段志鵬,男,博士,北京交通大學機械與電子控制工程學院副教授。
基本介紹
- 中文名:段志鵬
- 畢業院校:Memorial University
- 學位/學歷:博士
- 職業:教師
- 專業方向:流動、換熱及燃燒過程的基礎理論研究
- 就職院校:北京交通大學機械與電子控制工程學院
個人經歷,教育經歷,研究工作經歷,研究方向,學術成果,論文,專著譯著,榮譽獎項,
個人經歷
教育經歷
2003/09 –承促舉淚 2007/12,Memorial University,機械工程系,博士
2001/08 – 2003/09,Memorial University,機械工程系,碩士
1989/09 – 1994/07,清華大學,熱能工程系,學士
研究工作經歷
2013/06 –至今,北京交通大學,機械與電子控境姜灑制工程腿阿櫻學院動力系,副教授
2011/01 – 2013/03,University of Waterloo, Research Scientist
2007/12 – 2010/12,University of Waterloo,博士後
2001/08 – 2007/12,Memorial University,研究助理
研究方向
- 流重獄台動、換熱及燃燒講店盼過程的辣轎基礎理論研究
- 工業過程及裝置傳熱傳質技術朵踏愉套
- 動力機械與熱能工程
- 機械設計及理論
- 機械工程(專業學位)
學術成果
論文
[1]Duan, Z.P.*and He, B.S., Extended Reynolds Analogy for Slip and Transition Flow Heat Transfer in Microchannels and Nanochannels.International Communications in Heat and Mass Transfer. Vol. 56, pp. 25-30, 2014
[2]Duan, Z.P.*and He, B.S., Discussion:“Slip-Flow in Microchannels of Non-Circular Cross Sections”,ASME Journal of Fluids Engineering,136(5), Article Number 055501 (2 pages),2014
[3]Duan, Z.P.*, Second Order Gaseous Slip Flow Models in Long Circular and Noncircular Microchannels and Nanochannels,Microfluidics and Nanofluidics, 12(5), pp. 805-820, 2012
[4]Duan, Z.P.*, New Correlative Models for Fully Developed Turbulent Heat and Mass Transfer in Circular and Noncircular Ducts,ASME Journal of Heat Transfer, 134(1), Article Number 014503 (6 pages), 2012
[5]Duan, Z.P.*, Slip Flow in Doubly Connected Microchannels,International Journal of Thermal Sciences, 58(8), pp. 45-51, 2012
[6]Duan, Z.P.*, Pressure Drop for Subsonic Gas Flow in Microchannels and Nanochannels,Nanoscale and Microscale Thermophysical Engineering, 16(2), pp. 117-132, 2012
[7]Duan, Z.P.*, Yovanovich, M.M., and Muzychka, Y.S., Fully Developed Turbulent Flow Pressure Drop in Circular and Noncircular Ducts,ASME Journal of Fluids Engineering, 134(6), Article Number 061201 (10 pages), 2012
[8]Duan, Z.P.*, Erratum: New Correlative Models for Fully Developed Turbulent Heat and Mass Transfer in Circular and Noncircular Ducts,ASME Journal of Heat Transfer, 134(7), Article Number 077001 (1 page), 2012
[9]Duan, Z.P.*, Incompressible Criterion and Pressure Drop for Gaseous Flow in Circular and Non-Circular Microchannels,ASME Journal of Fluids Engineering, 133(7), Article Number 074501 (4 pages), 2011
[10]Duan, Z.P.*and Muzychka, Y.S., Slip Flow in the Hydrodynamic Entrance Region of Circular and Non-Circular Microchannels,ASME Journal of Fluids Engineering, 132(1), Article Number 011201 (13 pages), 2010
[11]Duan, Z.P.*and Muzychka, Y.S., Effects of Axial Corrugated Roughness on Low Reynolds Number Slip Flow and Continuum Flow in Microtubes,ASME Journal of Heat Transfer, 132(4), Article Number 041001 (9 pages), 2010
[12]Duan, Z.P.*and Muzychka, Y.S., Slip Flow Heat Transfer in Annular Microchannels with Constant Heat Flux,ASME Journal of Heat Transfer, 130(9), Article Number 092401 (8 pages), 2008
[13]Duan, Z.P.*and Muzychka, Y.S., Effect of Corrugated Roughness on Developed Laminar Flow in Microtubes,ASME Journal of Fluids Engineering, 130(3), Article Number 031102 (7 pages), 2008
[14]Duan, Z.P.*and Muzychka, Y.S., Slip Flow in Non-Circular Microchannels,Microfluidics and Nanofluidics, 3(4), pp. 473-484, 2007
[15]Duan, Z.P.*and Muzychka, Y.S., Slip Flow in Elliptic Microchannels,International Journal of Thermal Sciences, 46(11), pp. 1104-1111, 2007
[16]Duan, Z.P.*and Muzychka, Y.S., Compressibility Effect on Slip Flow in Non-Circular Microchannels,Nanoscale and Microscale Thermophysical Engineering, 11(3-4), pp. 259-272, 2007
[17]Duan, Z.P.*and Muzychka, Y.S., Pressure Drop of Impingement Air Cooled Plate Fin Heat Sinks,ASME Journal of Electronic Packaging, 129(2), pp. 190-194, 2007
[18]Duan, Z.P.*and Muzychka, Y.S., Experimental Investigation of Heat Transfer in Impingement Air Cooled Plate Fin Heat Sinks,ASME Journal of Electronic Packaging, 128(4), pp. 412-418, 2006
[19] Chakraborty, S.*,Duan, Z.P.,Muzychka, Y.S., and Anand, K.D., Implications of Hydrophobic Interactions and Consequent Apparent Slip Phenomenon on the Entrance Region Transport of Liquids through Microchannels,Physics of Fluids, 23, Article Number 109901 (9 pages), 2011
[20] Linbo Yan,Boshu He*,Xiaohui Pei,Chaojun Wang,Zhipeng Duan,Jingge Song,Xuezheng Li,Design and comparisons of three biomass based hydrogen generation systems with chemical looping process,International Journal of Hydrogen Energy. 10/2014; 39(31):17540–17553.
