张信荣

发布时间:2015-12-7 10:48:11 点击次数:2978

博士、教授



联系电话:010-62755052
电子邮箱:xrzhangcoe.pku.edu.cn


 

主要学术研究工作经历:


工作经历
2010/03-现在 北京大学     研究员、博士生导师
2007/03-2010/03 北京大学   特聘研究员、博士生导师
2004/04-2008/03 日本同志社大学    高级研究科学家与研究课题组长
2002/07-2004/03 日本东北大学    讲师
1998/06-2001/09 清华大学     助研


海外客座研究经历
2011.12-2012.01 日本东北大学   客座教授
2009.07-2009.12 加拿大国家研究委员会  访问教授
2008.04-现在    日本同志社大学    访问教授
2006.08-2006.10 挪威科学技术大学   客座高级研究员


研究兴趣:


新型能源系统、可再生式热能源、新型功能性流体构筑及其传热研究、微纳米与生物传热技术、先端海水淡化及污水处理技术、海洋植物资源(干燥、萃取精华素等)、海洋深层水上涌、水产品冷链保鲜等。



 背景资料:


目前担任北京市城市热管理工程技术研究中心主任、北京能源学会会长、新型能源系统研究中心主任等职。是天然工质热力学循环及其传热传质领域著名的研究科学家,多项天然工质CO2发电、制冷和制热热力学循环的创始人。在包括超临界流体动力学及传热、微纳米粒子相变传热、新型功能型流体材料等领域都有开创性研究成就。近年来技术研究开发主要集中在可再生式热能源的生产、传输、储存、转换和利用;建筑、工业过程中的冷热能高效利用等。在国际期刊发表论文180余篇,授权和申请专利60余项。担任International Journal of Energy Research, International Journal of Global Warming等四个国际期刊编委。获得北京市科技新星、杭州市千人专家、Elsevier能源领域中国高被引学者等多个荣誉称号。



学术论文:


Journal papers:

*(The corresponding author) 



2015

Si-Cong Yu, Lin Chen, Yan Zhao, Hong-Xu Li, X.R. Zhang*, Thermodynamic analysis of representative power generation cycles for low-to-medium temperature applications, International Journal of Energy Research, Vol. 39, pp. 84-97, 2015.

Special issue on Global warming and energetic solutions, Guest Editor: Xin-Rong (Ron.) Zhang, International Journal of Energy Research, 2015.

Global Warming And Its Energy Solutions, Guest Editor: Xin-Rong (Ron.) Zhang, International Journal of Global Warming,2015.

Lin Chen, Jia-Xiang Chen and Xin-Rong Zhang, Numerical simulation on the optical and thermal performance of a modified integrated compound parabolic solar concentrator, International Journal of Energy Research,Vol.39,pp.1843–1857, 2015.

 

2014

Lin Chen, Yi-Min Chen, Meng-He Sun, Ya-Long Zhang, X.R. Zhang*, Concept design and formation of a lithium bromide-water cooling system powered by supercritical CO2 solar collector, Energy Conversion and Management, Vol.85, pp.313-322, 2014.

L. Chen, X.R. Zhang*, Experimental analysis on a novel solar collector system achieved by supercritical CO2 natural convection, Energy Conversion and Management, Vol.77, pp.173-182, 2014.

L. Chen, X.R. Zhang*, Abnormal Microchannel Convective Fluid Flow near the Gas-Liquid Critical Point, Physica A, Vol.398, pp.10-24, 2014.

L. Chen, X.R. Zhang*, Heat Transfer and Various Convection Structures of Near-critical CO2 Flow in Microchannels, Applied Thermal Engineering, Vol. 72, pp. 135-142,2014.

 

2013

L. Chen, B.L. Deng, X.R. Zhang*, Experimental Study of Trans-critical and Supercritical CO2 Natural Circulation Flow in a Closed Loop, Applied Thermal Engineering, Vol.59, pp.317, 2013.

