个人简介
孙东亮,男,汉族,1977年7月生于河北省怀来县,工学博士,教授,硕士生导师,教育部新世纪优秀人才支持计划入选者,3次获得全国工程热物理传热传质会议青年优秀论文奖。
受教育经历:
2005/03-2009/06,西安交通大学,工程热物理专业,博士 (导师:陶文铨院士)
2002/09-2005/01,兰州交通大学,车辆工程(工程热物理专业),硕士(导师:王良璧教授)
1996/09-2000/07,兰州交通大学,供热、通风与空调工程专业,学士
研究工作经历:
2014/10-至今,北京石油化工学院,机械工程学院,教授
2013/09-2014/09,华北电力大学,能源动力与机械工程学院,副教授
2009/07-2013/08,华北电力大学,可再生能源学院,讲师/副教授
人才培养
独立和协助培养博士研究生3人,硕士研究生4人,其中博士研究生陈奇成于2011年获得华北电力大学校级优秀博士生称号,2012年获得国家奖学金;硕士研究生曹帧于2013年获得国家奖学金。
科学研究
现主持和参加国家级及省部级等项目17项;发表学术论文80余篇,其中SCI论文近40篇,EI论文近50篇;授权和申请发明专利4项,软件著作权5项;参与出版著作1部。
近年来主持或作为主要参与人员承担的科研项目:
序号项目名称项目类型经费万元研究起止时间本人 任务
1不同重力条件下相分离冷凝管流型调控与冷凝强化机理研究国家自然科学基金面上项目83万2015/01-2018/12主持
2高效稳定的流动与传热压力修正算法的构建及推广国家自然科学基金青年基金项目26万2012/01-2014/12主持
3微重力环境下相分离冷凝管内流型与传热协同机理研究教育部新世纪优秀人才支持计划50万2014/01-2016/12主持
4显热潜热复合型跨季节蓄热太阳能供热系统的基础研究北京市自然科学基金面上基金项目11万2011/01-2013/12主持
5相分离冷凝管在微重力环境下的换热性能研究北京市教育委员会共建项目30万2013/06-2014/06主持
6多相流动相分离理论及关键技术中央高校重大项目162万2014/04-2016/12主持
7高性能IDEAL算法的构建及其模糊调控中央高校面上项目8万2012/01-2013/12主持
8高性能太阳能跨季节蓄热系统的构建及研究中央高校面上项目8万2010/01-2011/12主持
9锅炉低温烟气余热深度利用的基础研究(课题3)国家重点基础研究发展计划(973计划)2873万(650万)2011/01-2015/12参加
10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基金项目80万2012/01-2015/12参加
11基于格子Boltzmann方法的多孔介质沸腾传热机理研究国家自然科学基金青年基金项目25万2013/01-2015/12参加
12超临界压力下CO2在螺旋管中对流换热机理研究国家自然科学基金青年基金项目20万2011/01-2013/12参加
13毛细结构调控两相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基金项目26万
2012/01-2014/12参加
14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(地区)合作交流项目280万2013/01-2017/12参加
15大功率LED关键热物理问题的基础研究国家自然科学基金重点基金项目190万2011/01-2014/12参加
16煤的清洁转化与高效利用高等学校学科创新引智计化(“111计划”)900万2013/01-2017/12参加
软件著作权
[1] 孙东亮,徐进良. 基于三维交错网格的高效稳定流动与传热计算软件. 软件著作权,登记号:2013SR018475, 2013.
[2] 孙东亮, 徐进良, 陈奇成, 曹桢. 求解两相流问题的VOSEAL方法计算软件. 软件著作权,登记号:2012SR112239, 2012.
[3] 栾辉宝,徐辉,陈黎,孙东亮,陶文铨.有限容积法与格子Boltzmann方法耦合模拟流动问题的计算软件.软件著作权,授权号:2010SR030954, 2010.
[4] 孙东亮,徐进良,杨勇平.求解两相流问题的ADV-VOF方法计算软件 V1.0.软件著作权,授权号:2009SRBJ8339, 2009.
[5] 孙东亮,屈治国,何雅玲,陶文铨.IDEAL算法数值求解流动传热问题计算软件 V1.0.软件著作权,授权号:2007SR20095, 2007.
发明专利
[1] 孙东亮, 徐进良, 陈奇成. 一种相分离微通道冷凝器. 2013, 中国, CN103335549A.
[2] 孙东亮, 徐进良, 杨勇平. 显热潜热混合型太阳能跨季节蓄热系统. 2013, 中国, ZL200910236573.3.
[3] 安宾,孙东亮,徐进良. 自动式微尺度气液相分离器. 2014, 中国, CN201410250650.1.
[4] 曹帧,徐进良,孙东亮. 内插锥形丝网强化传热管. 2014, 中国, CN201410341551.4.
