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张春路

 

联系地址:上海市曹安公路4800号 同济大学机械与能源工程学院制冷与低温工程研究所
邮政编码:201804
办公室:同济大学机械工程学院A429室
Email:chunlu.zhang@gmail.com
Website:http://greatlab.tongji.edu.cn/

 

 

教育经历

           1999       上海交通大学 制冷及低温工程专业,博士

           1997       上海交通大学 制冷及低温工程专业,硕士

           1994       上海交通大学 制冷设备与低温技术专业,学士

 

工作经历

           1999.08-2004.10       上海交通大学 制冷与低温工程所,讲师、副教授

           2004.10-2010.02       开利(Carrier)全球研发中心,技术经理、高级技术经理

           2010.03-现在         同济大学 机械与能源工程学院,教授、博士生导师、制冷与低温工程研究所所长

 

主要研究方向

           制冷空调系统仿真、优化与控制

           冷藏链技术

           先进制冷系统

 

教学工作与专业教材著作

           《制冷空调系统通用仿真平台GREATLAB使用手册与实例分析》. 北京: 化学工业出版社, 2015.

           《制冷空调系统仿真原理与技术》. 北京: 化学工业出版社, 2012.

           主讲“制冷技术”、“制冷装置自动化”、“制冷压缩机”、“Heat Transfer”、“Refrigeration System Modeling and Analysis”等课程.

 

承担或主要参与的科研项目

           上海市教育委员会科研创新项目重点项目:“基于部件神经网络模型的制冷空调系统混合仿真方法”

           中央高校基本科研业务费专项:“温湿度独立控制超市空调制冷系统节能关键技术”

           国家自然科学基金基金项目:“制冷系统仿真算法的图论生成方法”

           与美的、海尔、格力、Carrier等企业的合作项目

 

代表性论文(第一及通讯作者)

 

[1]     Yuan Han, Zhang Chunlu. Regenerated air cycle potentials in heat pump applications. International Journal of Refrigeration, 2015, 51: 1-11.

 

[2]     Sun Lei, Yang Liang, Shao Liangliang, Zhang Chunlu. Overall thermal performance oriented numerical comparison between elliptical and circular finned-tube condensers. International Journal of Thermal Sciences, 2015, 89: 234-244. (SCI: 000348879400021)

 

[3]     Yang Liang, Li Zeyu, Shao Liangliang, Zhang Chunlu. Model-based dimensionless neural networks for fin-and-tube condenser performance evaluation. International Journal of Refrigeration, 2014, 48: 1-9. (SCI: 000347592500002)

[4]     Yang Liang, Zhang Chunlu. A generalized dimensionless local power-law correlation for refrigerant flow through adiabatic capillary tubes and short tube orifices. International Journal of Refrigeration, 2014, 46: 69-76. (SCI: 000345233500009)

[5]     Hu Jian, Yang Liang, Shao Liangliang, Zhang Chunlu. Generic network modeling of reciprocating compressors. International Journal of Refrigeration, 2014, 45: 107-119. (SCI: 000343623100013)

[6]     Zhang Chunlu, Yuan Han. An important feature of air heat pump cycle: heating capacity in line with heating load. Energy, 2014, 72: 405-413. (SCI: 000340321100037)

[7]     Sun Lei, Zhang Chunlu. Evaluation of elliptical finned-tube heat exchanger performance using CFD and response surface methodology. International Journal of Thermal Sciences, 2014, 75: 45-53. (SCI: 000328012100005)

[8]     Shao Liangliang, Wang Jiangcui, Jin Xiaochen, Zhang Chunlu. Assessment of existing dimensionless correlations of refrigerant flow through adiabatic capillary tubes. International Journal of Refrigeration, 2013, 36(1): 270-278. (SCI: 000314375800025)

[9]     Shao Liangliang, Yang Liang, Zhao Lingxiao, Zhang Chunlu. Hybrid steady-state modeling of a residential air-conditioner system based on component neural networks. Energy and Buildings, 2012, 50: 189–195. (SCI: 000306040100020)

[10]   Shi Yuling, Yang Liang, Zhang Chunlu. Air management modeling of condensing units in a confined space and its impact on the chiller system performance. Energy and Buildings, 2011, 43(10): 2673–2677. (SCI: 000295297700014)

[11]   Zhang Weijiang, Zhang Chunlu. A correlation-free on-line optimal control method of heat rejection pressures in CO2 transcritical systems. International Journal of Refrigeration, 2011, 34(4): 844-850. (SCI: 000291576500004)

[12]   Ji Junjie, Shi Yuling, Zhang Chunlu. Hybrid numerical simulation of large-scale gas-fired tubular heat exchangers. HVAC&R Research, 2011, 17(1): 118-130. (SCI: 000288301200009)

[13]   Yang Liang, Zhang Chunlu. On subcooler design for integrated two-temperature supermarket refrigeration system. Energy and Buildings, 2011, 43(1): 224-231. (SCI: 000284682700027)

[14]   Zhang Weijiang, Zhang Chunlu. Transient modeling of an air-conditioner with a rapid cycling compressor and multi-indoor units. Energy Conversion and Management, 2011, 52(1): 1-7. (SCI: 000284746800001)

[15]   Shi Yuling, Ji Junjie, Zhang Chunlu. Semiporous media approach for numerical simulation of flow through large-scale sparse tubular heat exchangers. HVAC&R Research, 2010, 16(5): 617-628. (SCI: 000282307100005)

