|
||||||||||||
|
教育背景
|
||||||||||||
|
||||||||||||
|
|
||||||||||||
|
工作经历
2016-至今 上海交通大学 机械与动力工程学院 副研究员,博士生导师
2015-2016 上海交通大学 机械与动力工程学院 助理研究员,博士生导师 2014-2015 上海交通大学 机械与动力工程学院 助理研究员 2012-2014 上海交通大学 机械与动力工程学院 博士后 2002-2005 中国石油集团 长庆油田 助理工程师 |
||||||||||||
|
|
||||||||||||
|
出访及挂职经历
暂无
|
||||||||||||
|
|
||||||||||||
|
研究方向
多孔材料内传热传质机理
电子器件散热 相变蓄热 |
||||||||||||
|
|
||||||||||||
|
科研项目
2016-2019 国家自然科学基金面上项目:梯度金属泡沫内流动沸腾传热机理研究 负责人
2015-2017 上海市自然科学基金面上项目:梯度金属泡沫池沸腾换热性能和机理的基础研究 负责人 2013-2014 中国博士后科学基金一等面上项目:渐变形貌金属泡沫池沸腾换热及强化研究 负责人 2015-2017 国家自然科学基金青年项目:热喷涂中热质耦合对涂层微结构影响的机理研究 参与人 2012-2016 国家科技部“973”项目:多形态工业余热高效存储的新原理、新技术及其应用 参与人 |
||||||||||||
|
|
||||||||||||
|
代表性论文专著
[1] Z .G. Xu, C. Y. Zhao. Enhanced boiling heat transfer by gradient porous metals in saturated pure water and surfactant solutions. Applied Thermal Engineering, 2016, 100: 68-77.
[2] Z .G. Xu, C. Y. Zhao. Experimental study on pool boiling heat transfer in gradient metal foams. International Journal of Heat and Mass Transfer, 2015, 85: 824-829. [3] Z. G. Xu, Z. G. Qu, C. Y. Zhao, W. Q. Tao. Experimental correlation for pool boiling heat transfer on metallic foam surface and bubble cluster growth behavior on grooved array foam surface.International Journal of Heat and Mass Transfer, 2014, 77:1169-1182. [4] Z .G. Xu, C. Y. Zhao. Influence of nanoparticles on pool boiling heat transfer in porous metals. Applied Thermal Engineering, 2014, 65: 34-41. [5] Z .G. Xu, C. Y. Zhao. Pool boiling heat transfer of open-celled metal foams with V-shaped grooves for high pore densities. Experimental Thermal and Fluid Science, 2014, 52: 128-138. [6] Z. G. Xu, C. Y. Zhao. Thickness effect on pool boiling heat transfer of trapezoid-shaped copper foam fins. Applied Thermal Engineering, 2013, 60: 359-370. [7] Z. G. Xu, Z. G. Qu, C. Y. Zhao, W. Q. Tao. Experimental study of pool boiling heat transfer on metallic foam surface with U-shaped and V-shaped grooves. Journal of Enhanced Heat Transfer, 2012, 19: 549-559. [8] Z. G. Xu, Z. G. Qu, C. Y. Zhao, W. Q. Tao. Experimental study of pool boiling heat transfer on horizontal metallic foam surface with crossing and single-directional V-shaped groove in saturated water. International Journal of Multiphase Flow, 2012, 41: 44-55. [9] Z. G. Xu, Z. G. Qu, C. Y. Zhao, W. Q. Tao. Pool boiling heat transfer on open-celled metallic foam sintered surface under saturation condition. International Journal of Heat and Mass Transfer, 2011, 54: 3856-3867. [10] C. Y. Zhao, Y. N. Ji, Z. G. Xu. Investigation of the Ca(NO3)2-NaNO3 mixture for latent heat storage. Solar Energy Materials & Solar Cells, 2015, 140: 281-288. [11] H. J. Xu, C. Y. Zhao, Z. G. Xu. Analytical considerations of slip flow and heat transfer through microfoams in mini/micro channels with asymmetric wall heat fluxes. Applied Thermal Engineering, 2016, 93:15-26. [12] Y. Zhao, C. Y. Zhao, Z. G. Xu. Modeling metal foam enhanced phase change heat transfer in thermal energy storage by using phase field method.International Journal of Heat and Mass Transfer, 2016, 99:170-181. [13] Z. G. Qu, D. G. Li, J. Y. Huang, Z. G. Xu, X. L. Liu, W. Q. Tao. Experimental investigations of pool boiling heat transfer on horizontal plate sintered with metallic fiber felt. International Journal of Green Energy, 2012, 9: 22-38.[14] H. J. Xu, L. Gong, C. Y. Zhao, Y. Yang, Z. G. Xu. Analytical considerations of local thermal non-equilibrium conditions for thermal transport in metal foams. International Journal of Thermal Sciences, 2015, 95: 73-87. [15] Z. G. Xu, R.L.Huang, C. Y. Zhao. Experimental Investigation on pool boiling heat transfer of gradient metal foams. 