[21] Yan, L., He, B.*, Hao, T., Pei, X., Li, X., Wang, C., &Duan, Z.P., Thermogravimetric study on the pressurized hydropyrolysis kinetics of a lignite coal.International Journal of Hydrogen Energy,39(15), 7826-7833, 2014
[22] Yan, L., He, B.*, Hao, T., Pei, X., Li, X., Wang, C., &Duan, Z.P., Pressurized Thermogravimetric Study on the Hydropyrolysis and Hydrogasification Kinetics of a Bituminous Coal.Energy & Fuels,28(5), 2993-3001, 2014
[23] 嚴林博,何伯述,裴曉輝,王超俊,李旭升,段志鵬.Kinetic Models for Coal Hydrogasification and Analyses of Hydrogasification Characteristics in Entrained-Flow Gasifiers[J]。Energy & Fuels,2013-11,27(11),6388:6396
[24] 嚴林博,何伯述,裴曉輝,王超俊,梁化鑫,段志鵬.Computational-Fluid-Dynamics-Based Evaluation and Optimization of an Entrained-Flow Gasifier Potential for Coal Hydrogasification[J]。Energy & Fuels,2013-11,27(11),6397:6407
[25] 焦樹建,段志鵬. HAT循環熱力參數的最佳化選擇。燃氣輪機技術,1995,8(2),25:30
[26]Duan, Z.P.*, Second Order Gaseous Flow Models in Long Circular and Non-Circular Microchannels and Nanochannels. 9th International Conference on Nanochannels, Microchannels, and Minichannels, pp. 305-317, Edmonton, Canada, June 19-22, ICNMM2011-58040, 2011
[27]Duan, Z.P.*and Yovanovich, M.M., Further Study on Models for Gaseous Slip Flow in Circular and Non-Circular Microchannels. 8th International Conference on Nanochannels, Microchannels, and Minichannels, pp. 421-431, Montreal, Canada, August 1-5, FEDSM-ICNMM2010-30320, 2010
[28]Duan, Z.P.*and Yovanovich, M.M., Pressure Drop for Laminar Flow in Microchannels of Arbitrary Cross-Sections. Semi-Therm 25 Semiconductor Thermal Measurement and Management Symposium, pp. 111-120, San Jose, CA, USA, March 15-19, 2009
[29] Yovanovich, M.M.*,Duan, Z.P., and Khan, W.A., Modeling Steady Conduction in Long Prismatic Solids of Arbitrary Shape with Uniformly Distributed Heat Sources. 41st AIAA Thermophysics Conference,San Antonio,TX,USA, June 22-25, AIAA-2009-4082 (23 pages), 2009
[30]Duan, Z.P.*and Muzychka, Y.S., Models for Gaseous Slip Flow in Non-Circular Microchannels. Proceedings of ASME-JSME Thermal Engineering Summer Heat Transfer Conference, pp. 949-962,July 8-12, 2007, Vancouver, BC, Canada, 2007
[31]Duan, Z.P.*and Muzychka, Y.S., Experimental Investigation of Heat Transfer in Impingement Air Cooled Plate Fin Heat Sinks. Proceedings of the 38th AIAA Thermophysics Conference, Toronto, Ontario, Canada, June 6-9, AIAA-2005-4687, 2005
[32]Duan, Z.P.*and Muzychka, Y.S., Impingement Air Cooled Plate Fin Heat Sinks: Part I Pressure Drop Model. Proceedings of the Ninth Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems, pp. 429-435, Las Vegas, NV, June 1-4, 2004
[33]Duan, Z.P.*and Muzychka, Y.S., Impingement Air Cooled Plate Fin Heat Sinks: Part II Thermal Resistance Model. Proceedings of the Ninth Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems, pp. 436-443, Las Vegas, NV, June 1-4, 2004
專著譯著
Muzychka, Y.S,Duan, Z.P., and Yovanovich, M.M., Fluid Friction and Heat Transfer in Microchannels, Microfluidics and Nanofluidics Handbook: Chemistry Physics and Life Science Principles, chap. 14, CRC Press, pp. 477-610, 2011
Duan, Z.P., Analysis of Slip Flow in Microchannels. Ph.D. Dissertation, Memorial University, 2007. ISBN-10: 0494420936.
