康勇

博士 , 教授
研究方向: 水射流理论与新技术
联系电话: 13607115602
Email: kangyong@whu.edu.cn

 个人简历

一、基本情况

姓名:康勇                              性别:男

民族:汉                               籍贯:宁夏西吉

出生年月:1978-10-20        学历:博士研究生

职称:教授                              电话:027-68774442/13607115602

E-mailkangyong@whu.edu.cn

二、学习及工作经历

1997.09-2001.07        重庆大学,工学学士学位

2001.09-2006.06        重庆大学,工学博士学位

2006.07-2008.08              重庆大学资源及环境科学学院,讲师

2008.09-2011.07              重庆大学资源及环境科学学院,副教授

2011.08-2013.10          武汉大学动力与机械学院,副教授

2011.08-至今           水射流理论与新技术湖北省重点实验室副主任

2013.11-至今           武汉大学动力与机械学院,教授,博士生导师

2016.09-至今           武汉大学动力与机械学院,副院长

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

三、学术及社会兼职

中国水射流技术专业委员会常委

湖北省机械工程学会石油机械专业委员会理事

黑龙江省地温能学会理事

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、中国煤炭学会、公共安全科学技术学会会员

入选国家科技专家库、湖北省发改委创新能力建设专家库、重庆市综合评标专家库

国家自然科学基金,国家留学基金,中国博士后科学基金,湖北、河北、

广西、重庆等省区市自然科学基金评审专家

Int J Rock Mech Min, Fuel, Energy, J Nat Gas Sci Eng, Exp Therm Fluid SciSCI期刊审稿专家

四、主要研究方向

水射流理论与新技术

五、主要科研项目

[1]    国家自然科学基金面上项目,51474158,超高压水射流粉碎废旧轮胎制取精细胶粉理论基础研究,2015/01-2018/12,在研,主持

[2]    湖北省自然科学基金重点项目,2016CFA088,无针注射安瓿瓶喷嘴内外流场特征与性能优化,2016/09-2018/12,在研,主持

[3]    国家重点基础研究计划(973计划),2014CB239203,页岩气储层超临界二氧化碳增渗与压裂机理,2014/01-2018/12,在研,参与/项目办公室主任

[4]    中国工程院咨询研究项目,2015-ZCQ-07,我国中西部绿色能源结构及开发利用战略研究,2016/01-2017/12,在研,参与/副组长

[5]    教育部新世纪优秀人才支持计划,NCET-12-0424,矿业工程领域,2013.01-2015.12,已结题,主持

[6]    湖北省杰出青年基金,2012FFA020,高压水射流切割回收大型废旧轮胎的应用基础研究,2013/01-2014/12,已结题,主持

[7]    教育部留学回国基金,2012-940,西部地区山岭隧道偏压效应机理研究,2012/09-2014/08,已结题,主持

[8]    重庆市自然科学基金,CSTC2010BB6069,脉冲磨料射流在隧道低损伤掘进中的应用研究,2010/07-2013/07,已结题,主持

[9]    国家自然科学基金青年项目,50704039,高压水射流辅助提高隧道软岩光面爆破成缝率的机理,2008/01-2010/12,已结题,主持

[10]  国家自然科学基金创新研究群体专项,5062140350921063,高压水射流破岩理论及其在地下工程中的应用基础,2007/01-2012/12,已结题,参与

[11]  国家自然科学基金重点项目,50334060,隧道与地下空间工程结构物的稳定性与可靠性,2004/01-2007/12,已结题,参与

六、科研荣誉与奖励

[1]    多相振荡射流及其在低透气性煤层中抽采瓦斯的关键技术研究与应用,中华人民共和国国务院,科技进步,国家二等奖,排名第六,2008.12.3

[2]    复杂煤层煤与瓦斯突出灾害防治新技术与装备,中华人民共和国教育部,发明,省部一等奖,排名第四,2011.1.25

[3]    深部矿井复合动力灾害卸压增透关键技术研究与应用,中国煤炭工业协会,科技进步,省部一等奖,排名第三,2016.12.20

[4]    河南省煤矿安监局,科技进步,省部一等奖,排名第二,2016.05.01

[5]    教育部新世纪优秀人才支持计划,2013.01-2015.12

[6]    湖北省杰出青年基金资助,2012

[7]    武汉大学“351人才计划珞珈青年学者,2012

[8]    武汉大学烛光导航工程优秀导航师,2015

七、近五年主要论著

[1]    Wang Zhineng, Kang Yong*, Li Deng, Wang Xiaochuan, Hu Dong, Investigating the hydrodynamics of airlift pumps by wavelet packet transform and the recurrence plot, Experimental Thermal and Fluid Science, 2017, https: // doi.org /10.1016 /j. expthermflusci. 2017. 11. 006