Lin Chen; Xin-Rong Zhang*; Junnosuke Okajima; Shigenao Maruyama,Thermal relaxation and critical instability of near-critical fluid microchannel flow ,Physical Review E - Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics, Vol.87, pp 1-8, 2013.

X.R. Zhang*, Y.L. Zhang, Experimental investigation on heat recovery from exhausted steam condensation of thermal power plant by CO2 vapor compression thermodynamic cycle, International Journal of Energy Research, Vol. 37, pp. 1908-1916, 2013.

L. Chen, B.L. Deng, X.R. Zhang*, Experimental Investigation of CO2 thermosyphon Flow and Heat Transfer in the Supercritical Region, International Journal of Heat and Mass Transfer, Vol.64, pp.202-211, 2013.

 

2012

Yuhui Cao; Xin-Rong Zhang*,Flow and heat transfer characterisitics of supercritical CO2 in a natural circulation loop ,International Journal of Thermal Sciences, Vol.55, pp 012510-012518, 2012.  

H. Yamaguchi, X.R. Zhang*, X.D. Niu, N. Hashitani, A novel thermally driven pump and its test in a supercritical CO2 loop system, International Journal of Energy Research, Vol. 37, pp. 1331-1338, 2012.

X.R. Zhang*, XiaoJuan Li, Energy and exergy performance investigation of transcritical CO2 -based Rankine cycle powered by solar energy, Science China Technological Sciences, Vol.55, pp.1427-1436, 2012.

Lin Chen, X.R. Zhang*, Suomi Cao, Hao Bai, Study of trans-critical CO2 natural convection flow with unsteady heat input and its implications on system control, International Journal of Heat and Mass Transfer, Vol.55, pp.7119-7132, 2012.

Li-Cong Jin, X.R. Zhang*, Xiao-Dong Niu, Lattice Boltzmann simulation for temperature-sensitive magnetic fluids in a porous square cavity, Journal of Magnetism and Magnetic Materials, Vol.324, pp.44-51, 2012.

 

2011

X.R. Zhang*, Hiroshi Yamaguchi, An experimental investigation on characterisitics of supercritical CO2-based solar Rankine system, International Journal of Energy Research, Vol.35-13, pp.1168-1178, 2011.

X.R. Zhang* and Yuhui Cao, A lattice Boltzmann model for natural convection with a large temperature difference, Progress in Computational Fluid Dynamics, Vol. 11-5, pp. 269-278, 2011.

X.R. Zhang* , Hiroshi Yamaguchi, An experimental study on heat transfer of CO2 solid-gas two phase flow with dry ice sublimation, International Journal of Thermal Sciences ,Vol 50, pp,2228-2234, 2011.

Lin Chen, X.R. Zhang*, Simulation of heat transfer and system behavior in a supercritical CO2 based thermosyphon: effect of pipe diameter, ASME Journal of Heat Transfer, Vol.133, 1225-1233, 2011.

 

2010

X.R. Zhang*, Lin Chen, Hiroshi Yamaguchi, Natural convective flow and heat transfer of supercritical CO2 in a rectangular circulation loop, International Journal of Heat and Mass Transfer, Vol. 53, pp.4112-4122, 2010.

X.R. Zhang*, Bi Li Deng, Hiroshi Yamaguchi, Bifurcation phenomenon for forced convection of supercritical CO2 sudden expansion flow and heat transfer in symmetric regime, International Journal of Heat and Mass Transfer, Vol. 53, pp.4467-4473, 2010.

Lin Chen, X.R. Zhang*, Hiroshi Yamaguchi, Simon Liu, Effect of heat transfer on the instabilities and transitions of supercritical CO2 flow in a natural circulation loop, International Journal of Heat and Mass Transfer, Vol.53, pp.4101-4111, 2010.

