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        當前位置: 首頁 > 師資隊伍 > 教授風采 > 正文

        潘劍鋒

        個人簡歷

        出生年月:19782

        任職年月:20128

        職稱: 教授

        黨政職務: 副院長

        技術職務:教授

        所在學科:動力工程及工程熱物理

        導師:博導/碩導

        最高學位:博士

        學術任職:

        1. Energy Engineering》副主編、《燃燒科學與技術》編委、能源研究與利用》編委;

        2  中國教育學會工程熱物理專業委員會(高校工程熱物理學會)理事;

        3. 江蘇省工程熱物理學會理事;

        4. 燃燒分專委員會媒體委員會成員、國際燃燒學會會員;

        5. 國外學術期刊Applied Energy、Energy、Fuel、Energy Conversion and Management、Energy & Fuels等刊物的審稿專家。

        研究領域

        1. 動力機械燃燒過程與燃燒系統;

        2. 氣液燃料燃燒、微尺度燃燒;

        3. 轉子發動機工作過程、緩燃向爆震轉捩過程。

        在研項目

        1.  國家自然科學基金面上項目,壁面附近火焰特性及火焰/壁面的相互作用機制、2020-2023;

        2. 國家自然科學基金重大研究計劃培育項目,緩燃向爆震轉捩過程中湍流與燃燒的相互作用、2017-2019;

        3. 國家自然科學基金面上項目,轉子發動機燃料適應性及其缸內流動和燃燒的耦合機理研究、2016-2019;

        4.  江蘇省333工程”,轉子發動機缸內流動和燃燒的耦合機理,2017-2018。

        主要論文

        1. 倪靖, 潘劍鋒, 姜超, 陳祥, 張順. 摻氫比對甲烷-氧氣爆轟特性的影響. 爆炸與沖擊, 2020. 40(04): p. 25-33.

        2. J. Pan, C. Zhang, Z. Pan, D. Wu, Y. Zhu, Q. Lu and Y. Zhang, Investigation on the effect of bluff body ball on the combustion characteristics for methane/oxygen in micro combustor. Energy, 2020. 190: p. 116465.

        3. P. Otchere, J. Pan, B. Fan, W. Chen, Y. Lu and L. Jianxing, Mixture formation and combustion process of a biodiesel fueled direct injection rotary engine (DIRE) considering injection timing, spark timing and equivalence ratio – CFD study. Energy Conversion and Management, 2020. 217: p. 112948.

        4. J. Ni, J. Pan, Y. Zhu, C. Jiang, J. Li and E.K. Quaye, Effect of arc obstacles blockage ratio on detonation characteristics of hydrogen-air. Acta Astronautica, 2020. 170: p. 188-197.

        5. Y. Lu, J. Pan, B. Fan, P. Otchere, W. Chen and B. Cheng, Research on the application of aviation kerosene in a direct injection rotary engine – Part 2: Spray combustion characteristics and combustion process under optimized injection strategies. Energy Conversion and Management, 2020. 203: p. 112217.

        6. B. Fan, Y. Zhang, J. Pan, P. Otchere, Y. Wang and Y. Zeng, The formation mechanisms of flow field in a compound intake ported rotary engine considering apex seal leakage. Environmental Progress & Sustainable Energy, 2020.

        7. W. Chen, J. Pan, Q. Zuo, J. Zhang, Z. Wang, B. Zhang, G. Zhu and B. Fan, Combustion performance improvement of a diesel fueled Wankel stratified-charge combustion engine by optimizing assisted ignition strategy. Energy Conversion and Management, 2020. 205: p. 112324.

        8. Y. Zhang, J. Pan, A. Tang, Q. Lu, Z. Zha and S. Bani, Effects of inlet parameters on combustion characteristics of premixed CH4/Air in micro channels. Journal of the Energy Institute, 2019. 92(3): p. 824-834.

        9. Z. Pan, K. Chen, J. Qi, P. Zhang, Y. Zhu, J. Pan and M. Gui, The propagation characteristics of curved detonation wave: Experiments in helical channels. Proceedings of the Combustion Institute, 2019. 37(3): p. 3585-3592.

        10. J. Pan, Y. Zhang, Q. Lu, X. Shao, E.K. Quaye and Y. Zhu, Numerical study on stability and influencing factors of heterogeneous reaction for hydrogen/oxygen mixture in planar catalytic micro combustor. International Journal of Hydrogen Energy, 2019. 44(29): p. 15587-15597.

