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主要学术骨干

 

程永攀博士,教授/博士生导师,玛丽居里学者
主要经历及介绍:
2016-2017 英国Queen Mary University of London玛丽居里学者
2014年3月加入华北电力大学能源动力与机械工程学院;
2008-2014 新加坡国立大学机械学院及化学与生物分子工程学院,Research Fellow;
2004-2008新加坡国立大学机械学院,博士;
1997-2004,西安交通大学能源与动力工程学院,本科和硕士,导师:陶文铨教授;

研究方向:相变传热多物理场耦合,液滴及气泡动力学,煤/生物质气化技术、数值模拟

主持或参与的项目:
1.    2016-2017 Efficient Numerical Modeling of Moving Contact Line under Non-isothermal Condition. Marie Curie Fellowship,主持;
2.    2015-2017 微尺度液滴在高太阳辐射强度下耦合换热性能机理研究, 国家自然科学基金青年项目; 主持
3.    2016-2018高热流密度冷凝管的仿生构建及性能研究,北京市自然科学基金面上项目;主持
4.    2015-2017 多尺度多相流传热的基础研究;主持;
5.    2014-2016纳米流体在高辐照度太阳能下吸热性能的研究,中央高校基本科研业务费;主持
6.    2015-2019 相变传热装置多尺度协同性及构造,国家自然科学基金重点项目;主参

截至2016年12月,共发表SCI国际期刊论文37篇,其中第一作者文章23篇,第二作者文章3篇,他引330余次,单篇最高他引50余次,主要文章如下:

