簡介
主要研究方向:
水射流理論與新技術。近年來承擔國家及部省級項目10餘項,以第一作者或通訊作者發表SCI/EI收錄論文40餘篇,出版著作2部,授權和受理專利10項。先後獲國家科技進步二等獎1項,省部級科技進步一等獎3項。 主要學術兼職:中國水射流技術專業委員會常委、湖北省機械工程學會石油機械專業委員會理事、黑龍江省地溫能學會理事、
中國岩石力學與工程學會環境岩土工程分會青年工作委員會委員;入選
國家科技專家庫、湖北省發改委創新能力建設專家庫、重慶市綜合評標專家庫;擔任
國家自然科學基金,國家留學基金,
中國博士後科學基金,湖北、河北、廣西、重慶等省區市自然科學基金評審專家;任Int. J. Rock Mech. Min., Fuel, Energy, J. Nat. Gas Sci. Eng., Exp. Therm. Fluid Sci.等SCI期刊審稿專家。
主要科研項目
[1] 國家自然科學基金面上項目,51474158,超高壓水射流粉碎廢舊輪胎製取精細膠粉理論基礎研究,2015/01-2018/12,在研,主持
[2] 湖北省自然科學基金重點項目,2016CFA088,無針注射安瓿瓶噴嘴內外流場特徵與性能最佳化,2016/09-2018/12,在研,主持
[3] 國家重點基礎研究計畫(
973計畫),2014CB239203,頁岩氣儲層超臨界二氧化碳增滲與壓裂機理,2014/01-2018/12,在研,參與/項目辦公室主任
[4]
中國工程院諮詢研究項目,2015-ZCQ-07,我國中西部綠色能源結構及開發利用戰略研究,2016/01-2017/12,在研,參與/副組長
[5] 教育部新世紀人才支持計畫,NCET-12-0424,礦業工程領域,2013.01-2015.12,已結題,主持
[6] 湖北省傑出青年基金,2012FFA020,高壓水射流切割回收大型廢舊輪胎的套用基礎研究,2013/01-2014/12,已結題,主持
[7] 教育部留學回國基金,2012-940,西部地區山嶺隧道偏壓效應機理研究,2012/09-2014/08,已結題,主持
[8] 重慶市自然科學基金,CSTC2010BB6069,脈衝磨料射流在隧道低損傷掘進中的套用研究,2010/07-2013/07,已結題,主持
[9] 國家自然科學基金青年項目,50704039,高壓水射流輔助提高隧道軟岩光面爆破成縫率的機理,2008/01-2010/12,已結題,主持
[10] 國家自然科學基金創新研究群體專項,50621403,50921063,高壓水射流破岩理論及其在地下工程中的套用基礎,2007/01-2012/12,已結題,參與
[11] 國家自然科學基金重點項目,50334060,隧道與地下空間工程結構物的穩定性與可靠性,2004/01-2007/12,已結題,參與
代表性論著和教材
[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 Mechanicsand 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 Deng,Kang Yong*,Wang Xiaochuan,Ding Xiaolong,Fang Zhenlong,Effects of nozzle inner surface roughness on the cavitation erosion characteristics of high speed submerged jets,Experimental Thermal and Fluid Science,2016.01.28,74:444~452
[11] Li Deng,Kang Yong*,Ding Xiaolong,Liu Wenchuan,Experimental study on the effects of feeding pipe diameter on the cavitation erosion performance of self-resonating cavitating waterjet,Experimental Thermal and Fluid Science,2016.11.27,82:314~325
[12] Li Deng,Kang Yong*,Ding Xiaolong,Wang Xiaochuan,Fang Zhenlong,Effects of area discontinuity at nozzle inlet on the characteristics of high speed self-excited oscillation pulsed waterjets,Experimental Thermal and Fluid Science,2016.07.11,79:254~265
[13] Hu Yi,Kang Yong*,Wang Xiaochuan,Li Xiaohong,Huang Man,Zhang Mingxing,Experimental and theoretical analysis of a supercritical carbon dioxide jet on wellbore temperature and pressure,Journal of Natural Gas Science and Engineering,2016.10.20,36:108~116