X.R. Zhang*, Li-Cong Jin, Xiao-Dong Niu, Hiroshi Yamaguchi, Lattice Boltzmann simulation for magnetic fluids in porous medium, Physics Procedia, Vol. 9, pp.162-166,2010.

 

2009

X.R.Zhang, CO2 natural convections: fundamental and applications, The 4th KIFEE Symposium on Environment, Energy, Material and Education, 6 - 9 September 2009, NTNU, Trondheim, Norway.

X.R.Zhang, L.Chen, H.Yamaguchi, Numerical analysis of the flow stability of a supercritical CO2 based natural circulation loop, The 20th International Symposium on Transport Phenomena, 7-10 July, 2009, Victoria BC, Canada.

X.R.Zhang, L.C.Jin, Numerical simulation on the evaporative heat transfer of CO2 flowing in a horizontal smooth micro-tube, The 20th International Symposium on Transport Phenomena, 7-10 July, 2009, Victoria BC, Canada.

X.R.Zhang, H.Yamaguchi, Solar powered thermodynamic cycle using supercritical fluids, Proceedings of the Inaugural US-EU-China Thermophysics Conference UECTC-RE 09, May 28-30, 2009 Beijing, China.

X.R.Zhang, J.Liu, H.Yamaguchi, A numerical study on heat transfer characterisitics of CO2-DME mixture fluid, 2009 ASME Summer Heat Transfer Conference, July 19-23, 2009, San Francisco, California USA.

H.Yamaguchi, X.R.Zhang, N. Sawada, H.Suzuki and H.Ueda, Experimental study on a solar water heater using supercritical carbon dioxide as working fluid, 2009 ASME Energy Sustainability Conference, July 19-23, 2009, San Francisco, California USA.

X.R.Zhang, H.Yamaguchi, Experimental investigation on heat transfer of CO2 solid-gas two phase flow with dry ice sublimation, 2009 ASME Summer Heat Transfer Conference, July 19-23, 2009, San Francisco, California USA.

X.R.Zhang, H.Yamaguchi, Y.Cao, The production of hydrogen by solar energy powered supercritical cycle using carbon dioxide, International Conference on Hydrogen Production, Oshawa, Ontario, Canada, May 3-6, 2009.

B.L Deng, X.R Zhang, Thermal effect on recirculation region of supercritical CO2 sudden expansion flow at low Reynolds numbers, The Sixth International Conference on Flow Dynamics, Nov. 4-6, Sendai, Japan, 2009.

B.L Deng, X.R Zhang, Bifurcation phenomenon for forced convection of supercritical CO2 fluid in plane symmetric sudden expansion, The Sixth International Conference on Flow Dynamics, Nov. 4-6, Sendai, Japan, 2009.

X.R Zhang, Advanced renewable thermal energy, Outstanding alumni session, The Sixth International Co, nference on Flow Dynamics, Nov. 4-6, Sendai, Japan, 2009. (Invited talk)

Yuhui Cao and Xin-Rong Zhang, Supercritical carbon dioxide natural convection in closed cavities, The International Workshop of Energy Conversion, Nov.25-27, 2009, Kyoto, Japan.

Lin Chen, Xin-Rong Zh, ang, Hiroshi Yamaguchi, Zhong-Sheng (Simon) Liu, Flow transitions of supercritical CO2 flow in a natural circulation loop, The International Workshop of Energy Conversion, Nov.25-27, 2009, Kyoto, Japan.


2008

X.R.Zhang, Solar energy powered thermodynamic cycle system using supercritical fluids, The Second China-Japan Joint Workshop of Energy Conversion—2008, Beijing, Nov 27-30, 2008.

X.R.Zhang, Jia Liu, Numerical study of laminar forced convection of CO2-DME fluid in a horizontal circular tube, The Second China-Japan Joint Workshop of Energy Conversion—2008, Beijing, Nov 27-30, 2008.