[1] Cheng Y. P., Xu J. L.*, Sui Y. Numerical investigation of coalescence-induced droplet jumping on superhydrophobic surfaces for efficient dropwise condensation heat transfer. Int. J. Heat and Mass Transfer, 95: 506-516, 2016. (IF: 2.857)
[2] Cheng Y. P., Thow Z.H., Wang C. H*. Biomass gasification with CO2  in a fluidized bed. Power Technology, 296: 87-101, 2016. (IF: 2.080)
[3] Xu J. L.*, Tang C, Cheng Y.P., LI Z. J., Cao H., Yu X. J., Li Y.Z., Wang Y. J. Design, construction, and characterization of an adjustable 70k W High-flux Solar Simulator. ASME J. Solar Energy Engineering, 138(4), 041010, 2016. (IF: 1.904)
[4] Cheng  Y.  P.,  Xu  J.L.*,  Sui  Y.  Numerical  study  on  drag  reduction  and  heat  transfer enhancement  in  microchannels  with  superhydrophobic  surfaces  for  electronic  cooling. Applied Thermal Engineering, 88: 71-81, 2015. (IF: 2.624)
 [5] Ong Z. H., Cheng Y. P., Maneerung T, Yao Z. Y., Dai Y. J., Tong Y. W., Wang C. H.*
Co-gasification of woody biomass and sewage sludge in a fixed-bed downdraft gasifier. AIChE Journal, 61: 2508-2521, 2015. (IF: 2.581)
 [6] Gan Y. H., Luo Z. B., Cheng Y. P., Xu J. L. The electro-spraying characteristics of ethanol for application in a small-scale combustor under combined electric field. Applied Thermal Engineering, 87: 595-604, 2015. (IF: 2.624)
[7] Cheng Y. P., Lee L. Q., Zhang W.B., Wang C. H*. Investigation on electrostatic charging
and its effect on mixing of binary particles in a vibrating bed. Industrial & Engineering Chemistry Research, 53: 14166-1414, 2014. (IF: 2.237)
[8] Cheng Y. P.; Wang C.H*. Numerical study on coal gasification in the downer reactor of a
triple-bed  combined  circulating  fluidized  bed.  Industrial  &  Engineering  Chemistry Research, 53: 6624-6635, 2014. (IF: 2.237)
[9] Cheng, Y.P.; Zhang, W.B.; Guan, G.Q.; Fushimi, C.; Tsutsumi, A.; Wang, C.H*. Numerical studies of solid-solid mixing behaviors in a downer reactor for coal pyrolysis. Powder Technol., 253: 722-732. 2014. (IF: 2.080)
[10] Gao W. Z.*, Sun W Z. Anderson K, Cheng Y. P., Li A. Investigation on temperature distribution of flash evaporation of LiCl droplets released into vacuum. Int. J. Heat and Mass Transfer, 74: 414-420, 2014. (IF: 2.522)
 [11] Gao P. H.*, Li W. L., Cheng Y. P., Tong Y. W., Dai Y. J., Wang R.Z. Thermodynamic performance assessment of CCHP system driven by different composition gas. Applied Energy, 136: 599-610, 2014. (IF: 5.746) 
[12] Cheng Y.P., Guan G.Q., Lim E. W. C., Fushimi C., Ishizuka M., Wang C. H.,* Tsutsumi A. Numerical simulations and experiments on heat transfer around a probe in the downer reactor. Powder Technology, 235: 359-367, 2013. (IF: 2.080)
[13] Zhang  W.B.,  Cheng  Y.P.,  Wang  C.,  Yang  W.Q.,  Wang  C.H.*  Investigation  on hydrodynamics of triple-bed combined circulating fluidized bed using electrostatic sensor and electrical capacitance tomography. Industrial & Engineering Chemistry Research, 52(32): 11198~11207. 2013 (IF: 2.237).
[14] Gao W.Z.*, Shi Y.R., Cheng Y.P., Sun W. Z. Experimental study on partially internally cooled dehumidification in liquid desiccant air conditioning. Energy and Buildings, 61: 202-209, 2013. (IF: 2.386 )
[15] Guan G Q.*, Kaewpanha M., Hao X.G., Wang Z.D., Cheng Y. P., Kasai Y., Abudula A.
Promoting effect of potassium addition to calcined scallop shell supported catalysts for the decomposition of tar derived from different biomass resources. Fuel, 109: 241-247, 2013. (IF: 3.791)
[16] Cheng Y. P., Lim E. W. C., Wang C. H.*, Guan G. Q., Fushimi C., Ishizuka M., Tsutsumi A. Electrostatic characteristics in a large-scale triple-bed circulating fluidized system for coal gasification. Chemical Engineering Science, 75: 435-444, 2012. (IF: 2.431)
[17] Cheng Y. P., Lau D. Y. J., Guan G. Q., Fushimi C., Tsutsumi A., Wang C. H.* Experimental and numerical studies on the electrostatics generation and transport in the triple-bed circulating fluidized bed. Industrial & Engineering Chemistry Research, 2012, 51: 14258-14267, 2012. (IF: 2.237)
[18] Cheng Y.P., Wang C.H.* Enabling sustainable development through creative and innovative chemical  engineering-APCChE  2012  Theme  issue  on  energy,  water  and  environment. Industrial & Engineering Chemistry Research, 51:9919-9920, 2012. (IF: 2.237)
 [19] Deng R. S., Cheng Y. P. and Wang C. H*. Experiments and simulation on a pulse dampener system for stabilizing liquid flow. Chemical Engineering Journal, 210:136-142, 2012. (IF: 3.461)
