孙中宁

孙中宁，教授，博士生导师，哈尔滨工程大学“兴海学术团队”负责人，黑龙江省核动力装置性能与设备重点实验室主任。1990年参加工作，先后主讲了《核动力设备》、《反应堆热工水力》、《反应堆结构与材料》、《先进核动力反应堆》、《强化换热》、《热流体学》等6门本科生和研究生课程，培养硕士/博士研究生数十人，多次受到学校表彰；先后承担科研课题数十项，获得国家科技进步二等奖1项，省部级科技进步一等奖1项，省部级科技进步二等奖4项，省部级科技发明二等奖1项，省部级科技进步三等奖7项，发表学术论文300余篇，获国家及国际发明专利数十项，省部级专利优秀奖1项，出版教材2部，。

1995年9月~2000年3月，哈尔滨工程大学动力与核能工程学院轮机工程专业博士研究生，获工学博士学位
1987年9月~1990年4月，哈尔滨船舶工程学院反应堆工程与反应堆安全专业硕士研究生，获工学硕士学位
1983年9月~1987年7月，哈尔滨船舶工程学院核动力装置专业本科生，获工学学士学位

2005年12月至今，哈尔滨工程大学核科学与技术学院，教授，博士生导师
2003年8月~2005年11月，哈尔滨工程大学动力与核能工程学院，教授，博士生导师
2003年10月~2004年10月，日本原子能研究所MEXT Nuclear Researcher
2000年11月~2003年4月，哈尔滨工业大学能源科学与工程学院动力工程及工程热物理博士后科研流动站，博士后
1999年8月~2003年7月，哈尔滨工程大学动力与核能工程学院，副教授，硕士生导师
1993年6月~1999年7月，哈尔滨工程大学动力工程系，讲师
1990年4月~1993年5月，哈尔滨船舶工程学院动力工程系，助教