        11. J. Pan, N. Miao, Z. Lu, Q. Lu, W. Yang, Z. Pan and Y. Zhang, Experimental and numerical study on the transition conditions and influencing factors of hetero-/homogeneous reaction for H2/Air mixture in micro catalytic combustor. Applied Thermal Engineering, 2019. 154: p. 120-130.

        12. Y. Lu, J. Pan, B. Fan, P. Otchere, W. Chen and B. Cheng, Research on the application of aviation kerosene in a direct injection rotary engine-Part 1: Fundamental spray characteristics and optimized injection strategies. Energy Conversion and Management, 2019. 195: p. 519-532.

        13. Q. Lu, J. Gou, J. Pan, Y. Zhang, J. Zhu and E.K. Quaye, Comparison of the effect of heat release and products from heterogeneous reaction on homogeneous combustion of H2/O2 mixture in the catalytic micro combustor. International Journal of Hydrogen Energy, 2019. 44(59): p. 31557-31566.

        14. J. Li, J. Pan, C. Jiang, J. Ni, Z. Pan and P. Otchere, Effect of hydrogen addition on the detonation performances of methane/oxygen at different equivalence ratios. International Journal of Hydrogen Energy, 2019. 44(51): p. 27974-27983.

        15. W. Chen, J. Pan, Y. Liu, B. Fan, H. Liu and P. Otchere, Numerical investigation of direct injection stratified charge combustion in a natural gas-diesel rotary engine. Applied Energy, 2019. 233-234: p. 453-467.

        16. Y. Zhang, J. Pan, Y. Zhu, S. Bani, Q. Lu, J. Zhu and H. Ren, The effect of embedded high thermal conductivity material on combustion performance of catalytic micro combustor. Energy Conversion and Management, 2018. 174: p. 730-738.

        17. Y. Zhang, J. Pan, Z. Lu, A. Tang, Y. Zhu and S. Bani, The characteristics of pure heterogeneous reaction for H2/Air mixture in the micro-combustors with different thermophysical properties. Applied Thermal Engineering, 2018. 141: p. 741-750.

        18. Z. Pan, J. Qi, J. Pan, P. Zhang, Y. Zhu and M. Gui, Fabrication of a helical detonation channel: Effect of initial pressure on the detonation propagation modes of ethylene/oxygen mixtures. Combustion and Flame, 2018. 192: p. 1-9.

        19. J. Pan, W. Chen, W. Yang, M. Xiao, Y. Zhu and B. Fan, Effects of intake and exhaust valve timing on the performance of an air-powered rotary engine. Environmental Progress & Sustainable Energy, 2018. 37(4): p. 1462-1474.

        20. B. Fan, Y. Zhang, J. Pan, Y. Liu, W. Chen, P. Otchere, A. Wei and R. He, The influence of hydrogen injection strategy on mixture formation and combustion process in a port injection (PI) rotary engine fueled with natural gas/hydrogen blends. Energy Conversion and Management, 2018. 173: p. 527-538.

        21. B. Fan, J. Pan, Y. Liu, Y. Zhu, Z. Pan, W. Chen and P. Otchere, Effect of hydrogen injection strategies on mixture formation and combustion process in a hydrogen direct injection plus natural gas port injection rotary engine. Energy Conversion and Management, 2018. 160: p. 150-164.

        22. B. Fan, J. Pan, Y. Liu, W. Chen, Y. Lu and P. Otchere, Numerical investigation of mixture formation and combustion in a hydrogen direct injection plus natural gas port injection (HDI + NGPI) rotary engine. International Journal of Hydrogen Energy, 2018. 43(9): p. 4632-4644.

        23. W. Chen, J. Pan, B. Fan, P. Otchere, N. Miao and Y. Lu, Numerical investigation of dual-fuel injection timing on air-fuel mixing and combustion process in a novel natural gas-diesel rotary engine. Energy Conversion and Management, 2018. 176: p. 334-348.

        24. S. Bani, J. Pan, A. Tang, Q. Lu and Y. Zhang, Numerical investigation of key parameters of the porous media combustion based Micro-Thermophotovoltaic system. Energy, 2018. 157: p. 969-978.

        25. S. Bani, J. Pan, A. Tang, Q. Lu and Y. Zhang, Micro combustion in a porous media for thermophotovoltaic power generation. Applied Thermal Engineering, 2018. 129(Supplement C): p. 596-605.

        26. Y. Zhang, J. Pan, A. Tang, Y. Liu, Z. Pan, Q. Lu and P. Otchere, Effect of gas-phase reaction on catalytic reaction for H2/O2 mixture in micro combustor. International Journal of Hydrogen Energy, 2017. 42(26): p. 16855-16865.