[14] Liu Wenchuan,Kang Yong*,Wang Xiaochuan,Yuan Bo,Fang Zhenlong,Forming mechanism and radius prediction of hydraulically generated slots based on a two-walled jet,Journal of Natural Gas Science and Engineering,2016.10.26,36:385~401
[15] Su Dengfeng,Kang Yong*,Li Dongyang,Wang Xiaochuan,Yan Fuwen,Analysis and numerical simulation on the reduction effect of stress waves caused by water jet slotting near blasting source,Shock and Vibration,2016.04.21
[16] Li, Deng,Kang Yong*,Ding, Xiaolong,Wang, Xiaochuan,Fang, Zhenlong,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,2016.12.12,30(11):4997~5007
[17] Li Deng,Kang Yong*,Ding Xiaolong,Wang Xiaochuan,Liu Wenchuan,Effects of feeding pipe diameter on the performance of a jet-driven Helmholtz oscillator generating pulsed waterjets,Journal of Mechanical Science and Technology,2017.02.17,31(3):1~10
[18] Huang Man,Kang Yong*,Long Xinping,Wang Xiaochuan,Hu Yi,Li Deng,Zhang Mingxing,Effects of a nano-silica additive on the rock erosion characteristics of a SC-CO2 jet under various operating conditions,Applied Sciences,2017.2.8,7(2):153
[19] Hu Yi,Kang Yong*,Wang Xiao-Chuan,Li Xiao-Hong,Long Xin-Ping,Zhai Guang-Yao,Huang Man,Mechanism and experimental investigation of ultra high pressure water jet on rubber cutting,International Journal of Precision Engineering and Manufacturing,2014.09.07,15(9):1973~1978
[20] Li Deng,Kang Yong*,Ding Xiaolong,Wang Xiaochuan,Fang Zhenlong,Effects of area discontinuity at nozzle inlet on the characteristics of self-resonating cavitating waterjet,Chinese Journal of Mechanical Engineering,2016.06.10,29(4):813~824
[21] Hu Dong,Kang Yong*,Tang Chuanlin,Wang Xiaochuan,Modeling and analysis of airlift system operating in three-Phase flow,China Ocean Engineering,2015.01.15,29(01):121~132
[22] Wang Zefeng,Kang Yong*,Wang Zhao,Pulverization of end-of-life tires by ultra-high pressure water jet process,Journal of Polymer Engineering,2016.06.05,37(3):211~225
[23] Wang Zefeng,Kang Yong*,Wang Zhao,Cheng Yi,Recycling waste tire rubber by water jet pulverization: powder characteristics and reinforcing performance in natural rubber composites,Journal of Polymer Engineering,DOI: https://doi.org/10.1515/polyeng-2016-0383, 2017.01.26,383
[24] Su Dengfeng,Kang Yong*,Wang Xiaochuan,Zheng Dandan,Li Dongyang,Yan Binyuan,Yan Fuwen,Analysis and numerical simulation for tunnelling through coal seam assisted by water jet,Cmes-Computer Modeling in Engineeringand Sciences,2016.02.11,111(5):375~393
