期刊论文
(*通讯作者)
[59]Tiantian Chen, Cong Qi*, Jinghua Tang, Guiqing Wang, Yuying Yan, Numerical and experimental study on optimization of CPU system cooled by nanofluids, Case Studies in Thermal Engineering, 2021,24: 100848. (SCI)
[58]Xinfeng Zhai, Cong Qi*, Yuqi Yang, Jiangyun Wang, Thermo-hydraulic performance of nanofluids under adjustable magnetic field, Applied Thermal Engineering, 2021, 186: 116491. (SCI)
[57]Cong Qi*, Yuxing Wang, Zi Ding, Jianglin Tu, Mengxin Zhu, Application of superhydrophobic surface on boiling heat transfer characteristics of nanofluids, Energy Engineering, 2021, Accepted. (EI)
[56]涂江林,齐聪*,李春阳,段康伟. 光热转换系统中强化结构对纳米流体自然对流换热的影响,东北电力大学学报,2021,41(1): 8-20.
[55] 齐聪*,李可傲,李春阳. 微肋结构对纳米流体绕流圆柱热性能的影响. 化工学报, 2020,DOI: 10.11949/0438-1157.20200916. (EI)
[54] Cong Qi*, Zi Ding, Jianglin Tu, Yuxing Wang, Yinjie Wang. Study on backward-facing step flow and heat transfer characteristics of hybrid nanofluids. Journal of Thermal Analysis and Calorimetry, 2020, https://doi.org/10.1007/s10973-020-10379-6 (SCI)
[53] Cong Qi*, Tiantian Chen, Jianglin Tu, Yuxing Wang, Effects of heat sink structure on heat transfer performance cooled by semiconductor and nanofluids, Korean Journal of Chemical Engineering, 2020, 37: 2104-2116. (SCI)
[52] Fan Fan, Cong Qi*, Qi Liu, Mohsen Sheikholeslami, Effect of twisted turbulator perforated ratio on thermal and hydraulic performance of magnetic nanofluids in a novel thermal exchanger system, Case Studies in Thermal Engineering, 2020, 22: 100761.(SCI)
[51] Cong Qi*, Jinghua Tang, Fan Fan, Yuying Yan, Effects of magnetic field on thermo-hydraulic behaviors of magnetic nanofluids in CPU cooling system, Applied Thermal Engineering, 2020, 179: 115717. (SCI)
[50] Fan Fan, Cong Qi*, Jinghua Tang, Qi Liu, Xuehui Wang, Yuying Yan, A novel thermal efficiency analysis on the thermo-hydraulic performance of nanofluids in an improved heat exchange system under adjustable magnetic field, Applied Thermal Engineering, 2020, 179:115688. (SCI)
[49] Cong Qi*, Tiantian Chen, Jianglin Tu, Yuying Yan, Effects of metal foam on exergy and entropy of nanofluids in a heat sink applied for thermal management of electronic components, International Journal of Energy Research, 2020, 44(13): 10628-10651. (SCI)
[48] Cong Qi*, Tiantian Chen, Yuxing Wang, Liyuan Yang, Experimental study on thermo-hydraulic performance of nanofluids in diverse axial ratio elliptical tubes with an inbuilt turbolator, Korean Journal of Chemical Engineering, 2020, 37: 1466-1481. (SCI)
[47] Fan Fan, Cong Qi*, Jinghua Tang, Qi Liu, Thermal and exergy efficiency of magnetohydrodynamic Fe3O4-H2O nanofluids flowing through a built‐in twisted turbulator corrugated tube under magnetic field, Asia-Pacific Journal of Chemical Engineering, 2020, 15(5): e2500. (SCI)
[46] Cong Qi*, Chengchao Wang, Jinghua Tang, Dongtai Han. Experimental study on flow and heat transfer characteristics of nanofluids in a triangular tube at different rotation angles, Energy Engineering, 2020, 117(2): 63-78. (EI)
[45] Cong Qi*, Keao Li, Chunyang Li, Bichen Shang, Yuying Yan. Experimental study on thermal efficiency improvement using nanofluids in heat sink with heated circular cylinder, International Communications in Heat and Mass Transfer, 2020, 114: 104589. (SCI)
[44] Cong Qi*, Yuxing Wang, Jinghua Tang. Effect of squid fin bionic surface and magnetic nanofluids on CPU cooling performance under magnetic field, Asia-Pacific Journal of Chemical Engineering, 2020, 15(4): e2482. (SCI)
[43] Cong Qi*, JinghuaTang, Guiqing Wang. Natural convection of composite nanofluids based on a two-phase lattice Boltzmann model, Journal of Thermal Analysis and Calorimetry, 2020, 141: 277-287. (SCI)
[42] Guiqing Wang, Cong Qi*, JinghuaTang. Natural convection heat transfer characteristics of TiO2-H2O nanofluids in a cavity filled with metal foam, Journal of Thermal Analysis and Calorimetry, 2020, 141: 15–24. (SCI)