[20] Gao W.Z.*, Liu J. H., Cheng Y.P., Zhang X. L., Experimental investigation on the heat and mass transfer between air and liquid desiccant in a cross-flow dehumidifier. Renewable Energy, 37: 117-123, 2012. (IF: 2.978)
[21] Fushimi C.*, Nakamura Y., Guan G. Q., Ishizuka M., Tsutsumi A., Matsuda S., Hatano H., Suzuki Y., Cheng Y.P., Lim E. W. C., Wang C.H. Mixing behavior of cold-hot particles in the  downer  of  a  triple-bed  combined  circulating  fluidized  bed..  Powder  Technology,221:70-79, 2012. (IF: 2.080)
[22] Cheng Y. P.*, Lee T. S., Sui Y. and Wang L. P. Numerical simulation of 2D lid-driven cavity flow with CLEARER algorithm on extremely highly skewed grids at high Reynolds numbers. International Journal for Numerical Methods in Fluids, 65(10): 1201-1216, 2011. (IF: 1.176).
[23] Guan G. Q.*, Fushimi C., Ishizuka M., Nakamura Y., Tsutsumi A. Mstusda S., Suzuki Y., Hatano H., Cheng Y.P., Lim E. W. C., Wang C. H. Flow behaviors in the downer of a large-scale triple-bed combined circulating fluidized system with high solids mass fluxes. Chemical Engineering Science, 66 (18): 4212-4220, 2011. (IF: 2.431)
[24]    Chen X.B.,* Sui Y., Cheng Y.P., Lee H.P., Yu P., and Winoto S.H. Mass transport in a
microchannel enzyme reactor with a porous wall hydrodynamic modeling and applications.
Biochemical Engineering Journal, 52 (2-3), 227-235, 2010. (IF: 2.645)
 [25]Cheng Y. P., Teo C. J.* and Khoo B.C. Microchannels flows with superhydrophobic surfaces: effects of Reynolds number and pattern width to channel height ratio. Physics of Fluids, 21,122004, 2009. (IF: 2.040).
[26]    Cheng Y. P.*, Lee T. S. and Low H. T., Numerical prediction of periodically developed
fluid flow and heat transfer characteristics in the sinusoid wavy fin-and-tube heat exchanger. Int. J. Numerical Methods for Heat and Fluid Flow. 19(6): 728-744, 2009. (IF: 0.527)
[27]    Cheng Y. P.*, Lee T. S., Low H. T. and Sui Y., Implementation of CLEARER algorithm on three-dimensional non-orthogonal curvilinear coordinates and its application. Numerical Heat Transfer, Part B, 54: 62-83, 2008. (IF: 2.054).
[28]    Cheng Y. P.,* Lee T. S. and Low H. T., Numerical analysis of periodically developed fluid flow and heat transfer characteristics in the triangular wavy fin-and-tube heat exchanger based on field synergy principle. Numerical Heat Transfer, vol.53 (8), pp.821-842, 2008. (IF: 2.492)
[29]    Cheng Y. P.*, Lee T. S. and Low H. T., Numerical simulation of conjugate heat transfer in electronic cooling based on field synergy principle, Applied Thermal Engineering, 28: 1826-1833, 2008. (IF: 2.064)
[30]    Sui Y.*, Chew Y. T., Roy P., Cheng Y. P. and Low H. T. Dynamic motion of red blood cells in simple shear flow. Physics of Fluids, 20, 112106, 2008. (IF: 2.040).
[31]    Cheng Y. P.*, Lee T. S., Low H. T. and Tao W. Q., An efficient and robust numerical
scheme for SIMPLER algorithm on non-orthogonal curvilinear coordinates, CLEARER,
Numerical Heat Transfer, Part B, vol.51(5), pp. 433-461, 2007. (IF: 2.054)
[32]    Cheng Y. P.*, Lee T. S., Low H. T. and Tao W.Q., Improvement of SIMPLER algorithm for incompressible flow on collocated grid system. Numerical Heat Transfer, Part B, vol.51(5), pp. 463-486, 2007. (IF: 2.054)
[33]    Tao W.Q., Cheng Y. P.* and Lee T.S., The influence of strip location on the pressure drop and heat transfer performance of slotted fin, Numerical Heat Transfer, Part A, vol.52, pp.463-480, 2007. (IF: 2.492)
[34]    Tao W.Q., Cheng Y. P.* and Lee T.S., 3D numerical simulation on fluid flow and heat
transfer characteristics in multistage heat exchanger with slit fins, Heat and Mass Transfer, vol.44, pp.125-136, 2007. (IF: 0.896)
[35]    Lee  T.S. , Cheng  Y.  P.*  and  Low  H.  T.,  Improvement  of  SIMPLER  algorithm  for incompressible flow on staggered grid system. International Journal of Modern Physics C, vol.18 (7), pp.1149-1155, 2007. (IF: 0.570)
[36]    Cheng  Y.  P.*,  Lee  T.S.  and  Low  H.T.,  Numerical  analysis  of  mixed  convection  in three-dimensional rectangular channel  with flush-mounted  heat sources based  on  field synergy principle. International Journal for Numerical Methods in Fluids, vol.52, pp. 987-1003, 2006. (IF: 1.176)
[37]    Cheng Y. P., Qu Z.G, Tao W.Q.* and He Y.L. Numerical design of efficient slotted fin
surface based on the field synergy principle. Numerical Heat Transfer, Part A, 45: 517-538, 2004, (IF: 2.492).