[16]   Zhao Lingxiao, Yang Liang, Zhang Chunlu. Network modeling of fin-and-tube evaporator performance under dry and wet conditions. ASME Journal of Heat Transfer, 2010, 132(7): 074502. (SCI: 000277388100017)

[17]   Zhao Lingxiao, Shao Liangliang, Zhang Chunlu. Steady-state hybrid modeling of economized screw water chillers using polynomial neural network compressor model. International Journal of Refrigeration, 2010, 33(4): 729-738. (SCI: 000278417400010)

[18]   Zhao Lingxiao, Zhang Chunlu. Fin-and-tube condenser performance evaluation using neural networks. International Journal of Refrigeration, 2010, 33(3): 625-634. (SCI: 000277936500021)

[19]   Shao Liangliang, Yang Liang, Zhang Chunlu. Comparison of heat pump performance using fin-and-tube and microchannel evaporators under frost conditions. Applied Energy, 2010, 87(4): 1187-1197. (SCI: 000274506500012)

[20]   Yang Liang, Zhang Chunlu. Analysis on energy saving potential of integrated supermarket HVAC and refrigeration systems using multiple subcoolers. Energy and Buildings, 2010, 42(2): 251-258. (SCI: 000274506500012)

[21]   Yang Liang, Zhao Lingxiao, Zhang Chunlu, Gu Bo. Loss-efficiency model of single and variable-speed compressors using neural networks. International Journal of Refrigeration, 2009, 32(6): 1423-1432. (SCI: 000269466700032)

[22]   Yang Liang, Zhang Chunlu. Modified neural network correlation of refrigerant mass flow rates through adiabatic capillary and short tubes: extension to CO2 transcritical flow. International Journal of Refrigeration, 2009, 32(6): 1293-1301. (SCI: 000269466700018)

[23]   Shao Liangliang, Yang Liang, Zhang Chunlu, Gu Bo. Numerical modeling of serpentine microchannel condensers. International Journal of Refrigeration, 2009, 32(6): 1162-1172. (SCI: 000269466700006)

[24]   Zhang Weijiang, Zhang Chunlu, Ding Guoliang. On three forms of momentum equation in transient modeling of residential refrigeration systems. International Journal of Refrigeration, 2009, 32(5): 938–944. (SCI: 000268048800019)

[25]   Zhang Weijiang, Ding Shufu, Zhang Chunlu. Transient modeling of an air-cooled chiller with economized compressor Part II: Application to control design. Applied Thermal Engineering, 2009, 29(11-12): 2403-2407. (SCI: 000269347000037)

[26]   Zhang Weijiang, Zhang Chunlu, Ding Guoliang. Transient modeling of an air-cooled chiller with economized compressor Part I: model development and validation. Applied Thermal Engineering, 2009, 29(11-12): 2396-2402. (SCI: 000269347000036)

[27]   Zhao Lingxiao, Zhang Chunlu, Gu Bo. Neural network based polynomial correlation of single and variable speed compressor performance. HVAC&R Research, 2009, 15(2): 255-268. (SCI: 000272788100006)

[28]   Zhao Lingxiao, Zhang Chunlu, Shao Liangliang, Yang Liang. A generalized neural network model of refrigerant mass flow through adiabatic capillary tubes and short tube orifices. ASME Journal of Fluids Engineering, 2007, 129(12): 1559-1564. (SCI: 000251911200011)

[29]   Shao Liangliang, Zhang Chunlu. Logic unconstrained multi-zone evaporator and condenser models. International Journal of Refrigeration, 2007, 30(5): 926-931. (SCI: 000248031400019)

[30]   Zhang Chunlu, Zhao Lingxiao. Model-based neural network correlation of refrigerant mass flow rates through adiabatic capillary tubes. International Journal of Refrigeration, 2007, 30(4): 690-698. (SCI: 000246937500012)

[31]   Wang Weijuan, Zhao Lingxiao, Zhang Chunlu. Generalized neural network correlation for flow boiling heat transfer of R22 and its alternative refrigerants inside horizontal smooth tubes. International Journal of Heat and Mass Transfer, 2006, 49(15-16): 2458-2465. (SCI: 000238245000006)

[32]   Zhang Weijiang, Zhang Chunlu. A generalized moving-boundary model for transient simulation of dry-expansion evaporators under larger disturbances. International Journal of Refrigeration, 2006, 29(7): 1119-1127. (SCI: 000240885300008)

[33]   Zhang Chunlu, Yang Liang. Modeling of supercritical CO2 flow through short tube orifices. ASME Journal of Fluids Engineering, 2005, 127(6): 1194-1198. (SCI: 000233282400018)

[34]   Zhang Chunlu. Generalized correlation of refrigerant mass flow rate through adiabatic capillary tubes using artificial neural network. International Journal of Refrigeration, 2005, 28(4): 506-514. (SCI: 000229380600007)

[35]   Yang Liang, Zhang Chunlu. Two-fluid model of refrigerant two-phase flow through short tube orifice. International Journal of Refrigeration, 2005, 28(3): 419-427. (SCI: 000227694600012)

[36]   Zhang Chunlu. Intensive parameter analysis of adiabatic capillary tube using approximate analytic solution. International Journal of Refrigeration, 2004, 27(5): 456-463. (SCI: 000223116600002)

[37]   Zhang Chunlu, Ding Guoliang. Approximate analytic solutions of adiabatic capillary tube. International Journal of Refrigeration, 2004, 27(1): 17-24. (SCI: 000186624500003)

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