亢銀虎,男,工學博士,重慶大學能源與動力工程學院副教授、博士生導師。2009年6月獲重慶大學熱能與動力工程學士學位;2015年6月獲重慶大學動力工程及工程熱物理博士學位,研究方向為燃燒學、清潔替代燃料的燃燒基礎研究、煤燃燒理論;2015年7月留校任教至今,並於2017年3月至2018年3月期間前往美國康乃狄克大學(University of Connecticut)機械工程系進行學術訪問,主要從事燃燒領域內的基礎研究,包括:CFD仿真,燃燒數值診斷,燃燒反應機理簡化,湍流/化學反應相互作用,湍流燃燒仿真,等等。擔任國際燃燒學會(CI)會員,美國化學協會(ACS)會員,中國工程熱物理學會會員;擔任《Fuel》、《energy & fuels》、《Energy Conversion and Management》等國際期刊審稿人。發表學術論文20餘篇,其中的一篇入選ESI高被引論文,獲國家發明專利授權1項,獲重慶大學優秀博士學位論文等獎勵。
基本介紹
- 中文名:亢銀虎
- 畢業院校:重慶大學
- 學位/學歷:博士
- 專業方向:燃燒科學與技術,燃燒污染物排放機理等
- 職務:重慶大學能源與動力工程學院博士生導師
人物經歷,研究方向,學術成果,科研項目,發表論文,
人物經歷
2005/09-2009/06,重慶大學,學士,熱能與動力工程
2010/09-2011/06,重慶大學,碩士,動力工程及工程熱物理,導師:盧嘯風(教授)
2011/09-2015/06,重慶大學,博士,動力工程及工程熱物理,導師:盧嘯風(教授)
2017/03-2018/03,美國康乃狄克大學,訪問學者,導師:Tianfeng Lu (教授)
研究方向
(1)燃燒科學與技術,燃燒污染物排放機理;
(2)燃燒數值模擬,湍流燃燒仿真;
(3)燃燒數值診斷,湍流/化學辯汗戲反應相互作用;
(4)微重力燃定元料燒,極端條件下的點火與燃燒不穩定機理;
(5)煤燃燒理論,循環流化床燃燒理論與技術;
學術成果
科研項目
[1]國家自然科學基金青年科學基金: “近熄火極限條件下基茅乘店辣於辯汗射立基元反應與熱質擴散耦合誘導的振盪熄火機理研究”,主持.
[2]中國博士後科學基金項目: “二甲醚/乙烯火焰碳黑顆粒物排放機理的研究”,主持.
[3]重慶市博士後科研項目特別資助: “高壓層流乙烯射流火焰碳黑顆粒物排放機理鍵捆紙及顆粒群動力學演變行轎危為研究”,主持.
[4]中央高校基本科研業務經費專項項目: “高壓和中高強度低氧稀釋燃燒條件下碳棵鑽祝黑顆粒物排放機理研究”,主持.
[5]中央高校基本科研業務經費專項項目: “基於鍋爐套用的二甲醚/甲烷摻混燃燒特性研究”,主持.
[6]科技部國家重點研發計畫(子課題): “660 MW高效超超臨界循環流化床鍋爐關鍵技術研究”,主研。
發表論文
[1]Jie Chen,Yinhu Kang, Yunpeng Zou, et al. A numerical study on near-limit extinction dynamics of dimethyl ether spherical diffusion flame. Fuel Processing Technology, 2019, 185: 79–90.
[2]Yinhu Kang, Yuming Sun, Xiaofeng Lu, et al. Soot formation characteristics of ethylene premixed burner-stabilized stagnation flame with dimethyl ether addition. Energy, 2018, 150: 709–721.
[3]Yinhu Kang, Shuang Wei, Pengyuan Zhang, Xiaofeng Lu, et al. Detailed multi-dimensional study on NOxformation and destruction mechanisms in dimethyl ether/air diffusion flame under the moderate or intense low-oxygen dilution (MILD) condition. Energy, 2017, 119: 1195–1211.
[4]Yinhu Kang, Wei Shuang, Xingchi Jiang, et al. Study on effect of dimethyl ether addition on combustion characteristics of turbulent methane/air jet diffusion flame. Fuel Processing Technology, 2017, 159: 421–435.
[5]YinhuKang, Tianfeng Lu, Xiaofeng Lu, et al. Study on combustion characteristics of dimethyl ether under the moderate or intense low-oxygen dilution condition. Energy Conversion and Management, 2016, 108: 549–565.
[6]YinhuKang, Tianfeng Lu, Xiaofeng Lu, et al. On predicting the length, width, and volume of the jet diffusion flame. Applied Thermal Engineering, 2016, 94: 799–812.
[7]YinhuKang, Quanhai Wang, Xiaofeng Lu, et al. Experimental and numerical study on NOxand CO emission characteristics of dimethyl ether/air jet diffusion flame. Applied Energy, 2015, 149: 204−224.
[8]YinhuKang, Quanhai Wang, Xiaofeng Lu, et al. Experimental and theoretical study on radiative heat transfer characteristics of dimethyl ether jet diffusion flame. Fuel, 2015, 158: 684–696.