荣誉奖励
[1] 教育部新世纪优秀人才支持计划入选者,教育部,2013年
[2] 全国工程热物理传热传质会议青年优秀论文二等奖(第一获奖人);获奖论文:求解流动与传热问题的一种高效稳定的分离式算法-IDEAL(上/下);获奖人:孙东亮,屈治国,何雅玲,陶文铨;2008年
[3] 全国工程热物理传热传质会议青年优秀论文二等奖(第二获奖人);获奖论文:Krylov子空间法在SIMPLER算法中的求解性能分析;获奖人:金巍巍,孙东亮,陶文铨,何雅玲;2006年
[4] 全国工程热物理传热传质会议青年优秀论文三等奖(第一获奖人);获奖论文:内螺纹肋管内流动与传热的数值模拟;获奖人:孙东亮,樊菊芳,王良璧;2004年
[5] 西安交通大学优秀博士毕业生,2009年
科研合作意向
[1] 流动与传热等工程热物理相关领域的数值模拟与研究
[2] 高效稳定的流动与传热计算体系的构建及软件系统开发
[3] 精确汽液界面捕捉方法和汽液相变模型的构建及软件系统开发
[4] 强化传热及节能技术及其工程应用
[5] 可再生能源及低品位能源热利用
近期论文
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[1] Sun D L, Xu J L, Chen Q C. Modeling of Evaporation and Condensation Phase-Change Problems with FLUENT. Numerical Heat Transfer Part B-Fundamentals, Vol. 66, pp. 326-342, 2014. (SCI/EI)
[2] Sun D L, Xu J L, Ding P, Tao W Q. Implementation of the Ideal Algorithm on Unsteady Two-Phase Flows and Application Examples, Numerical Heat Transfer Part B-Fundamentals, Vol. 63(3), pp. 204-221, 2013. (SCI/EI)
[3] Sun D L, Xu J L, Wang L. Development of a Vapor-Liquid Phase Change Model for Volume-of-Fluid Method in FLUENT. Int. Communications in Heat Mass Transfer, Vol. 39 (8), pp. 1101-1106, 2012. (SCI/EI)
[4] Sun D L, Tao W Q, Xu J L, Qu Z G. Implementation of IDEAL algorithm on non-orthogonal curvilinear coordinates for solution of 3D incompressible fluid flow and heat transfer problems. Numerical Heat Transfer PART B, Vol. 59(2), pp. 147-168, 2011. (SCI/EI)
[5] Sun D L, Tao W Q. A coupled volume-of-fluid and level set (VOSET) method for computing incompressible two-phase flows. International Journal of Heat and Mass Transfer, Vol. 53(4), pp. 645-655, 2010. (SCI/EI)
[6] Sun D L, Qu Z G, He Y L, Tao W Q. Performance analysis of IDEAL algorithm for three-dimensional incompressible fluid flow and heat transfer problems. International Journal for Numerical Methods in Fluids, Vol. 61(10), pp. 1132-1160, 2009. (SCI/EI)
[7] Sun D L, Qu Z G, He Y L, Tao W Q. An efficient segregated algorithm for incompressible fluid flow and heat transfer problems - IDEAL (Inner Doubly Iterative Efficient Algorithm for Linked Equations) part I: Mathematical formulation and solution procedure. Numerical Heat Transfer PART B, Vol. 53(1), pp. 1-17, 2008. (SCI/EI)
[8] Sun D L, Qu Z G, He Y L, Tao W Q. An efficient segregated algorithm for incompressible fluid flow and heat transfer problems - IDEAL (Inner Doubly Iterative Efficient Algorithm for Linked Equations) part II: Application Examples. Numerical Heat Transfer PART B, Vol. 53(1), pp. 18-38, 2008. (SCI/EI)
[9] Sun D L, Xu J L, Ding P. Performance Analyses of IDEAL Algorithm on Highly Skewed Grid System. Advances in Mechanical Engineering, Article ID 813510, 10 pages, 2014. (SCI/EI)
[10] Sun D L, Xu J L, Ding P. Numerical research on relationship between flow pattern transition and condensation heat transfer in microchannel. Engineering Computations, Vol. 31 (5), pp. 939-956, 2014. (SCI/EI)
[11] Sun D L, Xu J L, Chen Q C, Cao Z. Numerical study of flow pattern modulation in a vertical phase separation condenser tube. Chinese Science Bulletin, Vol. 58 (13), pp. 1592-1598, 2013. (SCI)
[12] Sun D L, Xu J L, Ding P. Performance Analysis and Application of Three Different Computational Methods for Solar Heating System with Seasonal Water Tank Heat Storage. Advances in Mechanical Engineering , Article ID 857941, 2013. (SCI/EI)