[2]    Liu Wenchuan, Kang Yong*, Zhang Mingxing, Wang Xiaochuan, Li Deng, Self-sustained oscillation and cavitation characteristics of a jet in a Helmholtz resonator, International Journal of Heat and Fluid Flow, 2017(68):158-172

[3]    Ding Xiaolong, Kang Yong*, Li Deng, Wang Xiaochuan, Wang Zhineng, Experimental investigation on surface quality processed by self-excited oscillation pulsed waterjet peening, Materials,  2017, 10(9), 989

[4]    Feng Gan, Kang Yong*, MengTao, Hu Yao-qing, Li Xiao-hong, The Influence of Temperature on Mode I Fracture Toughness and Fracture Characteristics of Sandstone. Rock Mechanics and Rock Engineering, 2017(4):1-13.

[5]    Huang Man, Kang Yong*, Wang Xiaochuan, Hu Yi, Cai Can, Analysis of the flow characteristics of the high pressure supercritical carbon dioxide jet, Journal of Hydrodynamics, 2017.

[6]    Li Deng, Kang Yong*, Ding Xiaolong, Liu Wenchuan, Effects of the geometry of impinging surface on the pressure oscillations of self-resonating pulsed waterjet, Advances in Mechanical Engineering, 2017, 9(8):1–11.

[7]    Wang Zefeng, Kang Yong*, Cheng Yi, Multiresponse optimization of process parameters in water jet pulverization via response surface methodology. International Journal of Precision Engineering and Manufacturing, 2017.

[8]    Huang Man, Kang Yong*, Wang Xiaochuan, Hu Yi, Li Deng, Cai Can, Chen Feng, Effects of nozzle configuration on rock erosion under a supercritical carbon dioxide jet at various pressures and temperatures, Applied Sciences, 2017,7,606.

[9]    Liu Wenchuan, Kang Yong*, Zhang Mingxing, Zhou Yongxiang, Wang Xiaochuan, Li Deng, Frequency modulation and erosion performance of a self-resonating Jet, Applied sciences, 2017, 7(9), 932

[10]  Li DengKang Yong*Wang XiaochuanDing XiaolongFang ZhenlongEffects of nozzle inner surface roughness on the cavitation erosion characteristics of high speed submerged jetsExperimental Thermal and Fluid Science2016.01.2874444~452

[11]  Li DengKang Yong*Ding XiaolongLiu WenchuanExperimental study on the effects of feeding pipe diameter on the cavitation erosion performance of self-resonating cavitating waterjetExperimental Thermal and Fluid Science2016.11.2782314~325

[12]  Li DengKang Yong*Ding XiaolongWang XiaochuanFang ZhenlongEffects of area discontinuity at nozzle inlet on the characteristics of high speed self-excited oscillation pulsed waterjetsExperimental Thermal and Fluid Science2016.07.1179254~265

[13]  Hu YiKang Yong*Wang XiaochuanLi XiaohongHuang ManZhang MingxingExperimental and theoretical analysis of a supercritical carbon dioxide jet on wellbore temperature and pressureJournal of Natural Gas Science and Engineering2016.10.2036108~116

[14]  Liu WenchuanKang Yong*Wang XiaochuanYuan BoFang ZhenlongForming mechanism and radius prediction of hydraulically generated slots based on a two-walled jetJournal of Natural Gas Science and Engineering2016.10.2636385~401

[15]  Su DengfengKang Yong*Li DongyangWang XiaochuanYan FuwenAnalysis and numerical simulation on the reduction effect of stress waves caused by water jet slotting near blasting sourceShock and Vibration2016.04.21

[16]  Li, DengKang Yong*Ding, XiaolongWang, XiaochuanFang, ZhenlongAn experimental investigation on the pressure characteristics of high speed self-resonating pulsed waterjets influenced by feeding pipe diameterJournal of Mechanical Science and Technology2016.12.123011):4997~5007

[17]  Li DengKang Yong*Ding XiaolongWang XiaochuanLiu WenchuanEffects of feeding pipe diameter on the performance of a jet-driven Helmholtz oscillator generating pulsed waterjetsJournal of Mechanical Science and Technology2017.02.17313):1~10

[18]  Huang ManKang Yong*Long XinpingWang XiaochuanHu YiLi DengZhang MingxingEffects of a nano-silica additive on the rock erosion characteristics of a SC-CO2 jet under various operating conditionsApplied Sciences2017.2.872):153

[19]  Hu YiKang Yong*Wang Xiao-ChuanLi Xiao-HongLong Xin-PingZhai Guang-YaoHuang ManMechanism and experimental investigation of ultra high pressure water jet on rubber cuttingInternational Journal of Precision Engineering and Manufacturing2014.09.07159):1973~1978