X.R.Zhang, The study on the flow dynamics and heat transfer for natural working fluid CO2, Invited talk of visiting fellows, Energy Conversion Research Center, Doshisha University, Kyoto of Japan, July 16, 2008. (In Japanese).


2007

X.R Zhang,  H. Yamaguchi, M. Masuda, Study on the CO2 solid-gas two phase flow with particle sublimation and its basic applications, Conference Proceedings of American Institute of Physics (AIP), Vol.832, pp. 419-424, 2007.

H.Yamaguchi, X.R.Zhang, Research development of -80 cryogenic refrigeration using natural working fluid CO2, The Kyoto International Symposium on Environment, Energy and Materials, Piazza Omi Otsu, Japan, December 4-7, 2007.

G.Nishioka, H.Yamaguchi, X.R.Zhang, S.Seto, N.Yamamoto, Flow characterisitics and performance of ER fluid viscous damper, The 2007 Spring Conference of the Society of Fluid Power System, Tokyo, Japan, May 23-25, 2007 (In Japanese).

X.R.Zhang, H.Yamaguchi, Heat transfer of supercritical carbon dioxide in a circular tube, The 44nd National Heat Transfer Sympoium, Nagasaki, Japan,May 22-25, 2007 (In Japanese).

X.R.Zhang, H.Yamaguchi, Flow and heat transfer performance of natural refrigerant-supercritical CO2, The 17th Comprehensive Environment Engineering Symposium, Osaka, Japan, July 19-20, 2007 (In Japanese).

H.Ueno, H.Yamaguchi, X.R.Zhang, Performance evaluation of Rankine cycle powered by supercritical carbon dioxide, Mechanical Engineering Congress, 2007 Japan (MECJ-07), September 9-12, 2007 (In Japanese).

M.Masuda, H.Yamaguchi, X.R.Zhang, Performance of heat pump achieved by CO2 solid-gas two phase flow, Mechanical Engineering Congress, 2007Japan (MECJ-07), September 9-12, 2007 (In Japanese).

X.R.Zhang, Energy conversion achieved by natural fluid carbon dioxide, Invited talk, Heat Transfer Society of Japan, Kyoto of Japan, December 14, 2007 (In Japanese).

X.R.Zhang, H.Yamaguchi, M.Masuda, Study on the CO2 Solid-gas Two Phase Flow with Particle Sublimation and Its Basic Applications, Fourth International Conference on Fluid Dynamics, Sendai, Miyagi, Japan, September 26-28, 2007.


2006

X.R.Zhang, H.Yamaguchi, K.Fujima, M.Enomoto, and N.Sawada, Experimental performance analysis supercritical CO2 thermodynamic cycle powered by solar energy, Conference Proceedings of American Institute of Physics (AIP), Vol.832, pp. 419-424, 2006.

H.Yamaguchi, X.R.Zhang, Flow phenomena of forced convective supercritical CO2 in a circular tube, Third International Conference on Fluid Dynamics, Matsushima, Miyagi, Japan, November 7-9, 2006.

H.Ueno, H.Yamaguchi, X.R.Zhang, Study on characteristics of solar Rankine CO2 system, Thermal Engineering-Conf. 06, JSME, Tokyo, Japan, Nov.24-25, 2006 (In Japanese).

X.R.Zhang, Forced convection heat transfer of supercritical CO2 in a horizontal circular tube, Kyoto International Forum on Environment and Energy,NTNU, Trondheim, Norway, September 6-8, 2006.

X.R.Zhang, M.Masuda, H.Yamaguchi, Basic CO2 flow behavior of cryogenic CO2 heat pump engineering, The 25th Conference of Japan Society of Energy and Resources, Osaka, Japan, June 8-9, 2006. (In Japanese).

X.R.Zhang, H.Yamaguchi, MHD power generation using electro conductive polymer mixing magnetic fluid, The 18th Symposium on Electromagnetics and Dynamics: SEAD 18, Kobe, May 18-19, 2006, pp. 101-102 (In Japanese).