 

刘国华博士、教授、博士生导师

研究方向:多相流传热传质,人工树叶,人工蒸腾

主要经历及介绍

2018/04-迄 今     华北电力大学,能源动力与机械工程学院 ,教授  博导

2014/10-2017/09   University of South-Eastern Norway, 博士后  导 师 :Kaiying Wang

2013/07-2018/04   安徽工业大学,能源与环境学院,教授博导 

2010/01-2013/06  University of South-Eastern Norway, 博士   导 师 :Kaiying Wang, Nils Hoivik

2007/03-2010/01   中国科学院广州能源研究所,博士   导 师:徐进良

2004/09-2007/04   西安建筑科技大学,硕士    导 师:王 怡

2002/04 - 2004/07 江苏精亚集团,净化工程部技术员

1999/09-2002/04   安徽建筑大学

 

主持或参与的项目

1. 国家自然科学基金面上项目, 人工光合作用中的原位协同思想及流型调控增效机理, No. 51576002,主持 2015

2. 挪威国家自然科学基金(No:231416)Earth-abundant solar energy materials.参与者 2014

 

Chemical Society Reviews, Nano energy, Journal of Materials Chemistry A, ChemSusChem, Solar Energy Materials and Solar Cell, Journal of Power Source, International Journal of Multiphase Flow等国内外期刊上发表论文60余篇, SCI引用500余次,获中国发明专利2项。主要论文如下:

[1] Guohua Liu, Hui Cao, Jinliang Xu. Solar evaporation of a hanging plasmonic droplet, Solar Energy, 170 (2018) 184-191.

[2] Chaoqun Cheng, Guohua Liu, Kang Du, Gang Li, Wendong Zhang, Simone Sanna, Yunzhong Chen, Nini Pryds, Kaiying Wang, Enhanced visible light catalytic activity of MoS2/TiO2/Ti photocathode by hybrid-junction, Applied Catalysis B: Environmental, 237 (2018) 416-423.

[3] Guohua Liu, Jinliang Xu, Kaiying Wang. Solar water evaporation by black photothermal sheets, Nano energy, 41(2017)269-284.

[4] Guohua Liu, Kang Du, Jinliang Xu, Guang Chen, Mingyan Gu, Changping Yang, Kaiying Wang, Henrik Jakobsen. Plasmon-dominated photoelectrodes for solar water splitting. Journal of Materials Chemistry A, 5(2017)4233-4253.

[5] Guohua Liu, Kang Du, Sophia Haussener, Kaiying Wang. Charge transport in two-photon semiconducting structures for solar fuels. ChemSusChem, 9(2016)2878-2904.

[6] Kaiying Wang, Guohua Liu, Nils Hoivik, Erik Johannessen and Henrik Jakobsen. Electrochemical engineering of hollow nanoarchitectures: pulse/step anodization (Si, Al, Ti) and their applications, Chemical Society Reviews, 43(2014)1476-1500.

[7] Guohua Liu, Nils Hoivik, Xiaoming Wang, Shushen Lu, Kaiying Wang and Henrik Jakobsen. Photoconductive, free-standing crystallized TiO2 nanotube membranes, Electrochimica Acta, 93 (2013) 80-86.

[8] Guohua Liu, Nils Hoivik, Kaiying Wang and Henrik Jakobsen. Engineering TiO2 nanomaterials for CO2 conversion/solar fuels, Solar Energy Materials and Solar Cells, 105(2012)53-68.

[9] Guohua Liu, Kaiying Wang, Nils Hoivik and Henrik Jakobsen. Progress on Free-standing and Flow-through TiO2 Nanotube Membranes, Solar Energy Materials and Solar Cells, 98(2012)24-38.

[10] Guohua Liu, Jinliang Xu, Yongping Yang, Wei Zhang. Active control of flow and heat transfer in silicon microchannels, Journal of Micromechanics and Microengineering, 20 (2010) 045006 (16pp).

纪献兵博士、副教授、硕士生导师
研究方向:先进微电子芯片散热、新能源/高效节能技术、相变传热及传热传质的研究。
主要经历及介绍:
2014-至今  华北电力大学能源动力与机械工程学院;
2009-2014  华北电力大学可再生能源学院
2006-2009,中科院广州能源研究所,博士,导师: 徐进良;
2003-2006  云南师范大学,太阳能研究所,硕士,导师,李云苍

主持或参与的项目:
1.    2017-2020 亲/疏水两层结构表面协同排液、强化冷凝传热的机理研究;国家自然科学基金面上项目;主持
2.    2013-2016多尺度微细结构表面调控沸腾传热热力学非平衡性的研究, 国家自然科学基金面上项目;主持
3.    2010-2012 低成本高造水比太阳能海水淡化关键技术研究,中央高校基本科研业务费;主持

