员

国际岩石力学学会ISRM会员

中国煤炭学会会员

公共安全科学技术学会会员

中国岩石力学与工程学会会员

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