齊聰[中國礦業大學電氣與動力工程學院副教授]

教育背景

哈爾濱工業大學 博士 -2013年

東北電力大學 碩士 -2010年

石家莊鐵道學院（現石家莊鐵道大學） 學士 -2007年

工作經歷

2017-至今 中國礦業大學，電氣與動力工程學院，副教授

2013-2016 中國礦業大學，電力工程學院，講師

榮譽稱號

(14)獲得2018年促進就業先進個人稱號；

(13) 獲得2018年中國礦業大學教學成果二等獎；(排名第二)；

(12) 獲得2017年度教職工考核校級優秀；

(11) 獲得2017年中國礦業大學百佳本科教學教師稱號；

(10)獲得2017年全國煤炭行業教育教學(職工培訓)成果獎1項(排名第三)；

(9) 獲得2016-2017年度學生教學綜合評價優秀；

(8) 獲得2016年度教職工考核校級優秀；

(7) 獲得“中國礦業大學2016屆本科畢業設計優秀指導教師”的稱號；

(6) 獲得2016年度電力工程學院講課比賽二等獎；

(5) 獲得2015-2016學年第二學期“中國礦業大學徐海學院優秀外聘教師”稱號；

(4) 獲得2015年度教職工考核校級優秀；

(3) 獲得2014-2015年度學生教學評價優秀；

(2) 獲得2014年度教職工考核院級優秀；

(1) 獲得2013-2014年度“優秀工會活動積極分子”的稱號

社會、學會及學術兼職

擔任國家自然科學基金青年和面上通訊評審專家，擔任International Journal of Heat and Mass Transfer、ASME Journal of Heat Transfer、Applied Thermal Engineering、Journal of Molecular Liquids、Chinese Journal of Chemical Engineering、化工學報等SCI/EI期刊雜誌的審稿人。

研究領域

高新技術中的多相流、強化換熱與微納尺度傳熱傳質問題研究與套用。主要針對高新技術中的大功率電子元件的熱管理、高溫超導體的冷卻、太空飛行器的熱控制、低溫環境下的傳熱以及換熱設備的強化換熱問題，對納米流體的微納尺度傳熱傳質，多相流動，相變傳熱以及格子Boltzmann方法進行研究。為高效解決高新技術中傳熱傳質問題提供理論依據，開發具有更高換熱強度的高效緊湊型換熱設備。

科研項目

(主持項目)

[11] 國家青年自然科學基金1項 (NO.51606214)；

[10] 江蘇省自然科學基金面上項目1項(NO.BK20181359)；

[9] 中國博士後基金1項(NO.2014M551694)；

[8] 中央高校基本科研業務費--學科前沿方向研究專項1項(NO. 2015XKMS063)；

[7] 中央高校基本科研業務費專項資金1項(NO. 2014QNA23)；

[6] 中國礦業大學第六批“啟航計畫”；

[5] 中國礦業大學第十批校級優秀青年骨幹教師；

[4] 中國礦業大學引進人才科研啟動經費1項；

[3]中國礦業大學研究生教育教學改革研究與實踐項目1項(NO.YJSJG-2018-037)；

[2] 教育部高等學校能源動力類專業教育教學改革項目1項(NO. NDJZW2016Y-73)；

[1] 中國礦業大學教育教學改革與建設項目(NO.2016QN47)。

主要成果

(SCI論文32篇，EI論文3篇，*通訊作者，JCR一區21篇)

[35] Guiqing Wang, Cong Qi*, Maoni Liu, Chunyang Li, Yuying Yan, Lin Liang.Effect of corrugation pitch on thermo-hydraulic performance of nanofluids in corrugated tubes of heat exchanger system based on exergy efficiency[J]. Energy Conversion and Management,2019, 186: 51-65.( SCI)

[34] Ning Zhao, Cong Qi*, Tiantian Chen, Jinghua Tang, Xin Cui. Experimental study on influences of cylindrical grooves on thermal efficiency, exergy efficiency and entropy generation of CPU cooled by nanofluids [J]. International Journal of Heat and Mass Transfer, 2019, 135: 16-32. ( SCI)

[33] Siyuan Mei, Cong Qi*, Maoni Liu, Fan Fan, Lin Liang. Effects of paralleled magnetic field on thermo-hydraulic performances of FeO-water nanofluids in a circular tube [J]. International Journal of Heat and Mass Transfer, 2019, 134: 707-721. ( SCI)

[32] Dat D. Vo, Jalal Alsarraf, Alireza Moradikazerouni*, Masoud Afrand, Hamze Salehipour, Cong Qi*. Numerical investigation of γ-AlOOH nano-fluid convection performance in a wavy channel considering various shapes of nanoadditives [J]. Powder Technology,2019, 345: 649-657. ( SCI)