近5年发表相关学术论文30余篇,其中SCI英文国际期刊论文10余篇,申请专利9项,授权7项。主要文章和专利如下:
[1]    Ji XB, Xu JL, Li H C, Huang Y P, The decoupling and synergy strategy to construct multiscales from nanoto millimeter for heat pipe, International Journal of Heat and Mass Transfer, 2016, 93: 918-933.
[2]    Ji XB, Xu JL, Zhao ZW, Yang WL, Pool boiling heat transfer on uniform and non-uniform porous coating surfaces, Experimental Thermal and Fluid Science, 2013, 48(7): 198-212
[3]    Ji XB, Xu JL, A M Abanda, Xue Q. A vapor chamber using extended condenser concept for ultra-high heat flux and large heater area. International Journal of Heat and Mass Transfer, 2012, 55: 4908-4913 
[4]    Ji XB, Xu JL, A M Abanda. Copper foam based vapor chamber for high heat flux dissipation. Experimental Thermal and Fluid Science, 2012, 40: 93-102.  
[5]    Ji XB, Xu J L. Experimental study on the two-phase pressure drop in copper foams. Heat and Mass Transfer, 2012, 48: 153-164. 
[6]    Ji XB, Xue Q, Xu JL, Xu J, Pool Boiling Heat Transfer on Ultra-light Porous Metal Foam Surfaces,2012 International Conference on Materials for Renewable Energy and Environment, May, 18-20,2012 Beijing, China, 1782-1786.
[7]    Xu JL, Ji XB, Yang WL, Zhao Z W, Modulated porous wich evaporator for loop heat pipes: experiments, International Journal of Heat and Mass Transfer, 2014, 72: 163–176.
[8]    Yang YP, Ji X B, Xu JL, Pool boiling heat transfer on copper foam covers with water as working fluid. International Journal of Thermal Sciences, 2010, 49: 1227-1237.
[9]    Yang YP, Ji XB, Xu J L, Effect of inclination angle on the pool boiling heat transfer of ultra-light copper foams, Heat Mass Transfer, 2010, 46: 695-706.
[10]    纪献兵,徐进良,名称:被动式闪蒸太阳能海水淡化方法及装置,授权专利号:ZL20101010180209.2
[11]    纪献兵,徐进良,名称:冷凝端扩展型一体化平板热管,授权专利号:ZL201110280435.2
[12]    纪献兵,徐进良,赵紫微,翅片内置多通道热管的一体化相变散热装置,授权专利号:ZL201320708398.5
[13]    纪献兵,徐进良,杨卧龙,多尺度毛细芯平板环路热管式散热装置,授权专利号:ZL 201310689409.4
[14]    纪献兵,徐进良,王野,集成并行多通道回路热管的散热装置,申请号:201520039734.0
[15]    纪献兵,徐进良,郑晓欢,一种太阳能反重力自然循环的供热装置及供热方法,申请号:201510522616.X
[16]    纪献兵,徐进良,李红传,一种超疏水表面的浮点式非能动核安全壳,申请号:201510522589.6