[20]  Li DengKang Yong*Ding XiaolongWang XiaochuanFang ZhenlongEffects of area discontinuity at nozzle inlet on the characteristics of self-resonating cavitating waterjetChinese Journal of Mechanical Engineering2016.06.10294):813~824

[21]  Hu DongKang Yong*Tang ChuanlinWang XiaochuanModeling and analysis of airlift system operating in three-Phase flowChina Ocean Engineering2015.01.152901):121~132

[22]  Wang ZefengKang Yong*Wang ZhaoPulverization of end-of-life tires by ultra-high pressure water jet processJournal of Polymer Engineering2016.06.05373):211~225

[23]  Wang ZefengKang Yong*Wang ZhaoCheng YiRecycling waste tire rubber by water jet pulverization: powder characteristics and reinforcing performance in natural rubber compositesJournal of Polymer EngineeringDOI: https://doi.org/10.1515/polyeng-2016-0383, 2017.01.26383

[24]  Su DengfengKang Yong*Wang XiaochuanZheng DandanLi DongyangYan BinyuanYan FuwenAnalysis and numerical simulation for tunnelling through coal seam assisted by water jetCmes-Computer Modeling in Engineering and Sciences2016.02.111115):375~393

[25]  Zhenlong FangKang Yong*Bo YuanXiaofeng YangXiaochuan WangSlotting radius prediction model of soft coal seams with high-pressure pulse water jetDisaster Advances2013.03.176S1):431~437

[26]  Bo YuanKang Yong*Yi HuDeng LiResearch on transient switching pressure behavior and control of hydraulic cutting in coal seamsDisaste Advances2013.03.206S1):137~144

[27]  袁波,康勇*,李晓红,王晓川,王泽峰,煤层水力割缝系统性能瞬变特性研究,煤炭学报,2013.12.153812):2153~2157

[28]  李登,李晓红,康勇*,王晓川,龙新平,巫世晶,风琴管喷嘴内表面粗糙度对高压射流特性的影响试验研究,机械工程学报,2015.9.5,(17):169~176

[29]  方珍龙,康勇*,王晓川,刘文川,李登,周勇祥,腔径比对亥姆赫兹自振射流性能影响,浙江大学学报(工学版)2016.11.15,(11):2100~2106+2157

[30]  粟登峰,康勇*,王晓川,郑丹丹,高压水射流螺旋式切槽辅助松动爆破模型,东北大学学报(自然科学版)2016.12.15,(12):1778~1783

[31]  杨小凯,康勇*,水射流作用下橡胶断口微观形貌特征研究东北师大学报(自然科学版)2015.6.20,(02):75~78

[32]  Kang Yong*Wang XiaochuanYang XiaofengYuan BoNumerical simulation of control blasting with borehole protecting and water jet slotting in soft rock massDisaster Advances2012.10.0954):933~938

[33]  康勇*,郑丹丹,粟登峰,颜秉源,李东洋,王晓川,水射流预切槽下的定向聚能爆破模型及数值模拟研究,振动与冲击,2015.5.153812):2153~2157

[34]  康勇*,王晓川,卢义玉,夏彬伟,磨料射流辅助三翼钻头破岩实验研究中国矿业大学学报,2012.03.15412):212~218

[35]  李晓红,康勇*,王晓川,卢义玉,粟登峰,方珍龙,李登,深部煤层采前立体网格化瓦斯抽采系统,第二届中国工程院/国家能源局/能源论坛,北京,2012.12.19-2012.12.20 (特邀报告)

[36]  Hu YiKang Yong*Wang XiaochuanLi XiaohongHuang ManZhang MingxingExperimental and theoretical analysis of a supercritical carbon dioxide jet on wellbore temperature and pressureDubai2017.07.10-2017.07.12. invited lecture

[37]  Zhang MingxingKang Yong*Hu YiWang XiaochuanNumerical simulation for influence of the casing-holeon hydrojet-fracturing flowAsian International Conference on Fluid MachineryTokyo, Japan2015.9.7-2015.9.10

[38]  Kang Yong*Su DengfengZheng DandanLi DongyangYan FuwenResearch on technology of light shock controlledblasting with water jet slottingThe 13th ISRM ConferenceMontreal, Canada2015.05.10-2015.05.13

[39]  Kang Yong*Zhai GuangyaoFang ZhenkongLong XinpingWang XiaochuanWang ZefengYang XiaokaiApplication research of cutting and recycling large tyre with ultra-high pressure water jetThe 10th Pacific Rim International Conference on Water Jet TechnologyJeju, Korea2013.10.11-2013.10.14

[40]  Liu WenchuanKang Yong*Fang ZhenlongWang XiaochuanNumerical simulation on flow-field behavior ofhigh-pressure jet groutingAsian International Conference on Fluid MachineryTokyo, Japan2015.9.7-2015.9.10