        27. Z. Pan, K. Chen, J. Pan, P. Zhang, Y. Zhu and J. Qi, An experimental study of the propagation characteristics for a detonation wave of ethylene/oxygen in narrow gaps. Experimental Thermal and Fluid Science, 2017. 88: p. 354-360.

        28. J. Pan, J. Zhu, Q. Liu, Y. Zhu, A. Tang and Q. Lu, Effect of micro-pin-fin arrays on the heat transfer and combustion characteristics in the micro-combustor. International Journal of Hydrogen Energy, 2017. 42(36): p. 23207-23217.

        29. J. Pan, R. Zhang, Q. Lu, Z. Zha and S. Bani, Experimental study on premixed methane-air catalytic combustion in rectangular micro channel. Applied Thermal Engineering, 2017. 117: p. 1-7.

        30. J. Pan, Q. Lu, S. Bani, A. Tang, W. Yang and X. Shao, Hetero-/homogeneous combustion characteristics of premixed hydrogen-air mixture in a planar micro-reactor with catalyst segmentation. Chemical Engineering Science, 2017. 167: p. 327-333.

        31. Q. Lu, J. Pan, W. Yang, A. Tang, S. Bani and X. Shao, Interaction between heterogeneous and homogeneous reaction of premixed hydrogen–air mixture in a planar catalytic micro-combustor. International Journal of Hydrogen Energy, 2017. 42(8): p. 5390-5399.

        32. B. Fan, J. Pan, W. Yang, Z. Pan, S. Bani, W. Chen and R. He, Combined effect of injection timing and injection angle on mixture formation and combustion process in a direct injection (DI) natural gas rotary engine. Energy, 2017. 128: p. 519-530.

        33. B. Fan, J. Pan, W. Yang, Y. Liu, S. Bani and W. Chen, Numerical investigation of the effect of injection strategy on mixture formation and combustion process in a port injection natural gas rotary engine. Energy Conversion and Management, 2017. 133: p. 511-523.

        34. B. Fan, J. Pan, W. Yang, W. Chen and S. Bani, The influence of injection strategy on mixture formation and combustion process in a direct injection natural gas rotary engine. Applied Energy, 2017. 187: p. 663-674.

        35. W. Chen, J. Pan, B. Fan, Y. Liu and O. Peter, Effect of injection strategy on fuel-air mixing and combustion process in a direct injection diesel rotary engine (DI-DRE). Energy Conversion and Management, 2017. 154: p. 68-80.

        36. 潘劍鋒, 劉啟勝, 盧青波, 潘振華. 催化微燃燒室內氫氣和氧氣預混合燃燒特性. 農業機械學報, 2016. 47(02): p. 357-363.

        37. Q. Lu, J. Pan, W. Yang, Z. Pan, A. Tang and Y. Zhang, Effects of products from heterogeneous reactions on homogeneous combustion for H2/O2 mixture in the micro combustor. Applied Thermal Engineering, 2016. 102: p. 897-903.

        38. Q. Lu, J. Pan, S. Hu, A. Tang and X. Shao, Hetero-/homogeneous combustion of premixed hydrogen–oxygen mixture in a micro-reactor with catalyst segmentation. International Journal of Hydrogen Energy, 2016. 41(28): p. 12387-12396.

        39. B. Fan, J. Pan, W. Yang, Y. Zhu and W. Chen, Effects of hydrogen blending mode on combustion process of a rotary engine fueled with natural gas/hydrogen blends. International Journal of Hydrogen Energy, 2016. 41(6): p. 4039-4053.

        40. 潘劍鋒, 陳瑞, 范寶偉, 姚嘉琪, 肖曼. LPG轉子發動機缸內燃燒影響因素研究. 農業機械學報, 2015. 46(01): p. 329-337.

        41. 范寶偉, 潘劍鋒, 唐愛坤, 潘振華, 薛宏. 進氣相位對天然氣轉子發動機流場和燃燒過程的影響. 農業機械學報, 2015(07): p. 286-293.

        42. 范寶偉, 潘劍鋒, 劉楊先, 盧青波, 肖曼, 薛宏. 轉子發動機流場的測試和數值模擬. 工程熱物理學報, 2015. 36(08): p. 1835-1840.

        43. 范寶偉, 潘劍鋒, 黃俊, 肖曼, 姚嘉琪. 燃燒室結構對天然氣轉子發動機燃燒過程的影響. 機械工程學報, 2015. 51(22): p. 141-151.