[41] Cong Qi*, Chunyang Li, Gongbin Zhao, Maoni Liu, Dongtai Han*. Influence of rotation angle of a triangular tube with built-in twisted tape on the thermal-exergy efficiency and entropy generation of nanofluids in the heat exchange system, Asia-Pacific Journal of Chemical Engineering, 2020, 15(1): e2401. (SCI)
[40] Cong Qi*, Fan Fan, Yuhang Pan, Maoni Liu, Yuying Yan. Effects of turbulator with round hole on the thermo-hydraulic performance of nanofluids in a triangle tube. International Journal of Heat and Mass Transfer, 2020, 146: 118897. (SCI) 高被引论文
[39] Cong Qi*, Jinghua Tang, Zi Ding, Yuying Yan, Leixin Guo, Yifeng Ma. Effects of rotation angle and metal foam on natural convection of nanofluids in a cavity under an adjustable magnetic field. International Communications in Heat and Mass Transfer, 2019, 109: 104349. (SCI)
[38] Cong Qi*, Tao Luo, Maoni Liu, Fan Fan, Yuying Yan. Experimental study on the flow and heat transfer characteristics of nanofluids in double-tube heat exchangers based on thermal efficiency assessment. Energy Conversion and Management, 2019, 197: 111877. (SCI)
[37] Cong Qi*, Xinfeng Zhai, Maoni Liu, Keao Li, Fan Fan, Lin Liang. Experimental study on thermo-hydraulic performance of nanofluids upward flowing through helical tubes of heat exchanger system based on thermal efficiency. Asia-Pacific Journal of Chemical Engineering, 2019, 14(4): e2320. (SCI)
[36] Cong Qi*, Maoni Liu, Jinghua Tang. Influence of triangle tube structure with twisted tape on the thermo-hydraulic performance of nanofluids in heat-exchange system based on thermal and exergy efficiency. Energy Conversion and Management, 2019, 192: 243-268. (SCI) 高被引论文
[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 Fe3O4-water nanofluids in a circular tube [J]. International Journal of Heat and Mass Transfer, 2019, 134: 707-721. (SCI) 高被引论文
[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-TiO2/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) 高被引论文
[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) 高被引论文
[28] Siyuan Mei, Cong Qi*, Tao Luo, Xinfeng Zhai, Yuying Yan*. Effects of magnetic field on thermo-hydraulic performance of Fe3O4-water nanofluids in a corrugated tube [J]. International Journal of Heat and Mass Transfer, 2019, 128: 24-45(SCI) 高被引论文
[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, 26: 2431-2440.(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, 26: 2420-2430. (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 TiO2-water nanofluids [J]. International Journal of Heat and Mass Transfer, 2018, 123: 320-330. (SCI)
[22] Guiqing Wang, Cong Qi*, 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 TiO2-H2O 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 TiO2-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 TiO2-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 TiO2-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 TiO2-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] 万永亮,齐聪*,李春阳,韩东太. 基于热舒适性纳米喷泉的流动与传热特性研究. 化工进展,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 TiO2-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 Al2O3-water nanofluid. Journal of Computational and Theoretical Nanoscience, 2015, 12(10): 3556-3565.(SCI)
[8] 齐聪*, 何光艳, 李意民, 何玉荣. 方腔内 Cu/Al2O3水混合纳米流体自然对流的格子 Boltzmann 模拟[J]. 物理学报, 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] 齐聪,何玉荣*,闫盛楠,田枫林. 矩形腔内纳米流体自然对流的两相格子Boltzmann模拟. 工程热物理学报, 2014, 35(2): 282-286. (EI)
[4] Cong Qi, Yurong He*, Shengnan Yan, Fenglin Tian and Yanwei 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-Al2O3-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)
指导研究生情况(在读):
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2018级
陈田田
学 历: 2013/9-2017/6 中国矿业大学徐海学院 学士;2018/9-2021/6 中国矿业大学 硕士 动力工程及工程热物理
发表论文:4篇SCI论文
汤京华
学 历: 2012/9-2016/6 北京科技大学 学士;2018/9-2021/6 中国矿业大学 硕士 动力工程
发表论文:3篇SCI论文
樊帆
学 历: 2014/9-2018/6 苏州大学 学士;2018/9-2021/6 中国矿业大学 硕士 动力工程
发表论文:4篇SCI论文
获 奖:2020年国家奖学金
李可傲
学 历: 2014/9-2018/6 湖南大学 学士;2018/9-2021/6 中国矿业大学 硕士 动力工程及工程热物理
发表论文:1篇SCI论文,1篇EI论文
李春阳
学 历: 2014/9-2018/6 中国矿业大学 学士;2018/9-2021/6 中国矿业大学 硕士 动力工程
发表论文:1篇SCI论文
................................................................................................