12th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, 2016, Malaga, Costa Del Sol, Spain. [16] Z. G. Xu, C.Y. Zhao. Investigation on pool boiling heat transfer of metal foams with gradient pore densities. Proceedings of the International Conference on Power Engineering, 2015, Yokohama, Japan. [17] Z. G. Xu, C. Y. Zhao. Groove distance effect on pool boiling heat transfer of metal foams with high pore densities. [Invited talk]. International Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control, 2015, Taipei, Taiwan. [18] Z. G. Xu, C. Y. Zhao. Pool boiling of open-celled metal foams. International Workshop on Thermal Management of High Power Microsystems Using Multiphase Flow, 2014, Shanghai, China. [19] Z. G. Xu, C. Y. Zhao. Nanoparticle deposition effect on pool boiling heat transfer of metal foams. International Heat Transfer Symposium, 2014, Beijing, China. [20] Z. G. Xu, C. Y. Zhao. Single-directional and crossing V-shaped groove effect on pool boiling heat transfer of metal foam with high pore densities. International Conference on Materials for Renewable Energy & Environment, 2013, Chengdu, China. [21] Z. G. Xu, C. Y. Zhao. Grooves' distance effect on pool boiling heat transfer of metal foams with high pore density. 8th World Conference on Experimental Heat Transfer, Fluid Dynamics and Thermodynamics, 2013, Lisbon, Portugal. [22] Z. G. Xu, C. Y. Zhao. Thickness effect on pool boiling heat transfer of metal foams with the low pore density. Proceedings of the International Conference on Power Engineering, 2013, Wuhan, China. [23] Z. G. Xu, Z. G. Qu, C. Y. Zhao, W. Q. Tao. Experimental study of boiling pattern and heat transfer performance of metallic foam surface with square columns. International Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control, 2011, Xi’an, China. [24] Z. G. Xu, Z. G. Qu, C. Y. Zhao, W. Q. Tao. Experimental study of natural convection in horizontally-positioned open-celled metal foams. International Conference on Materials for Renewable Energy & Environment, 2011, Shanghai, China. [25] Y. Zhao, C. Y. Zhao, Z. G. Xu. Numerical study of solid-liquid phase change by phase field model. Asian Symposium on Computational Heat Transfer and Fluid Flow, 2015, Busan, Korea. |
||||||||||||
|
|
||||||||||||
|
教学工作
课程名称:传热学
授课对象:本科生 学时数:48 学分:3.0 |
||||||||||||
|
|
||||||||||||
|
软件版权登记及专利
[1] 徐治国,赵长颖.渐变形貌特征的通孔金属泡沫及其制备方法和换热装置. 发明专利,公布号:CN 103060592A.
[2] 徐治国,赵长颖.基于冲击射流的高孔密度通孔金属泡沫电子器件散热装置. 发明专利,授权号:ZL 201310027366.3. [3] 徐治国,赵长颖.具有渐变形貌特征的通孔金属泡沫热管换热装置. 发明专利, 授权号:ZL 201410160129.9. [4] 徐治国,赵长颖.渐变金属泡沫基相变蓄热装置. 发明专利,公布号: CN 103234377A. [5] 徐治国,赵长颖.预混预热型梯密度金属泡沫燃烧器. 发明专利,授权号: ZL 201310496700.X. [6] 徐治国,赵长颖.梯密度通孔金属泡沫及其制备方法. 发明专利, 授权号: ZL 201310499157.9. [7] 徐治国,赵长颖.梯密度通孔金属泡沫及其简易制备方法. 发明专利, 公布号: CN 104354337A. [8] 徐治国,赵长颖.基于金属泡沫的汽车尾气净化器. 发明专利, 公布号: CN 104594995A. [9] 徐治国,赵长颖.梯度金属泡沫散热装置. 发明专利, 公布号: CN 104729338A. [10] 徐治国,赵长颖.孔密度渐变通孔金属泡沫热管换热装置.发明专利,授权号:ZL 201410483506.2. [11] 徐治国,赵长颖.金属纤维毡的制备方法. 发明专利,授权号:ZL 201410061055.3. [12] 纪育楠,赵长颖,徐治国.相变蓄热介质. 发明专利, 公布号: CN 103923615A. [13] 赵长颖,陈云宇,徐治国.相变蓄热介质及其制备及应用. 发明专利,公布号:CN 105131911A. |
||||||||||||
|
|
||||||||||||
|
学术兼职
[1] 《International Journal of Heat and Mass Transfer》期刊审稿人
[2] 《International Journal of Thermal Sciences》期刊审稿人 [3] 《Canadian Journal of Physics》期刊审稿人 [4] 《Jounal of Porous Media》期刊审稿人 [5] 《中国石油大学学报》期刊审稿人 [6] 《热科学与技术》期刊审稿人 |
||||||||||||
|
|
||||||||||||
|
荣誉奖励
2015 上海交通大学优秀班主任
2015 Session Chair of International Conference on Power Engineering, Yokohama, Japan 2014 Session Chair of International Heat Transfer Symposium, Beijing, China 2013 Session Chair of International Conference on Power Engineering, Wuhan, China 2012 《通孔金属泡沫中的空气自然对流传热试验研究》被授予 “《西安交通大学学报》年度最具学术影响力优秀论文” 2011 中国光华科技基金会奖励 . |
||||||||||||
|
|
||||||||||||
|
已上传文件
|
||||||||||||
|
|
||||||||||||