陈宏霞博士、副教授、硕士生导师
研究方向:两相流流动、传热以及强化研究,金属腐蚀及防腐材料的制备与改性,新型材料与传热交叉领域的研究。
主要经历及介绍:
2014.1-至今 华北电力大学能动学院,副教授;
2014.9-2015.9 英国诺丁汉大学,高级访问学者;
2010.7-2013.12华北电力大学可再生学院,讲师;
2003.9-2009.10大连理工大学化工学院化学工程系,博士;
1999.9-2003.7 华北理工大学化工学院,学士;
主持或参与项目:
2016.01-2019.12,亲疏水性多孔金属表面固定核化中心调控沸腾形态强化箱变传热的机理研究,国家自然科学基金面上项目,主持。
2012.01-2014.12,毛细结构调控两相流流型显著改善冷凝传热性能的研究,国家自然科学基金青年项目,主持。
主要研究成果:
成功申请并授权美国专利1项,PCT国际专利1项,中国发明专利4项;正在申请发明专利4项;第一作者发表国内外学术论文30余篇。担任《Applied Energy》, 《Applied Thermal Engineering》及《Corrosion Science》《Corrosion Engineering Science and Technology》等国际期刊审稿人。
主要专利如下:
[1]    Hongxia Chen, Jinliang Xu, Wei Wang, Internal liquid separating hood type condensation heat exchange tube American, US2014/0138861 A1, 2014, Patent.
[2]    陈宏霞,徐进良,王伟,毛细结构分液式冷凝管,中国,2012/11, ZL 201110206781.6 ,发明专利/授权
[3]    陈宏霞,徐进良,王伟,一种内分液罩式冷凝换热管, 中国, 2013/3/6, ZL 201110214877.7,发明专利/授权
[4]    陈宏霞,徐进良,王伟,一种分液式螺旋管结构的 冷凝器,中国, 2013/6,  Z L201110259213.2, 发明专利/授权 
[5]    Hongxia Chen, Jinliang Xu, Wei Wang, Internal liquid separating hood-type condensation heat exchange tube, PCT, PCT/CN2012/000274。
[6]    陈宏霞,马学虎,白涛,一种抗腐蚀性复合SiO2膜的制备方法, 中国, 2007/ 11,ZL200610155919.3 发明专利/授权
[7]    陈宏霞,徐进良,一种固定汽化核心的多孔沸腾换热表面的制备方法,中国,发明,申请。
[8]    陈宏霞,徐进良,一种固定汽化核心的多孔壁面换热管,中国,发明,申请。
[9]    陈宏霞,徐进良,新型局部亲疏水改性多孔换热表面制备方法,中国,发明,申请。
学术论文:
[1]    Hongxia Chen, Jinliang Xu, Zijin Li, Feng Xing, Jian Xie, Wei Zhang, Stratified two-phase flow pattern modulation in a horizontal tube by the mesh pore cylinder surface , Applied Energy, 112, pp 1283-1290, 2013, EI, SCI 
[2]    Hongxia Chen, Jinliang Xu, Zijin Li, Feng Xing, Jian Xie, Modulated flow patterns for vertical upflow by the phase separation concept, Experimental Thermal and Fluid Science, 52, pp 297-307, 2014, EI,SCI
[3]    Hongxia Chen, Jinliang Xu, Zijin Li, Feng Xing, Jian Xie, Flow pattern modulation in a horizontal tube by the passive phase separation concept, International Journal of Multiphase Flow, 45, pp 12-23, 2012/5/12, EI,SCI 
[4]    Chen Qicheng, Xu Jinliang, Chen Hongxia, A new design method for Organic Rankine Cycles with constraint of inlet and outlet heat carrier fluid temperatures coupling with the heat source, Applied Energy, 98, pp 562-573, 2012/10, EI,SCI 
[5]    Hongxia Chen, Jinliang Xu, Tratified two-phase flow pattern modulation in a horizontal tube by the mesh pore cylinder surface, International Conference on Applied Energy, 2012/7/5-2012/7/8, 2012
[6]    Hongxia Chen, Jinliang Xu, Wei Wang, Numerical Simulation on Turbulent Flow and Heat Transfer of the Square Cross-section Helical Duct,International Conference on Materials for Renewable Energy & Environment, 2012/12/6-2012/12/8, 2012

 

 

张伟 博士、副教授、硕士生导师
研究方向:高热流密度电子芯片冷却、多相流与沸腾换热、强化传热与节能、基于微电子机械系统(MEMS)的微流动与传热、超临界流体换热、地热能高效利用与地热发电技术等。

主要工作经历:
2014.1- 至今  华北电力大学能源动力与机械工程学院
2009.9-2013.12  华北电力大学可再生能源学院
2008.7-2009.8  荷兰埃因霍温理工大学, 博士后
2003.8-2008.7 中国科学院广州能源研究所,博士 

主持或参与的主要项目:
1.    2015.1-2018.12,采用非均匀润湿性微纳复合结构强化沸腾传热机理研究,国家自然科学基金面上项目,主持
2.    2011.1-2013.12, 超临界压力下CO2在螺旋管内对流换热机理研究,国家自然科学基金青年项目,主持