[41]  Zhou YongxiangKang Yong*Wang XiaochuanFang ZhenlongDing XiaolongNumerical investigation on the impact of corner radiuson the performance of convergent-divergent nozzleISFMFE-6thWuhan, China2014.10.22-2014.10.25

[42]  Fang ZhenlongKang Yong*Wang XiaochuanHu YiHuang ManNumerical and experimental investigation on flow field characteristics of organ pipe nozzle2014 IOP Conference Series: Earth and Environmental ScienceMontreal,Canada2014.09.24-2014.09.26

[43]  Wang ZefengXu LihuaKang Yong*Wang XiaochuanLong xinpingStudy on distribution law of surrounding rock pressure in unsymmetrical loading tunnel with coupling effect from topography and geologyISRM European SymposiumVigo2014.05.27-2014.5.29

[44]  Fang ZhenlongKang Yong*Yang XiaofengYuan BoLi DengThe influence of collapse wall on self-excited oscillation pulsed jet nozzle performance26th IAHR Symposium on Hydraulic Machinery and SystemsBeijing2012.8.19-2012.8.23

[45]  Yuan BoKang Yong*Yang XiaofengFang ZhenlongLi DengNumerical investigation on high-pressure convergent nozzle by comparative and statistical analysis method26th IAHR Symposium on Hydraulic Machinery and SystemsBeijing2012.8.19-2012.8.23

[46]  卢义玉,康勇,夏彬伟,井巷工程设计与施工,科学出版社,2010

[47]  李晓红,卢义玉,康勇,饶邦华,岩石力学实验模拟技术 ,科学出版社,2007

八、知识产权

[1]    一种自振高压脉冲水射流发生器,康勇,李登,王晓川,方珍龙,丁小龙,2017.10.24ZL201510743182.6(已授权)

[2]    一种腔长连续可调高压自激振荡脉冲射流喷嘴,康勇,王晓川,李登,袁波,方珍龙,胡毅,王泽峰,丁小龙, 2016.02.10ZL201410089222.5(已授权)

[3]    一种高压水射流螺旋切槽松动爆破方法,康勇,郑丹丹,粟登峰,王晓川,颜秉源,李东洋,2015.9.29ZL2013107347761(已授权)

[4]    一种水射流切割轮胎的装置,康勇,王晓川,丁小龙,龙新平,李登,王泽峰,2016.06.30ZL201410291806.0(已授权)

[5]    多功能自振周期偏摆脉冲射流发生器,康勇,李登,丁小龙,王晓川,方珍龙,胡毅,2017.07.28ZL201510739201.8(已授权)

[6]    无泵式高压脉冲水射流发生装置,康勇,李登,丁小龙,王晓川,王泽峰,黄满,2017.09.29ZL201510799445.5(已授权)

[7]    一种射流割缝辅助地下工程微震爆破方法,康勇,粟登峰,严福文,王晓川,李东洋,201510930330.5

[8]    一种水射流煤层割缝喷孔处理装置,康勇,丁小龙,李登,粟登峰,王晓川,201510888909.X

[9]    基于亥姆霍兹不稳定性的流体瞬时流速测量装置及方法,康勇,李登,丁小龙,方珍龙,王晓川,黄满,201510776803.0

[10]  一种高频无泵式高压脉冲水炮及射流发生方法,康勇,李登,王晓川,方珍龙,王泽峰,胡毅,丁小龙,201510801104.7

[11]  一种利用饱和溶液结晶的新型高压磨料水射流装置及方法,康勇,李登,王晓川,方珍龙,胡毅,丁小龙,201410405513.0

[12]  超临界二氧化碳射流围压釜以及监测系统,康勇,江建洪,胡毅,王晓川,黄满,蔡灿,201610316530.6

[13]  一种射流下水管道清洗机,康勇,李登,杨晓峰,王晓川,袁波,方珍龙, 201212.26ZL201220271291.4(已授权)

[14]  一种矿用高压密封三角钻杆,康勇,王晓川,李登,吕有厂,代志旭,朱同功,翟光耀,胡毅, 2013.2.13ZL201220369799.8(已授权)

[15]  一种辅助高压水射流割缝防喷装置,王晓川,康勇,李登,胡毅,粟登峰,王泽峰, 2015.06.25ZL201310229014.6(已授权)

[16]  矿用气水渣敛集及分离装置,杨晓峰,李登,康勇,王晓川, 2013.7.24ZL201310168746.9(已授权)

[17]  一种可调环形射流泵,龙新平,杨雪龙,康勇,王晓川,杨晓峰, 2013.8.7ZL201310141547.9(已授权)

[18]  一种多功能自激振荡射流钻头,李晓红,卢义玉,康勇,夏彬伟,王晓川,蒋林艳, 2008.11.30ZL200810233083.3(已授权)