Duan, Z.P., Impingement Air Cooled Plate Fin Heat Sinks. M.Eng. Thesis, Memorial University, 2003.
榮譽獎項
加拿大總督金牌,2008
加拿大全國傑出博士獎提名,加拿大自然科學和工程技術研究理事會,2009
[5]Duan, Z.P.*, Slip Flow in Doubly Connected Microchannels,International Journal of Thermal Sciences, 58(8), pp. 45-51, 2012
[6]Duan, Z.P.*, Pressure Drop for Subsonic Gas Flow in Microchannels and Nanochannels,Nanoscale and Microscale Thermophysical Engineering, 16(2), pp. 117-132, 2012
[7]Duan, Z.P.*, Yovanovich, M.M., and Muzychka, Y.S., Fully Developed Turbulent Flow Pressure Drop in Circular and Noncircular Ducts,ASME Journal of Fluids Engineering, 134(6), Article Number 061201 (10 pages), 2012
[8]Duan, Z.P.*, Erratum: New Correlative Models for Fully Developed Turbulent Heat and Mass Transfer in Circular and Noncircular Ducts,ASME Journal of Heat Transfer, 134(7), Article Number 077001 (1 page), 2012
[9]Duan, Z.P.*, Incompressible Criterion and Pressure Drop for Gaseous Flow in Circular and Non-Circular Microchannels,ASME Journal of Fluids Engineering, 133(7), Article Number 074501 (4 pages), 2011
[10]Duan, Z.P.*and Muzychka, Y.S., Slip Flow in the Hydrodynamic Entrance Region of Circular and Non-Circular Microchannels,ASME Journal of Fluids Engineering, 132(1), Article Number 011201 (13 pages), 2010
[11]Duan, Z.P.*and Muzychka, Y.S., Effects of Axial Corrugated Roughness on Low Reynolds Number Slip Flow and Continuum Flow in Microtubes,ASME Journal of Heat Transfer, 132(4), Article Number 041001 (9 pages), 2010
[12]Duan, Z.P.*and Muzychka, Y.S., Slip Flow Heat Transfer in Annular Microchannels with Constant Heat Flux,ASME Journal of Heat Transfer, 130(9), Article Number 092401 (8 pages), 2008
[13]Duan, Z.P.*and Muzychka, Y.S., Effect of Corrugated Roughness on Developed Laminar Flow in Microtubes,ASME Journal of Fluids Engineering, 130(3), Article Number 031102 (7 pages), 2008
[14]Duan, Z.P.*and Muzychka, Y.S., Slip Flow in Non-Circular Microchannels,Microfluidics and Nanofluidics, 3(4), pp. 473-484, 2007
[15]Duan, Z.P.*and Muzychka, Y.S., Slip Flow in Elliptic Microchannels,International Journal of Thermal Sciences, 46(11), pp. 1104-1111, 2007
[16]Duan, Z.P.*and Muzychka, Y.S., Compressibility Effect on Slip Flow in Non-Circular Microchannels,Nanoscale and Microscale Thermophysical Engineering, 11(3-4), pp. 259-272, 2007
[17]Duan, Z.P.*and Muzychka, Y.S., Pressure Drop of Impingement Air Cooled Plate Fin Heat Sinks,ASME Journal of Electronic Packaging, 129(2), pp. 190-194, 2007
[18]Duan, Z.P.*and Muzychka, Y.S., Experimental Investigation of Heat Transfer in Impingement Air Cooled Plate Fin Heat Sinks,ASME Journal of Electronic Packaging, 128(4), pp. 412-418, 2006
[19] Chakraborty, S.*,Duan, Z.P.,Muzychka, Y.S., and Anand, K.D., Implications of Hydrophobic Interactions and Consequent Apparent Slip Phenomenon on the Entrance Region Transport of Liquids through Microchannels,Physics of Fluids, 23, Article Number 109901 (9 pages), 2011
[20] Linbo Yan,Boshu He*,Xiaohui Pei,Chaojun Wang,Zhipeng Duan,Jingge Song,Xuezheng Li,Design and comparisons of three biomass based hydrogen generation systems with chemical looping process,International Journal of Hydrogen Energy. 10/2014; 39(31):17540–17553.