[31] Mohammad RezaSafaei, Ahmad Hajizadeh*, Masoud Afrand, Cong Qi*, HoomanYarmand, Nurin Wahidah Binti Mohd Zulkifli. Evaluating the effect of temperature and concentration on the thermal conductivity of ZnO-TiO/EG hybrid nanofluid using artificial neural network and curve fitting on experimental data [J]. Physica A: Statistical Mechanics and its Applications, 2019, 519: 209-216. ( SCI )

[30] Ning Zhao, Leixin Guo, Cong Qi*, Tiantian Chen, Xin Cui*.Experimental study on thermo-hydraulic performance of nanofluids in CPU heat sink with rectangular grooves and cylindrical bugles based on exergy efficiency[J]. Energy Conversion and Management,2019, 181: 235-246.( SCI)

[29]Xinfeng Zhai, Cong Qi*, Yuhang Pan, Tao Luo, Lin Liang*.Effects of screw pitches and rotation angles on flow and heat transfer characteristics of nanofluids in spiral tubes[J]. International Journal of Heat and Mass Transfer, 2019, 130:989-1003( SCI)

[28] Siyuan Mei, Cong Qi*, Tao Luo, Xinfeng Zhai, Yuying Yan*. Effects of magnetic field on thermo-hydraulic performance of FeO-water nanofluids in a corrugated tube [J]. International Journal of Heat and Mass Transfer, 2019, 128: 24-45( SCI)

[27] Cong Qi, Maoni Liu, Tao Luo, Yuhang Pan, Zhonghao Rao. Effects of twisted tape structures on thermo-hydraulic performances of nanofluids in a triangular tube [J]. International Journal of Heat and Mass Transfer, 2018, 127(Part C):146-159.( SCI)

[26] Yongliang Wan, Runhan Wu, Cong Qi*, Gang Duan, Ruizhao Yang.Experimental study on thermo-hydraulic performances of nanofluids flowing through a corrugated tube filled with copper foam in heat exchange systems.[J]. Chinese Journal of Chemical Engineering, 2018.doi:10.1016/j.cjche.2018.07.007( SCI)

[25] Cong Qi*, Maoni Liu, Guiqing Wang, Yuhang Pan, Lin Liang. Experimental research on stabilities, thermophysical properties and heat transfer enhancement of nanofluids in heat exchanger systems [J]. Chinese Journal of Chemical Engineering, 2018. doi:10.1016/j.cjche.2018.03.021( SCI)

[24] Cong Qi*, Guiqing Wang, Yuying Yan*, Siyuan Mei, Tao Luo.Effect of rotating twisted tape on thermo-hydraulic performances of nanofluids in heat-exchanger systems[J]. Energy Conversion and Management, 2018,166: 744-757.( SCI)

[23] Cong Qi*, Ning Zhao, Xin Cui, Tiantian Chen, Jinding Hu. Effects of half spherical bulges on heat transfer characteristics of CPU cooled by TiO-water nanofluids [J]. International Journal of Heat and Mass Transfer, 2018, 123:320-330. ( SCI)

[22]Guiqing Wang, CongQi*,Yuhang Pan,Chunyang Li. Experimental study on heat transfer and flow characteristics of two kinds of porous metal foam tubes filled with water [J]. Thermal Science, 2018, 22(2): S497-S505. ( SCI)

[21] Cong Qi, Liyuan Yang, Tiantian Chen, Zhonghao Rao*. Experimental study on thermo-hydraulic performances of TiO-HO nanofluids in a horizontal elliptical tube [J]. Applied Thermal Engineering, 2018, 129: 1315-1324. ( SCI)

[20] Cong Qi* ,Yong Liang Wan, Gui Qing Wang and Dong Tai Han*. Study on stabilities, thermophysical properties and natural convective heat transfer characteristics of TiO-water nanofluids [J]. Indian Journal of Physics,2018, 92(4): 461-478( SCI)

[19] Cong Qi, Jinding Hu, Maoni Liu, Leixin Guo, Zhonghao Rao*. Experimental study on thermo-hydraulic performances of CPU cooled by nanofluids [J]. Energy Conversion and Management, 2017, 153: 557-565( SCI)

[18] Cong Qi*, Yong-Liang Wan, Chun-Yang Li, Dong-Tai Han, Zhong-Hao Rao*. Experimental and numerical research on the flow and heat transfer characteristics of TiO-water nanofluids in a corrugated tube [J]. International Journal of Heat and Mass Transfer, 2017, 115(Part B): 1072-1084. ( SCI)