[9]Yinhu Kang, Xiaofeng Lu, Quanhai Wang, et al. Effect of H2addition on combustion characteristics of dimethyl ether jet diffusion flame. Energy Conversion and Management, 2015, 89: 735−748.(ESI高被引論文)
[10]Yinhu Kang, Quanhai Wang, Xiaofeng Lu, et al. Experimental and theoretical study on the flow, mixing, and combustion characteristics of dimethyl ether, methane, and LPG jet diffusion flames. Fuel Processing Technology, 2015, 129: 98−112.(進入工程領域前3%)
[11]Yinhu Kang, Xiaofeng Lu, Quanhai Wang, et al. An experimental and modeling study of NOxand CO emission behaviors of dimethyl ether (DME) in a boiler furnace. Fuel Processing Technology, 2014, 122: 129−140.
[12]Yinhu Kang, Xiaofeng Lu, Quanhai Wang, et al. Experimental and modeling study on the flame structure and reaction zone size of dimethyl ether/air premixed flame in an industrial boiler furnace. Energy & Fuels, 2013, 27: 7054−7066.
[13]Xuanyu Ji, Xiaofeng Lu,Yinhu Kang, et al. Design optimization of the bell type blast cap employed in small scale industrial circulating fluidized bed boilers. Advanced Powder Technology, 2014, 25: 281−291.
[14]Jin Yan, Xiaofeng Lu, Quanhai Wang,Yinhu Kang, Jianbo Li, et al. Experimental and numerical study on air flow uniformity in the isobaric windbox of a 600 MW supercritical CFB boiler. Applied Thermal Engineering, 2017, 122: 311−321.
[15]亢銀虎,盧嘯風,嚴謹,宋楊凡,孫思聰.基於多尺度模擬的二甲醚MILD火焰NOx排放機理.燃燒科學與技術, 2018, 24(4): 345–353.
[16]亢銀虎,盧嘯風,黃小美,彭世尼,陽東.一種新型的預測射流擴散火焰長度、直徑和體積的方法.燃燒科學與技術, 2017, 23(2): 185–191.
[2]Yinhu Kang, Yuming Sun, Xiaofeng Lu, et al. Soot formation characteristics of ethylene premixed burner-stabilized stagnation flame with dimethyl ether addition. Energy, 2018, 150: 709–721.
[3]Yinhu Kang, Shuang Wei, Pengyuan Zhang, Xiaofeng Lu, et al. Detailed multi-dimensional study on NOxformation and destruction mechanisms in dimethyl ether/air diffusion flame under the moderate or intense low-oxygen dilution (MILD) condition. Energy, 2017, 119: 1195–1211.
[4]Yinhu Kang, Wei Shuang, Xingchi Jiang, et al. Study on effect of dimethyl ether addition on combustion characteristics of turbulent methane/air jet diffusion flame. Fuel Processing Technology, 2017, 159: 421–435.
[5]YinhuKang, Tianfeng Lu, Xiaofeng Lu, et al. Study on combustion characteristics of dimethyl ether under the moderate or intense low-oxygen dilution condition. Energy Conversion and Management, 2016, 108: 549–565.
[6]YinhuKang, Tianfeng Lu, Xiaofeng Lu, et al. On predicting the length, width, and volume of the jet diffusion flame. Applied Thermal Engineering, 2016, 94: 799–812.
[7]YinhuKang, Quanhai Wang, Xiaofeng Lu, et al. Experimental and numerical study on NOxand CO emission characteristics of dimethyl ether/air jet diffusion flame. Applied Energy, 2015, 149: 204−224.
[8]YinhuKang, Quanhai Wang, Xiaofeng Lu, et al. Experimental and theoretical study on radiative heat transfer characteristics of dimethyl ether jet diffusion flame. Fuel, 2015, 158: 684–696.
[9]Yinhu Kang, Xiaofeng Lu, Quanhai Wang, et al. Effect of H2addition on combustion characteristics of dimethyl ether jet diffusion flame. Energy Conversion and Management, 2015, 89: 735−748.(ESI高被引論文)
[10]Yinhu Kang, Quanhai Wang, Xiaofeng Lu, et al. Experimental and theoretical study on the flow, mixing, and combustion characteristics of dimethyl ether, methane, and LPG jet diffusion flames. Fuel Processing Technology, 2015, 129: 98−112.(進入工程領域前3%)
[11]Yinhu Kang, Xiaofeng Lu, Quanhai Wang, et al. An experimental and modeling study of NOxand CO emission behaviors of dimethyl ether (DME) in a boiler furnace. Fuel Processing Technology, 2014, 122: 129−140.
[12]Yinhu Kang, Xiaofeng Lu, Quanhai Wang, et al. Experimental and modeling study on the flame structure and reaction zone size of dimethyl ether/air premixed flame in an industrial boiler furnace. Energy & Fuels, 2013, 27: 7054−7066.
[13]Xuanyu Ji, Xiaofeng Lu,Yinhu Kang, et al. Design optimization of the bell type blast cap employed in small scale industrial circulating fluidized bed boilers. Advanced Powder Technology, 2014, 25: 281−291.
[14]Jin Yan, Xiaofeng Lu, Quanhai Wang,Yinhu Kang, Jianbo Li, et al. Experimental and numerical study on air flow uniformity in the isobaric windbox of a 600 MW supercritical CFB boiler. Applied Thermal Engineering, 2017, 122: 311−321.
[15]亢銀虎,盧嘯風,嚴謹,宋楊凡,孫思聰.基於多尺度模擬的二甲醚MILD火焰NOx排放機理.燃燒科學與技術, 2018, 24(4): 345–353.
[16]亢銀虎,盧嘯風,黃小美,彭世尼,陽東.一種新型的預測射流擴散火焰長度、直徑和體積的方法.燃燒科學與技術, 2017, 23(2): 185–191.