H.Yamaguchi, X.R.Zhang, D.Uneno, H.Ueno, Study on characteristics of solar CO2 Rankine system using super critical CO2, Academic Frontier Research Project on “Next Generation Zero-Emission Energy Conversion System” Research Seminar, July 26, 2006, Kyoto, Japan.

D.Uneno, X.R.Zhang , H.Yamaguchi, Performance  estimation of solar Rankine system based on carbon dioxide, Thermal Engineering-Conf. 06, JSME,Tokyo, Japan, Nov. 15-16, 2006.


2005

X.R.Zhang, H.Yamaguchi, K.Fujima, M.Enomoto, and N.Sawada, Theoretical analysis of a thermodynamic cycle powered by solar energy for power andheat generation using supercritical carbon dioxide, The 18th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS 2005), June 20-24, 2005, NTNU, Trondheim, Norway, pp. 1641-1648.

X.R.Zhang and H.Yamaguchi, Solar energy powered Rankine cycle using supercritical carbon dioxide, Kyoto International Forum on Environment and Energy, October 5-7, 2005, Neesima-Kaikan and Kyoto Hotel Okura, Kyoto, Japan.

X.R.Zhang, H. Yamaguchi, K. Fujima, M. Enomoto, and N. Sawada, Study of solar energy powered Rankine cycle using supercritical carbon dioxide,The 2nd International Exergy, Energy and Environment Symposium (IEEES2), July 2-7, 2005, KOS, Greece.

X.R.Zhang, H.Yamaguchi, K.Fujima, M.Enomoto, and N.Sawada, Experimental study on solar energy Rankine cycle using carbon dioxide, The 6th World Conference on Experimental Heat Transfer, Fluid Mechanics, and Thermodynamics, April 17-21, 2005, Matsushima, Miyagi, Japan, pp. 114-115.

X.R.Zhang, H.Yamaguchi, K.Fujima, M.Enomoto, and N.Sawada, Characteristics study of solar CO2 Rankine system, Mechanical Engineering Congress, 2005 Japan (MECJ-05), September 19-22, 2005, pp. 175-176.

X.R.Zhang,, S, .M, ar, uy, ama, H.Yamaguchi, an, d, G.C, hen, A numerical solution of natural convection of a vertically oscillating flat plate, The 2nd International Exergy, Energy and Environment Symposium (IEEES2),  July 2-7, 2005, KOS, Greece.

H.Yamaguchi, X.R.Zhang, K.Fujima, M.Enomoto, and N.Sawada, An experimental investigation on thermodynamic cycle powered by solar energy usingcarbon dioxide, 2005 Solar World Congress, August 6-12, 2005, Orlando, Florida, USA.

X.R.Zhang, H.Yamaguchi, K.Fujima, M.Enomoto, and N.Sawada, Experimental performance analysis of supercritical CO2 Rankine cycle powered by solar energy, Second International Conference on Flow Dynamics, November 16-18, 2005, Sendai International Center, Sendai, Japan.

H.Yamaguchi and X.R.Zhang, Characteristics of energy conversion using magnetic fluid, Kyoto International Forum on Environment and Energy,October 5-7, 2005, Neesima-Kaikan and Kyoto Hotel Okura, Kyoto, Japan.

H.Yamaguchi, X.R.Zhang, D.Uneno, Characteristics investigation of solar energy powered Rankine cycle, The 24th Conference of Japan Society of Energy and Resources, Tokyo, June 9-10, 2005, pp.141-144. (In Japanese)

H.Yamaguchi, X.R.Zhang, T.Kitai, and K.Fujima, Heat transfer characteristics of solid-gas two phase flow with sublimation of carbon dioxide, The 2nd International Exergy, Energy and Environment Symposium (IEEES2), July 2-7, 2005, KOS, Greece.