[17] Cong Qi*, Chunyang Li, Guiqing Wang. Experimental study on the flow and heat transfer characteristics of TiO-water nanofluids in a spirally fluted tube [J]. Nanoscale Research Letters, 2017, 12: 516-527 ( SCI)

[16] Cong Qi*, Guiqing Wang, Yifeng Ma, Leixin Guo. Experimental research on stability and natural convection of TiO-water nanofluid in enclosures with different rotation angles [J]. Nanoscale Research Letters, 2017, 12(1): 396-410 ( SCI)

[15] Xin Cui , Cong Qi*, Liang Li, Yimin Li*, Song Li. Effect of Ni–Co ternary molten salt catalysts on coal catalytic pyrolysis process [J]. International Journal of Thermophysics, 2017, 38(8): 116-134. ( SCI)

[14] Cong Qi*, Liyuan Yang, Guiqing Wang. Numerical study on convective heat transfer enhancement in horizontal rectangle enclosures filled with Ag-Ga nanofluid [J]. Nanoscale Research Letters, 2017, 12: 326-335. ( SCI)

[13] Cong Qi, Guiqing Wang, Liyuan Yang, Yongliang Wan, Zhonghao Rao*. Two-phase lattice Boltzmann simulation of the effects of base fluid and nanoparticle size on natural convection heat transfer of nanofluid [J]. International Journal of Heat and Mass Transfer, 2017, 105: 664-672. ( SCI)

[12] 萬永亮， 齊聰*，李春陽，韓東太. 基於熱舒適性納米噴泉的流動與傳熱特性研究. 化工進展，2016, 35(12): 3807-3817. ( EI)

[11] Cong Qi, Yongliang Wan, Lin Liang, Zhonghao Rao and Yimin Li*.Numerical and experimental investigation into the effects of nanoparticle mass fraction and bubble size on boiling heat transfer of TiO-water nanofluid [J]. ASME Journal of Heat Transfer, 2016, 138: 081503. ( SCI)

[10] Cong Qi, Lin Liang, Zhonghao Rao*. Study on the flow and heat transfer of liquid metal base nanofluid with different nanoparticle radiuses based on two-phase lattice Boltzmann method. International Journal of Heat and Mass Transfer, 2016, 94: 316-326. ( SCI)

[9] Cong Qi*, Xin Cui*, Yimin Li, Yurong He. Lattice Boltzmann simulation of boiling bubbles coalescence in AlO-water nanofluid. Journal of Computational and Theoretical Nanoscience, 2015, 12(10): 3556-3565.( SCI)

[8] 齊聰* ,何光艷, 李意民, 何玉榮. 方腔內 Cu/AlO水混合納米流體自然對流的格子 Boltzmann 模擬[J]. 物理學報, 2015, 64(2): 024703. ( SCI)

[7] Cong Qi*, Xin Cui, Yibo Liu, Zhongbo Yang, Chao Huang. Natural convection heat transfer of liquid metal gallium nanofluids in a rectangular enclosure [J]. Heat Transfer—Asian Research, 2015, 46(1): 1-17.( EI)

[6] Yanwei Hu, Yurong He*, Cong Qi, Baocheng Jiang, H. Inaki Schlaberg. Experimental and numerical study of natural convection in a square enclosure filled with nanofluid[J]. International Journal of Heat and Mass Transfer, 2014, 78: 380-392. ( SCI)

[5] 齊聰，何玉榮*，閆盛楠，田楓林. 矩形腔內納米流體自然對流的兩相格子Boltzmann模擬. 工程熱物理學報, 2014, 35(2): 282-286. ( EI)

[4] Cong Qi ,Yurong He*,Shengnan Yan,Fenglin TianandYanwei Hu .Numerical simulation of natural convection in a square enclosure filled with nanofluid using the two-phase lattice Boltzmann method. Nanoscale Research Letters, 2013, 8(1): 56-71. ( SCI)

[3] Cong Qi, Yurong He*, Yanwei Hu, Baocheng Jiang, Tianzhu Luan*, Yulong Ding. Experimental study on boiling heat transfer of α-AlO-water nanofluid. Nanoscience and Nanotechnology Letters, 2013, 5(8): 895-901. ( SCI)

[2] Cong Qi*, Yurong He*, Yanwei Hu, Juancheng Yang, Fengchen Li, Yulong Ding. Natural convection of Cu-Gallium nanofluid in enclosures. ASME Journal of Heat Transfer, 2011, 133(12): 122504-1-122504-8. ( SCI)

[1] Yurong He*, Cong Qi*, Yanwei Hu, Bin Qin, Yulong Ding. Lattice Boltzmann simulation of alumina-water nanofluid in a square cavity. Nanoscale Research Letters, 2011, 6(1): 184-191. ( SCI)