[21] Yan, L., He, B.*, Hao, T., Pei, X., Li, X., Wang, C., &Duan, Z.P., Thermogravimetric study on the pressurized hydropyrolysis kinetics of a lignite coal.International Journal of Hydrogen Energy,39(15), 7826-7833, 2014
[22] Yan, L., He, B.*, Hao, T., Pei, X., Li, X., Wang, C., &Duan, Z.P., Pressurized Thermogravimetric Study on the Hydropyrolysis and Hydrogasification Kinetics of a Bituminous Coal.Energy & Fuels,28(5), 2993-3001, 2014
[23] 嚴林博,何伯述,裴曉輝,王超俊,李旭升,段志鵬.Kinetic Models for Coal Hydrogasification and Analyses of Hydrogasification Characteristics in Entrained-Flow Gasifiers[J]。Energy & Fuels,2013-11,27(11),6388:6396
[24] 嚴林博,何伯述,裴曉輝,王超俊,梁化鑫,段志鵬.Computational-Fluid-Dynamics-Based Evaluation and Optimization of an Entrained-Flow Gasifier Potential for Coal Hydrogasification[J]。Energy & Fuels,2013-11,27(11),6397:6407
[25] 焦樹建,段志鵬. HAT循環熱力參數的最佳化選擇。燃氣輪機技術,1995,8(2),25:30
[26]Duan, Z.P.*, Second Order Gaseous Flow Models in Long Circular and Non-Circular Microchannels and Nanochannels. 9th International Conference on Nanochannels, Microchannels, and Minichannels, pp. 305-317, Edmonton, Canada, June 19-22, ICNMM2011-58040, 2011
[27]Duan, Z.P.*and Yovanovich, M.M., Further Study on Models for Gaseous Slip Flow in Circular and Non-Circular Microchannels. 8th International Conference on Nanochannels, Microchannels, and Minichannels, pp. 421-431, Montreal, Canada, August 1-5, FEDSM-ICNMM2010-30320, 2010
[28]Duan, Z.P.*and Yovanovich, M.M., Pressure Drop for Laminar Flow in Microchannels of Arbitrary Cross-Sections. Semi-Therm 25 Semiconductor Thermal Measurement and Management Symposium, pp. 111-120, San Jose, CA, USA, March 15-19, 2009
[29] Yovanovich, M.M.*,Duan, Z.P., and Khan, W.A., Modeling Steady Conduction in Long Prismatic Solids of Arbitrary Shape with Uniformly Distributed Heat Sources. 41st AIAA Thermophysics Conference,San Antonio,TX,USA, June 22-25, AIAA-2009-4082 (23 pages), 2009
[30]Duan, Z.P.*and Muzychka, Y.S., Models for Gaseous Slip Flow in Non-Circular Microchannels. Proceedings of ASME-JSME Thermal Engineering Summer Heat Transfer Conference, pp. 949-962,July 8-12, 2007, Vancouver, BC, Canada, 2007
[31]Duan, Z.P.*and Muzychka, Y.S., Experimental Investigation of Heat Transfer in Impingement Air Cooled Plate Fin Heat Sinks. Proceedings of the 38th AIAA Thermophysics Conference, Toronto, Ontario, Canada, June 6-9, AIAA-2005-4687, 2005
[32]Duan, Z.P.*and Muzychka, Y.S., Impingement Air Cooled Plate Fin Heat Sinks: Part I Pressure Drop Model. Proceedings of the Ninth Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems, pp. 429-435, Las Vegas, NV, June 1-4, 2004
[33]Duan, Z.P.*and Muzychka, Y.S., Impingement Air Cooled Plate Fin Heat Sinks: Part II Thermal Resistance Model. Proceedings of the Ninth Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems, pp. 436-443, Las Vegas, NV, June 1-4, 2004
專著譯著
Muzychka, Y.S,Duan, Z.P., and Yovanovich, M.M., Fluid Friction and Heat Transfer in Microchannels, Microfluidics and Nanofluidics Handbook: Chemistry Physics and Life Science Principles, chap. 14, CRC Press, pp. 477-610, 2011
Duan, Z.P., Analysis of Slip Flow in Microchannels. Ph.D. Dissertation, Memorial University, 2007. ISBN-10: 0494420936.
Duan, Z.P., Impingement Air Cooled Plate Fin Heat Sinks. M.Eng. Thesis, Memorial University, 2003.
榮譽獎項
加拿大總督金牌,2008
加拿大全國傑出博士獎提名,加拿大自然科學和工程技術研究理事會,2009