2019级
王宇星
学 历: 2014/9-2018/6 北京科技大学 学士;2019/9-2022/6 中国矿业大学 硕士 动力工程
发表论文:1篇SCI论文,1篇EI论文
丁子
学 历: 2014/9-2018/7 郑州大学 学士;2019/9-2022/6 中国矿业大学 硕士 动力工程
发表论文:1篇SCI论文
发明专利:申请1项
涂江林
学 历: 2015/9-2019/7 海南大学 学士;2019/9-2022/6 中国矿业大学 硕士 动力工程
发表论文:1篇论文
孙亮
学 历: 2015/9-2019/7 南京师范大学 学士;2019/9-2022/6 中国矿业大学 硕士 动力工程及工程热物理
王成超
学 历: 2015/9-2019/6 中国矿业大学 学士;2019/9-2022/6 中国矿业大学 硕士 动力工程及工程热物理
发表论文:1篇EI论文
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2020级
唐志博
学 历: 2015/9-2019/7 华北水利水电大学 学士;2020/9-2023/6 中国矿业大学 硕士动力工程及工程热物理
陈斓琪
学 历: 2016/9-2020/7 中国矿业大学 学士;2020/9-2023/6 中国矿业大学 硕士 动力工程
田震
学 历: 2016/9-2020/7 中国矿业大学徐海学院 学士;2020/9-2023/6 中国矿业大学 硕士 动力工程
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已毕业
万永亮(2015级动力工程,2年制): 发表4篇SCI论文(中科院一区1篇)、1篇EI论文。获得2017届校级优秀硕士论文、优秀毕业生、2018年江苏省优秀硕士论文。毕业去向:陕汽控股集团有限公司汽车工程研究院。
王桂卿(2016级热能工程): 发表6篇SCI论文(中科院一区3篇),申请发明专利1项。连续2次获得2017、2018国家奖学金、连续2次获得2017、2018研究生校级优秀学生,获得2019年优秀创新硕士奖学金,毕业去向:中国矿业大学徐海学院。
杨丽媛(2016级动力机械及工程): 发表2篇SCI论文(JCR一区1篇),毕业去向:杭州大和热磁电子有限公司。
赵宁(2017级动力工程,2年制): 发表3篇SCI论文(中科院一区3篇),授权发明专利1项,获得2019年优秀创新硕士奖学金,毕业去向:徐工集团。
梅思远(2017级动力工程,2年制): 发表2篇SCI论文(中科院一区2篇),申请发明专利1项,获得2019年优秀创新硕士奖学金,毕业去向:徐工集团。
翟新锋(2017级动力工程,2年制): 发表3篇SCI论文(中科院一区1篇),获得2019年优秀创新硕士奖学金,毕业去向:中国石油大学(北京)克拉玛依校区。
罗涛(2017级动力工程,2年制): 发表1篇SCI论文(中科院一区1篇),毕业去向:合肥鑫晟光电科技有限公司。
潘宇航(2017级动力工程,2年制): 发表1篇SCI论文(中科院一区1篇), 毕业去向:徐工集团。
刘毛妮(2017级流体机械及工程):发表3篇SCI论文(中科院一区2篇),毕业去向:徐工集团。
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指导本科生情况:
(1) 项目:
[8] 高彦康、侯明硕、王儒儒、肖琦:获得2019级校级大学生创新计划项目1项 (指导教师)
[7] 石涛、王崇懿、张文涛、王寅杰:获得2019级校级大学生创新计划项目1项 (指导教师)
[6] 赵睿、王昊书、尚碧沉、韦煊柔、曲硕:获得2018级校级大学生创新计划项目1项 (指导教师)
[5] 马一峰、郭磊鑫:获得2017年国家级大学生创新训练计划1项 (指导教师)
[4] 刘鹏飞:获得2017年省级大学生创新计划项目1项 (指导教师)
[3] 邱林林:获得2017年校级大学生创新计划项目1项 (指导教师)
[2] 李春阳:获得2016年省级大学生创新计划项目1项 (指导教师)
[1] 罗承源:获得2016年校级大学生创新计划项目1项 (指导教师)。
(2) 毕业设计:
省级优秀毕业设计:胡金顶(2018)(二等奖)
校级优秀毕业设计:刘一博(2016)、胡金顶(2018)
院级优秀毕业设计:赵睿(2020), 李春阳(2018)、杜明浩(2018)、周旭(2017)、万永亮(2015)、于博文(2015)、王凯音(2015徐海)、张凯(2015徐海)