[13] Sun D L, Liu Q P, Xu J L, Tao W Q. Effects of inner iteration times on the performance of IDEAL algorithm. Int. Communications in Heat Mass Transfer, Vol. 38 (9), pp. 1195-1200, 2011. (SCI/EI)
[14] Sun D L, Yang Y P, Xu J L, Tao W Q. An Improved Volume of Fluid Method for Two-Phase Flow Computations on Collocated Grid System. ASME Journal of Heat Transfer, Vol. 133(4), pp. 041901, 2011. (SCI/EI)
[15] Sun D L, Yang Y P, Xu J L, Tao W Q. Performance Analysis of IDEAL Algorithm Combined with Bi-CGSTAB Method. Numerical Heat Transfer PART B, Vol. 56(6), pp. 411-431, 2010. (SCI/EI)
[16] Sun D L, Qu Z G, He Y L, Tao W Q. Implementation of an efficient segregated algorithm-IDEAL on a 3D collocated grid system. Chinese Science Bulletin, Vol. 54(6), pp. 929-942, 2009. (SCI)
[17] Sun DL, Xu JL, Chen QC, Yan YY. Effect of gravity levels on the flow pattern modulation by the phase separation concept. Computers and Fluids, accepted, 2014. (SCI/EI)
[18] Sun DL, Xu JL, Xie J, Xing F. Modulated flow pattern in a condenser tube with two-phase flow interacting with mesh screen surface at micro-gravity, International Journal of Multiphase Flow, accepted, 2014. (SCI/EI)
[19] Xu JL, Yang CY, Zhang W, Sun DL. Turbulent convection heat transfer of CO2 in a helical tube at near-critical pressure. International Journal of Heat and Mass Transfer, Vol.80, pp. 748-758, 2015. (SCI/EI)
[20] Xu JL, An B, Sun DL. The phase separation in a rectangular microchannel by micro-membrane. Applied Thermal Engineering, accepted, 2014. (SCI/EI)
[21] Chen Q C, Xu J L, Sun D L. The bubble leakage mechanism for vertical upflows by the phase separation concept. Chinese Science Bulletin, Vol. 59(21), pp. 2638-2646, 2014. (SCI)
[22] Cao Z, Xu J L, Sun D L , Xie J, Xing F, Chen Q C, Wang X D. Numerical simulation of modulated heat transfer tube in laminar flow regime. International Journal of Thermal Sciences, Vol. 75, pp. 171-183, 2014. (SCI/EI)
[23] Ding P, Sun D L. A pressure based segregated solver for incompressible flow on unstructured grids. Numerical Heat Transfer PART B, Vol. 64(6), pp. 460-479, 2013. (SCI/EI)
[24] Chen Q C, Xu J L, Sun D L, Cao Z, Xie J, Xing F. Numerical simulation of the modulated flow pattern for vertical upflows by the phase separation concept. International Journal of Multiphase Flow, Vol. 56, pp. 105-118, 2013. (SCI/EI)
[25] Zong LX, Sun D L, Xu J L Wang X D. Numerical study of seed bubble-triggered evaporation heat transfer in a single microtube. Microfluids and Nanofluidics, Vol. 16(1-2), pp. 347-360, 2013. (SCI/EI)
[26] Ding P, Xu M H, Sun D L. Estimation of Unknown Inlet Temperature Profile Using an Improved Gbest-PSO. Journal of Information Science and Engineering, Vol. 28 (1), pp. 67-82, 2012. (SCI/EI)
[27] Luan H B, Xu H, Chen L, Sun D L, Tao W Q. Evaluation of the Coupling Scheme of FVM and LBM for Fluid Flows around Complex Geometries. International Journal of Heat and Mass Transfer, Vol. 54(9-10), pp. 1975-1985, 2011. (SCI/EI)
[28] Guo D Z, Sun D L, LI Z Y, Tao W Q. Phase change heat transfer simulation for boiling bubbles arising from a vapor film by VOSET method. Numerical Heat Transfer PART A, Vol. 59(11), pp. 857-881, 2011. (SCI/EI)
[29] Sun H, Lauriat G, Sun D L, Tao WQ. Transient double-diffusive convection in an enclosure with large density variations. International Journal of Heat and Mass Transfer, Vol. 53(4), pp. 615-625, 2010. (SCI/EI)