        44. J.F. Pan, D. Wu, Y.X. Liu, H.F. Zhang, A.K. Tang and H. Xue, Hydrogen/oxygen premixed combustion characteristics in micro porous media combustor. Applied Energy, 2015. 160: p. 802-807.

        45. B.W. Fan, J.F. Pan, Z.H. Pan, A.K. Tang, Y.J. Zhu and H. Xue, Effects of pocket shape and ignition slot locations on the combustion processes of a rotary engine fueled with natural gas. Applied Thermal Engineering, 2015. 89(0): p. 11-27.

        46. B. Fan, J. Pan, A. Tang, Z. Pan, Y. Zhu and H. Xue, Experimental and numerical investigation of the fluid flow in a side-ported rotary engine. Energy Conversion and Management, 2015. 95(0): p. 385-397.

        47. B. Fan, J. Pan, Y. Liu and Y. Zhu, Effects of ignition parameters on combustion process of a rotary engine fueled with natural gas. Energy Conversion and Management, 2015. 103(0): p. 218-234.

        48. Baowei Fan, Jianfeng Pan, Wenming Yang, Hui An, Aikun Tang, Xia Shao, Hong Xue, Effects of different parameters on the flow field of peripheral ported rotary engines. Engineering Applications of Computational Fluid Mechanics, 2015. 9(1): p. 445-457.

        49. 邵霞, 潘劍鋒, 薛宏, 王謙, 唐愛坤, 微通道內氣體庫埃特流動的DSMC模擬. 工程熱物理學報, 2013(09): p. 1752-1754.

        50. 潘劍鋒, 范寶偉, 陳瑞, 盧青波, 唐愛坤, 邵霞, 王謙, 點火位置對天然氣轉子發動機燃燒的影響. 內燃機工程, 2013. v.34;No.156(01): p. 1-7.

        51. 潘劍鋒, 周俊, 唐愛坤, 邵霞, 薛宏, 微尺度燃燒過程中傳熱準則數分析. 農業機械學報, 2011(12): p. 197-201+219.

        52. 潘劍鋒, 吳慶瑞, 薛宏, 萬彥輝, 周俊, 微平板式燃燒室內催化燃燒的試驗研究. 工程熱物理學報, 2011(08): p. 1430-1432.

        53. 潘劍鋒, 范寶偉, 吳慶瑞, 李曉春, 唐愛坤, 薛宏, 微尺度下氫氧預混合氣催化燃燒的研究. 機械工程學報, 2011(24): p. 111-116.

        54. 潘劍鋒, 趙金剛, 李德桃, 薛宏, 唐愛坤, 張夢云, 改裝直噴式柴油機中生物柴油噴霧燃燒過程試驗研究. 內燃機工程, 2010. v.31;No.140(03): p. 11-16.

        55. 潘劍鋒, 李曉春, 唐愛坤, 薛宏, 亞毫米平板式微燃燒室性能的影響因素研究. 中國機械工程, 2010. v.21;No.305(17): p. 2119-2122.

        56. J.F. Pan, W.M. Yang, A.K. Tang, S.K. Chou, L. Duan, X.C. Li and H. Xue, Micro combustion in sub-millimeter channels for novel modular thermophotovoltaic power generators. Journal of Micromechanics and Microengineering, 2010. 20(12).

        57. J.F. Pan, J. Huang, D.T. Li, W.M. Yang, W.X. Tang and H. Xue, Effects of major parameters on micro-combustion for thermophotovoltaic energy conversion. Applied Thermal Engineering, 2007. 27(5-6): p. 1089-1095.

        58. 潘劍鋒, 楊文明, 李德桃, 黃俊. 微熱光電系統原型的設計制造和測試. 工程熱物理學報, 2005(05): p. 887-890.

        59. 潘劍鋒, 李德桃, 楊文明, 薛宏. 微熱光電系統燃燒器的研究. 中國機械工程, 2005(6): p. 527-529.

        60. 潘劍鋒, 李德桃, 鄧軍, 張孝友, 衛堯, 唐維新. 微熱光電系統燃燒的若干影響因素的試驗研究. 機械工程學報, 2004(12): p. 120-123.

        61. 潘劍鋒, 梁鳳標, 李德桃, 胡林峰, 吳建. 柴油機中壓共軌式噴油系統的模擬計算與分析. 汽車工程, 2003. 25(4): p. 338-342.

        編著及參編主要教材專著

        1. 《微尺度燃燒及其應用》.科學出版社, 2017.