3.   2013.1-2015.12,采用流型调控原理强化竖直管内流动沸腾换热的机理研究,北京市自然科学基金面上项目,主持

4.   2011.5-2013.12, 火电厂凝汽器耦合超临界CO2热泵的复合节能关键技术, 教育部归国留学研究启动基金项目, 主持
5.    2014.1-2015.12,地热井参数与发电模式优化匹配和技术风险评估以及影响汽轮机工作效率因素识别, 中石油集团企业合作项目,主持
    2013年入选华北电力大学创新人才支持计划青年骨干教师,教育部首批“全国高校黄大年式教师团队”骨干成员。长期致力于多相流动与传热、超临界流体传热、高效芯片冷却技术以及新能源发电等相关领域研究。曾主持及参与国家级、省部级及企业委托科研项目20项,在国内外权威期刊上发表SCI/EI/ISTP检索论文40余篇,申请和授权国家专利12项(已获国家发明专利授权8项),作为主要第5完成人获教育部自然科学一等奖1项,担任Applied Thermal Engineering、Solar Energy、International Journal of Thermal Science,International Journal of refrigeration、Lab on a Chip、 RSC advances、ASME Journal of Heat Transfer、Physics of Fluids等国际期刊审稿人, 2014中英国际传热研讨会大会组委会执行秘书,国家自然科学基金、北京市自然科学基金以及教育部学位与研究生教育发展中心通讯评议专家,中国石油集团、中国人民解放军火箭军、国家电网以及中国科学院力学所等知名机构的项目会议评审专家等。作为导师协助指导博士研究一名,独立指导硕士研究生10名,硕士生曾获国家奖学金。

已发表的代表性论文

[1] Zhang, W., Chai, Y., Xu, J., Liu, G., Sun, Y., 3D heterogeneous wetting microchannel surfaces for boiling heat transfer enhancement., Applied Surface Science, 2018457, 891-901.

[2] Zhang, W., Wang, S., Li, C., Xu, J., Mixed convective heat transfer of CO2 at supercritical pressures flowing upward through a vertical helically coiled tube. Applied Thermal Engineering, 2015,88, 61-70.

[3] Zhao, Y. D., Zhang, W., Wu, Z. Y., Sun, Y. Z., Xu, J. L., Experimental Study on Flow Boiling Heat Transfer in Open Parallel Microchannels. Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics, 2018, 39(7), 1498-1504.

[4] Zhang, W., Niu Z., Li, Y., Zhao Y., Xu J., Pool boiling heat transfer characteristics on graphene/nickel composite microstructures, Chemical Industry and Engineering Progress, 2018, 37(10), 3579-3764.

[5] Li, Y., Zhang, W., Wu, F., Chai, Y., Optimization of Double-Flash Geothermal Generation System Based on Reheating. Taiyangneng Xuebao/Acta Energiae Solaris Sinica,2018, 39(9), 2486-2492.

[6] Chai, Y. Z., Zhang, W., Zhao, Y. D., Li, Y., Effects of Wettability on Pool Boiling Heat Transfer of Micro/Nano-Composite Surface. Gao Xiao Hua Xue Gong Cheng Xue Bao/Journal of Chemical Engineering of Chinese Universities, 2017,31(4), 984-990.

[7] Chai, Y., Zhang, W., Li, Y., Zhao, Y., Pool boiling heat transfer on heterogeneous wetting microchannel surfaces. Huagong Xuebao/CIESC Journal, 2017,68(5), 1852-1859.

[8] Wang, S., Zhang, W., Xu, J., & Niu, Z.,. Experimental investigation on flow boiling heat transfer of CO2 in a helically coiled tube. Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering, 2014,34(5), 793-799. (EI)

[9] Zhang, W., Liu, G., Xu, J., Yang, Y., Effect of channel surface wettability and temperature gradients on the boiling flow pattern in a single microchannel. Journal of Micromechanics and Microengineering, 2009,19(5).

[10] Zhang, W., Xu, J., Thome, J. R., Periodic bubble emission and appearance of an ordered bubble sequence (train) during condensation in a single microchannel. International Journal of Heat and Mass Transfer, 2008,51(13-14), 3420-3433.


专利申请及授权情况

[1] 张伟; 赵亚东; 邬智宇; 孙远志; 徐进良,一种具有交错锯齿型肋壁的微通道蒸发器, 发明专利授权, 授权通知发文日: 2018.12.28, 专利号:ZL201710369845.1.

[2] 张伟; 武超群; 李长达; 徐进良,一种具有梯度毛细吸液芯的珠状凝结强化冷凝管,发明专利授权, 授权公告日:, 2016.07.27, 专利号:ZL201410446849.1.

[3] 张伟; 牛志愿; 武超群; 徐进良,太阳能光伏与光热耦合型太阳能电池及其耦合发电方法,发明专利授权, 授权公告日:2015.04.22 专利号: ZL201210492244.7.

[4] 张伟;徐进良,一种气泡摆动式微混合系统,发明专利授权, 授权公告日:2012.05.09, 专利号 ZL201010109622.X.

