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段志鹏
2023-05-06 10:33
  • 段志鹏
  • 段志鹏 - 副教授-北京交通大学-机械与电子控制工程学院-个人资料

近期热点

资料介绍

个人简历


教育背景
受教育经历
2003/09 – 2007/12,Memorial University,机械工程系,博士
2001/08 – 2003/09,Memorial University,机械工程系,硕士
1989/09 – 1994/07,清华大学,热能工程系,学士
研究工作经历
2013/06 – 至今,北京交通大学,机械与电子控制工程学院动力系,副教授
2011/01 – 2013/03,University of Waterloo, Research Scientist
2007/12 – 2010/12,University of Waterloo,博士后
2001/08 – 2007/12,Memorial University,研究助理

研究领域


先进加工与智能制造
智能测控与故障诊断
智能机械设计与机器人技术
车辆结构可靠性与动力学
微机电系统与能源技术装备
机电系统与装备传热理论与技术
电子设备及储能装置热管理
先进能源利用技术
先进设计与制造(专业学位)

近期论文


论文/期刊
[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] 严林博,何伯述,裴晓辉,王超俊,李旭升,段志鹏.Kinetic Models for Coal Hydrogasification and Analyses of Hydrogasification Characteristics in Entrained-Flow Gasifiers[J]。Energy & Fuels,2013-11,27(11),6388:6396
[24] 严林博,何伯述,裴晓辉,王超俊,梁化鑫,段志鹏.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] 焦树建,段志鹏. HAT循环热力参数的优化选择。燃气轮机技术,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
专著/译著
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.

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