[25] Zhenlong Fang,Kang Yong*,Bo Yuan,Xiaofeng Yang,Xiaochuan Wang,Slotting radius prediction model of soft coal seams with high-pressure pulse water jet,Disaster Advances,2013.03.17,6(S1):431~437
[26] Bo Yuan,Kang Yong*,Yi Hu,Deng Li,Research on transient switching pressure behavior and control of hydraulic cutting in coal seams,Disaste Advances,2013.03.20,6(S1):137~144
[27] 袁波,康勇*,李曉紅,王曉川,王澤峰,煤層水力割縫系統性能瞬變特性研究,煤炭學報,2013.12.15,38(12):2153~2157
[28] 李登,李曉紅,康勇*,王曉川,龍新平,巫世晶,風琴管噴嘴內表面粗糙度對高壓射流特性的影響試驗研究,機械工程學報,2015.9.5,(17):169~176
[29] 方珍龍,康勇*,王曉川,劉文川,李登,周勇祥,腔徑比對亥姆赫茲自振射流性能影響,浙江大學學報(工學版),2016.11.15,(11):2100~2106+2157
[30] 粟登峰,康勇*,王曉川,鄭丹丹,高壓水射流螺旋式切槽輔助鬆動爆破模型,東北大學學報(自然科學版),2016.12.15,(12):1778~1783
智慧財產權
[1] 一種自振高壓脈衝水射流發生器,康勇,李登,王曉川,方珍龍,丁小龍,2017.10.24,ZL201510743182.6(已授權)
[2] 一種腔長連續可調高壓自激振盪脈衝射流噴嘴,康勇,王曉川,李登,袁波,方珍龍,胡毅,王澤峰,丁小龍, 2016.02.10,ZL201410089222.5(已授權)
[3] 一種高壓水射流螺旋切槽鬆動爆破方法,康勇,鄭丹丹,粟登峰,王曉川,顏秉源,李東洋,2015.9.29,ZL2013107347761(已授權)
[4] 一種水射流切割輪胎的裝置,康勇,王曉川,丁小龍,龍新平,李登,王澤峰,2016.06.30,ZL201410291806.0(已授權)
[5] 多功能自振周期偏擺脈衝射流發生器,康勇,李登,丁小龍,王曉川,方珍龍,胡毅,2017.07.28,ZL201510739201.8(已授權)
[6] 無泵式高壓脈衝水射流發生裝置,康勇,李登,丁小龍,王曉川,王澤峰,黃滿,2017.09.29,ZL201510799445.5(已授權)
[7] 一種射流割縫輔助地下工程微震爆破方法,康勇,粟登峰,嚴福文,王曉川,李東洋,201510930330.5
[8] 一種水射流煤層割縫噴孔處理裝置,康勇,丁小龍,李登,粟登峰,王曉川,201510888909.X
[9] 基於亥姆霍茲不穩定性的流體瞬時流速測量裝置及方法,康勇,李登,丁小龍,方珍龍,王曉川,黃滿,201510776803.0
[10] 一種高頻無泵式高壓脈衝水炮及射流發生方法,康勇,李登,王曉川,方珍龍,王澤峰,胡毅,丁小龍,201510801104.7
[11] 一種利用飽和溶液結晶的新型高壓磨料水射流裝置及方法,康勇,李登,王曉川,方珍龍,胡毅,丁小龍,201410405513.0
[12] 超臨界二氧化碳射流圍壓釜以及監測系統,康勇,江建洪,胡毅,王曉川,黃滿,蔡燦,201610316530.6
[13] 一種射流下水管道清洗機,康勇,李登,楊曉峰,王曉川,袁波,方珍龍, 201212.26,ZL201220271291.4(已授權)
[14] 一種礦用高壓密封三角鑽桿,康勇,王曉川,李登,呂有廠,代志旭,朱同功,翟光耀,胡毅, 2013.2.13,ZL201220369799.8(已授權)
[15] 一種輔助高壓水射流割縫防噴裝置,王曉川,康勇,李登,胡毅,粟登峰,王澤峰, 2015.06.25,ZL201310229014.6(已授權)
[16] 礦用氣水渣斂集及分離裝置,楊曉峰,李登,康勇,王曉川, 2013.7.24,ZL201310168746.9(已授權)
[17] 一種可調環形射流泵,龍新平,楊雪龍,康勇,王曉川,楊曉峰, 2013.8.7,ZL201310141547.9(已授權)
[18] 一種多功能自激振盪射流鑽頭,李曉紅,盧義玉,康勇,夏彬偉,王曉川,蔣林艷, 2008.11.30,ZL200810233083.3(已授權)
榮譽與獎勵
[1] 多相振盪射流及其在低透氣性煤層中抽采瓦斯的關鍵技術研究與套用,中華人民共和國國務院,科技進步,國家二等獎,2008
[2] 複雜煤層煤與瓦斯突出災害防治新技術與裝備,中華人民共和國教育部,發明,省部一等獎,2010
[3] 深部礦井複合動力災害卸壓增透關鍵技術研究與套用,中國煤炭工業協會,科技進步,省部一等獎,2016
[4] 河南省煤礦安監局,科技進步,省部一等獎,2016
[5] 教育部新世紀人才支持計畫,2013.01-2015.12
[6] 湖北省傑出青年基金資助,2012
[7] 武漢大學“351人才計畫”珞珈青年學者,2012
[8] 武漢大學“燭光導航工程”優秀導航師,2015