[30] Luan H B, Xu H, Chen L, Sun D L. Tao W Q. Numerical illustrations of the coupling between Lattice Boltzmann method and finite-type macro-numerical methods. Numerical Heat Transfer PART B, Vol. 57 (2), pp. 147-171, 2010. (SCI/EI)
[31] Song K W, Wang L B, Sun D L. Convective heat transfer and absolute vorticity flux along main flow in a channel formed by flat tube bank fins with vortex generators mounted on both fin surfaces. Journal of Enhanced Heat Transfer, Vol. 16(2), pp. 123-139, 2009. (SCI/EI)
[32] Lin Z M, Sun D L, Wang L B. The relationship between absolute vorticity flux along the main flow and convection heat transfer in a tube inserting a twisted tape. Heat and Mass Transfer, Vol. 45 (11), pp. 1351-1363, 2009. (SCI/EI)
[33] Wu Z G, Zhang J Z, Sun D L, Tao W Q. An efficient solver for the algebraic equations resulting form discretization of the governing equations for fluid flow and heat transfer. Numerical Heat Transfer PART B, Vol. 56 (1), pp. 58-74, 2009. (SCI/EI)
[34] Chang L M, Wang L B, Song K W, Sun D L, Fan J F. Numerical study of the relationship between heat transfer enhancement and absolute vorticity flux along main flow direction in a channel formed by a flat tube bank fin with vortex generators, International Journal of Heat and Mass Transfer, Vol. 52(7-8), pp. 1794-1801, 2009. (SCI/EI)
[35] Chen Y Y, Song K W, Wang L B, Sun D L. Comparisons of Local Experimental Results with Numerical Results of Heat Transfer Enhancement of a Flat Tube Bank Fin with Vortex Generators. Numerical Heat Transfer PART A, Vol. 55(2), pp. 144-162, 2009. (SCI/EI)
[36] Zhu C L, Liang H, Sun D L, Wang L B. Numerical study of interactions of vortices generated by vortex generators and their effects on heat transfer enhancement. Numerical Heat Transfer PART A, Vol. 50(4), pp. 353-368, 2006. (SCI/EI)
[37] 孙东亮,王丽,徐进良,卢晓岩. 跨季节蓄热水箱温度分层模型的研究及应用. 太阳能学报,第35卷,第2期,291-298页,2014. (EI)
[38] 孙东亮,徐进良,陈奇成,曹桢. 重力对垂直相分离冷凝管内流型调控的影响研究.化工学报, 第64卷,第9期,3189-3197页,2013. (EI)
[39] 孙东亮,徐进良,陶文铨. IDEAL算法在非稳态两相流问题中的性能分析. 化工学报,第63卷,第6期,1723-1728页,2012. (EI)
[40] 孙东亮,徐进良,王丽. 求解两相蒸发和冷凝问题的气液相变模型. 西安交通大学学报,第46卷,第7期,7-11页,2012. (EI)
[41] 孙东亮,屈治国,何雅玲,陶文铨.求解流动与传热问题的一种高效稳定的分离式算法-IDEAL.工程热物理学报,第30卷,第9期,1369-1372页,2009. (EI)
[42] 孙东亮,陶文铨.高密度和高粘度比率下气液两相流动的数值模拟.工程热物理学报,第28卷,第4期,667-669页,2007. (EI)
[43] 孙东亮,陶文铨,王良璧.涡强化扁管管片散热器传热特性及场协同原理分析.工程热物理学报,第27卷,第2期,325-327页,2006. (EI)
[44] 孙东亮,樊菊芳,王良璧.内螺纹肋管内流动与传热的数值模拟.工程热物理学报,第26卷,第3期,483-485页,2005. (EI)
[45] 孙东亮,王良璧.含扭曲带管内流动与传热的数值模拟.化工学报,第55卷,第9期,1422-1427页,2004. (EI)
[46] 宗露香,徐进良,王晓东,孙东亮. 高热流作用下微通道内种子气泡热控沸腾传热数值模拟. 机械工程学报,第49卷,第14期,125-132页,2013. (EI)
[47] 叶政钦,刘启鹏,李星红,杨兴利,孙东亮. 复杂两相流中界面追踪方法-VOSET的性能分析. 化工学报,第62卷,第6期,1524-1530页,2011. (EI)
[48] 菅振,孙东亮,吴志根,李增耀,陶文铨. 一种处理不规则边界的二维切削网格方法. 工程热物理学报,第31卷,第5期,835-838页,2010. (EI)
[49] 李盈海,陶文铨,孙东亮,赵长颖.金属泡沫管内强制对流换热的数值模拟.西安交通大学学报,第42卷,第3期,261-264页,2008. (EI)
[50] 金巍巍,孙东亮,陶文铨,何雅玲.Krylov子空间法在SIMPLER算法中的求解性能分析.工程热物理学报,第28卷,第3期,478-480页,2007. (EI)
[51] 史百战,孙东亮,王良璧.涡强化扁管管片散热器流动与传热的数值模拟.化工学报,第57卷,第2期,263-268页,2006. (EI)
[52] Sun D L, Xu J L. A Similarity Principle Research Method for Solar Heating System with Seasonal Water Tank Heat Storage. Proceedings - 2012 International Conference on Biomedical Engineering and Biotechnology, pp. 21-25, Macau, China, 2012. (EI)
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