        2. 燃燒學理論基礎及其應用. 江蘇大學出版社, 2013.

        學術及科研成果

        1. 微尺度條件下預混合燃燒的基礎理論研究,教育部自然科學二等獎,2019.12;

        2. 柴油機燃油噴射與燃燒系統關鍵技術研究及應用,江蘇省科技進步二等獎,2013.01;

        3. 動力機械工作過程與關鍵技術的研究及推廣應用,高等學??茖W研究優秀成果科技進步二等獎,2012.02;

        4. 氣液燃料燃燒理論及在動力機械中的應用,中國機械工業科學技術三等獎,2014.10;

        5. 動力機械燃燒理論與燃燒系統的研究及應用,江蘇省科技進步二等獎,2009.01;

        6. 動力機械工作過程理論研究及工程應用,中國機械工業科學技術二等獎,2009.02;

        7. 渦流式柴油機的燃燒過程和共軌式電控噴射系統的基礎研究,中國機械工業科學技術二等獎,2003.02;

        8. 光電系統的實驗研究和數值模擬,江蘇省優秀博士論文,2006.06。

        獲獎情況

        1. 江蘇大學優秀研究生導師,2018;

        2. 江蘇大學“十佳青年教職工”,2008;

        3. 鎮江市“十大杰出青年”,2014;

        4. 江蘇省“青藍工程”優秀青年骨干教師,2006;

        5. 江蘇省“六大人才高峰”培養對象,2011;

        6. 江蘇省333工程”培養對象,2016;

        7. 江蘇大學“青年拔尖人才”造就對象,2015。

        8. 國家公派留學(普林斯頓大學,2017;新加坡國立大學,2009

        授權專利

        1. A composite intake system and method of the rotary engine with variable intake manifold. PCT專利號:PCT/CN2016/076437,美國申請號:US155/16,873,授權時間:2019.07;

        2. 一種用于脈沖爆轟發動機的氣動閥. 國家發明專利. 專利號:201811363848.5,授權時間:2020.05;

        3. 一種可控制火焰位置的微燃燒器. 國家發明專利. 專利號:201810746006.1,授權時間:2020.03;

        4. 一種直噴式轉子發動機的氣/液燃料供給系統及控制方法. 國家發明專利. 專利號:201710629403.6,授權時間:2019.10;

        5. 一種帶有相變儲能系統的微燃燒發電裝置. 國家發明專利. 專利號:201710857271.2,授權時間:2019.05;

        6. 一種壁面嵌入熱管的微型燃燒器. 國家發明專利. 專利號:201610906680.2,授權時間:2019.04;

        7. 一種轉子發動機旋渦燃燒室. 國家發明專利. 專利號:201611254834.0,授權時間:2019.05;

        8. 一種用于轉子發動機的雙凹坑型燃燒室. 國家發明專利. 專利號:201610847551.0,授權時間:2019.04;

        9. 一種用于脈沖爆震發動機的點火系統. 國家發明專利. 專利號:201710749845.4,授權時間:2019.02;

        10. 一種應用于微熱光電系統的燃燒器. 國家發明專利. 專利號:201610993513.6,授權時間:2018.11;

        11. 一種用于微熱光電系統的微燃燒室. 國家發明專利. 專利號:201611130011.7,授權時間:2018.10;

        12. 一種三角轉子發電系統. 國家發明專利. 專利號:201610928878.0,授權時間:2018.08;

        13. 一種進氣管可變的轉子發動機復合進氣系統及方法. 發明專利. 專利號:201610109792.5,授權時間:2018.06;

        14. 一種通道高度可調的微燃燒裝置. 發明專利. 專利號: ZL201310695538.4,授權時間:2016.08;

        15. 一種新型轉子頂端處密封件. 發明專利. 專利號: ZL201410512058.4,授權時間:2016.05;

        16. 一種低熱損失預混合的微催化燃燒室. 發明專利. 專利號: ZL201310696430.7,授權時間:2016.04;

        17. 一種基于微燃燒產生電能和推力的新型動力裝置. 發明專利. 專利號: ZL200910184209.7, 授權時間:2011.12;

        18. 一種火焰法連續合成碳納米管的裝置和方法. 發明專利.專利號: ZL201310744312.9,授權時間:2015.08;

        19. 一種天然氣轉子發動機的引火槽. 發明專利. 專利號: ZL201310033671.3,授權時間:2015.03。

        其他

        1招收博士研究生1-2,招收碩士生3名,聯系方式:mike@ujs.edu.cn, 0511-88780210.

        學院微信公眾號

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