H.Yamaguchi, D.Uneno, X.R.Zhang, Study on system behavior of solar Rankine system using super critical CO2, The 42nd National Heat Transfer Sympoium, Sendai, Japan, June 6-8, 2005, pp. 103-104 (In Japanese).

H.Yamaguchi, K.Shimada, X.R.Zhang, and D. Inoue, Flow characteristics of ER fluid in the model damper, International Symposium on Interdisciplinary Electromagnetic, Mechanic & Biomedical Problems ISEM 2005, September, 12-14, 2005, Bad Gasteim (Salzburg), Austria.

H.Yamaguchi, X.R.Zhang, D.Uneno, Performance estimation of solar Rankine system using super-critical CO2 for power generation, Academic Frontier Research Project on “Next Generation Zero-Emission Energy Conversion System” Research Seminar, July, 29, 2005, Kyoto, Japan.

H.Yamaguchi, K.Shimada, S.Shuchi, X.R.Zhang, and T.Kato, Thermo-magnetic natural convection in rectangular box, The Sixteenth International Symposium on Transport Phenomena (ISTP-16), August 29-September 1, 2005, Prague, Czech Republic.


2004

X.R.Zhang, S.Maruyama, M.Behnia, H.Yamaguchi, The mechanism of convection occurring in upwelling deep seawater using the perpetual salt fountain,Proceedings of the First International Forum on Heat Transfer, November 24-26, 2004, Kyoto, Japan, pp.247-248.

X.R.Zhang, H. Yamaguchi, K. Fujima, M. Enomoto, and N. Sawada, A novel concept — solar energy powered Rankine cycle using supercritical carbon dioxide, First International Conference on Flow Dynamics, Novermber. 11-12, 2004, Sendai, Japan, pp. 33-34.

X.R.Zhang, H.Yamaguchi, K.Fujima, M.Enomoto, and N.Sawada, Performance characteristics of supercritical solar Rankine system, Kyoto International Forum for Environment and Energy, November, 15-17, 2004, Kyoto, Japan.

X.R.Zhang, H.Yamaguchi, K.Fujima, M.Enomoto, and N.Sawada, An innovative concept − CO2-based Rankine cycle powered by solar energy, Academic Frontier Research Project on “Next Generation Zero-Emission Energy Conversion System” Technical Seminar on Energy Conversion and Heat Transport, November, 27, 2004, Kyoto, Japan.

K.Tsubaki, S.Maruyama, H.Mitsugashira, X.R.Zhang, A. Komiya, Creation of ocean forest by upwelling of deep seawater using perpetual salt fountains,OCEANS’04 MTS/IEEE/TECHNO-OCEAN’04 (OTO’04), Nov. 9-12, 2004, Kobe, Japan, pp. 33-34.


2003

S.Maruyama, K.Tsubaki, S.Sakai, X.R.Zhang, K.Taira, Cultivation of ocean desert by upwelling deep seawater using perpetual salt fountains: Laputa Project, Third International Symposium on Advanced Fluid Information AFI-2003, Nov. 21-22, 2003, New York.

X.R.Zhang, S.Maruyama, S.Sakai, K.Tsubaki, A numerical prediction of upwelling deep seawater using the Perpetual Salt Fountain, Proceedings of the Thermal Engineering-Conf. ’03, JSME, Kanazawa, Japan, Nov. 15-16, 2003, pp. 69-70.

X.R.Zhang, S.Maruyama, S.Sakai, K.Tsubaki, A numerical study of upwelling deep seawater using the perpetual salt fountain, The 15th Research Seminar of Institute of Fluid Science, Tohoku University, Sendai, Japan, December, 2003, pp. 5-7.

X.R.Zhang, S.Maruyama, S.Sakai, A numerical study of upwelling deep seawater using the Perpetual Salt Fountain, The 2003 Japan-Korea Heat Transfer Symposium “Heat transfer in Micro to Mega Scale, 2003, Sendai, Japan, pp. 26-28.