[5] 张伟; 邬智宇; 孙远志; 于俊杰; 徐进良,一种顶部联通的非均匀润湿性硅基微通道相变换热器,发明专利申请,实审中, 申请号 201711431929X.

[6] 张伟; 刘广林; 徐进良; 邬智宇; 孙远志; 于俊杰,一种脉动压力驱动的液态导电工质发电系统及发电方法,发明专利申请,实审中, 申请号 201711432314.9.

[7] 刘广林; 王宪; 徐进良; 张伟,一种基于液态金属的设备限温器及设备限温方法, 发明专利授权, 授权公告日:2018.04.10, 专利号 ZL201610394105.9.

[8] 徐进良;张伟;牛志愿;武超群, 一种利用回路型双工质脉动热管实现直接热发电系统, 实用新型专利授权,授权公告日:2013.04.17,专利号 ZL201220636552.8.

[9] 牛志愿;张伟;徐进良;吕泽,一种基于脉动热管的太阳能热电联产系统, 实用新型专利授权,授权公告日:2013.07.31,专利号 ZL201220694828.8.

[10]刘广林;徐进良;张兵;张伟, 一种非恒定废热双级有机朗肯循环发电系统, 实用新型专利授权,授权公告日:2014.07.02,专利号 ZL201420082166.8.


 

苗政博士,副教授,硕士生导师
研究方向:
中低温热源驱动有机朗肯循环发电实验及仿真,低温燃料电池水热管理实验及数值模拟,高效换热与节能技术等方面的研究工作。
主要经历:
2014.1-至今  华北电力大学,能源动力与机械工程学院
2014.10 -2015.2 比利时列日大学,访问学者
2012.1 -2014.1 华北电力大学,可再生能源学院;
2006.9–2011.10西安交通大学,能源与动力工程学院,博士;
2002.9–2006.7 西安交通大学,能源与动力工程学院,学位;
主持或参与的项目:
1.    2014.1-2016.12耦合传递与转换过程模型的有机朗肯循环热力学研究,国家自然科学基金青年项目,主持。
2.    2013.1-2017.12中低温热源驱动的有机工质朗肯循环热功转换的基础研究,国家自然科学基金国际合作项目,主参。

在国内外期刊发表学术论文30余篇,其中SCI检索10余篇。担任《Applied Energy》, 《Applied Thermal Engineering》及《Advances in Mechanical Engineering》等国际期刊论文评阅人。主要论文:
[1]    Miao Z, Xu JL, Yang XF, et al. Operation and performance of a low temperature organic Rankine cycle. Applied Thermal Engineering, 2015,75: 1065-1075.
[2]    Miao Z, Yang XF, Xu JL, et al. Development and dynamic characteristics of an Organic Rankine Cycle. Chinese Science Bulletin, 2014, 59(33): 4367-4378.
[3]    He YL, Miao Z, Zhao TS, et al. Numerical study of the effects of the GDL structure on water crossover in a direct methanol fuel cell. Int. J. Hydrogen Energy, 2012, 37(5): 4422-4438. 
[4]    He YL, Miao Z, Yang WW. Characteristics of heat and mass transport in a passive direct methanol fuel cell operated with concentrated methanol. J. Power Sources, 2012, 208(15): 180-186.
[5]    Miao Z, He YL, Zou JQ. Modeling the effect of anisotropy of gas diffusion layer on transport phenomena in a direct methanol fuel cell. J. Power Sources, 2010, 195(11): 3693-3708.
[6]    Miao Z, He YL, Li XL, et al. A two-dimensional two-phase mass transport model for direct methanol fuel cells adopting a modified agglomerate approach. J. Power Sources, 2008, 185(2): 1233-1246.

 

 

刘广林硕士 工程师

研究方向:

新能源高效利用技术、多相流强化换热

主要经历及介绍:

2011.7-今, 华北电力大学能源动力与机械工程学院,科研实验员

2008.9-2011.7,北京工业大学环境与能源工程学院,硕士研究生

 

刘欢硕士 助理工程师

研究方向:新能源节能环保

主要经历及介绍:

2013.08至今,华北电力大学能源动力与机械工程学院,科研实验员;

2010.09-2013.04,华北电力大学控制与计算机工程学院,硕士研究生;

2006.09-2010.07,华北电力大学数理学院,本科学士