　　反应堆热工水力及其严重事故缓解：主要包括沸腾传热与气液两相流动，壁面及直接接触冷凝传热，反应堆非能动安全，放射性物质迁移与滞留。

[1] Sun Zhongning, Sun Futai, Yan Changqi, Huang Weitang. Heat Transfer and Fluid Friction in Tubes with Metal Mesh Roughness Elements, Proceedings of the 3th International Symposium on Multiphase Flow and Heat Transfer, Xi'an, 1994
[2] Sun Zhongning, Yan Changqi, Du Ze. Effects of vapor phase on boiling heat transfer. Proceedings of the 4th International Symposium on Multiphase Flow and Heat Transfer, Xi'an, 1999
[3] X.X. Cao, C.Q. Yan, P.Z. Gao, Z.N. Sun, Pressure drop correlations of single-phase and two-phase flow in rolling tubes, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2006.
[4] X.C. Li, Z.N. Sun, Experimental study of flooding in vertical narrow rectangular channels, in: AIP Conference Proceedings, 2010.
[5] N. Zhang, Z. Sun, Prediction of pressure drop in air-water two phase upflow through packed bed, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2010.
[6] X. Li, Z. Sun, The effects of test section length on flooding in vertical narrow rectangular channels, in: Asia-Pacific Power and Energy Engineering Conference, APPEEC, 2011.
[7] X.K. Meng, Z.N. Sun, G.Z. Xu, The numerical simulation of fluid flow and heat transfer in the pebble bed, in: Asia-Pacific Power and Energy Engineering Conference, APPEEC, 2012.
[8] J. Su, Z. Sun, G. Fan, M. Ding, Experimental investigation of the steam condensation with air and helium, in: AIP Conference Proceedings, 2013, pp. 400-409.
[9] X. Guangzhan, Z. Sun, X. Meng, X. Zhang, J. Su, Y. Zhou, Subcooled flow boiling heat transfer in olumetrically heated packed bed, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2014.
[10] X. Guo, Z. Sun, J. Wang, J. Su, Study on the flow characteristics for an open natural circulation system, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2014.
[11] J. Su, Z. Sun, Y. Zhou, C. Yan, G. Xu, Y. Wang, An experimental investigation of steam condensation in the presence of non-condensable gases for nuclear plant containment, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2014.
[12] J. Wang, Z. Ge, Z. Sun, C. Yan, The surge line stress analysis model setup with the consideration of thermal stratification, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2014.
[13] H. Xiaofan, Z. Sun, F. Guangming, J. Tang, J. Su, Flow characteristics in an open two-phase natural circulation loop, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2014.
[14] Y. Zhou, Z. Sun, H. Gu, J. Wang, Z. Miao, Research on performance of gas methyl iodide removal, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2014.
[15] X. Hou, Q. Sun, Z. Sun, H. Xu, H. Chen, J. Tang, X. Wu, Experiment investigation on convection heat transfer in a heating tube on the natural circulation condition, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2015.
[16] N. Zhang, Z. Sun, M. Ding, Computational fluid dynamics simulations of fluid flow in random packed bed with spheres, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2015.
[17] H. Bian, Z. Sun, M. Ding, N. Zhang, Y. Yang, W. Tian, A fluid film CFD model for steam condensation in presence of air, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2016.
[18] J. Wen, Z. Sun, H. Gu, Y. Zhou, Experimental study on decontamination factor of methyl iodide by bubbling, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2016.
[19] N. Zhang, Z. Sun, M. Ding, Single phase flow in the randomly packed bed with spheres: Simulation and experimental validation, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2016.
[20] H. Bian, Z. Sun, M. Ding, N. Zhang, Z. Meng, Application and evaluation of automatic wall treatment on diffusion boundary layer based steam condensation model in presence of air, in: 17th International Topical Meeting on Nuclear Reactor Thermal Hydraulics, NURETH 2017, 2017.
[21] W. Li, L. Sun, Z. Sun, Z. Meng, H. Wang, C. Wang, Experimental investigation of sonic steam jet submerged in quiescent water, in: 17th International Topical Meeting on Nuclear Reactor Thermal Hydraulics, NURETH 2017, 2017.
[22] J. Wen, H. Gu, Q. Sun, Z. Sun, Z. Miao, A new image processing method for large and irregular bubbles in large-scale pool, in: 17th International Topical Meeting on Nuclear Reactor Thermal Hydraulics, NURETH 2017, 2017.
[23] Z. Guo, Z. Sun, N. Zhang, M. Ding, H. Bian, Z. Meng, DEM-CFD study on fluid flow through radial layered composite packed beds, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2018.
[24] W. Li, Z. Meng, Z. Sun, J. Liu, Experimental investigation on steam jet condensation in subcooled water through double nozzle, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2018.
[25] Y. Zhou, H. Gu, Q. Sun, Z. Sun, J. Su, L. Gao, Q. Ma, G. Zhu, L. Yingzhi, Research on deposition of micro-nano aerosols in rising bubble under pool scrubbing condition, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2018.
[26] Z. Guo, Z. Sun, N. Zhang, M. Ding, J. Zhou, CFD study of fluid distribution in fixed pebble bed with flow guiding conduit, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2019.
[27] Y. Li, Z. Sun, Y. Zhou, Q. Ma, H. Gu, G. Zhu, Experimental study on aerosol removal characteristics by pool scrubbing under normal conditions, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2019.
[28] X. Liu, J. Wang, Z. Sun, Z. Meng, Numerical simulation of direct contact condensation in containment suppression pool with MELCOR, in: International Conference on Nuclear Engineering, Proceedings, ICONE, 2019.
[29] 孙中宁,杜泽,吴志强,彭敏俊. 对流换热中变物性修正的一种方法. 全国高等学校工程热物理研究会学术会议论文集,武汉,199
[30] 孙中宁. 晶体加热表面对流换热机理—影响对流换热的内在因素. 中国工程热物理学会传热传质学术会议论文集,合肥,1998
[31] 孙中宁.晶体加热表面对流换热机理—晶体加热表面对流力. 中国工程热物理学会传热传质学术会议论文集,合肥,1998
[32] 孙中宁，阎昌琪，杜泽，黄渭堂. 竖直环隙流道内长聚合汽泡的形成机理. 中国工程热物理学会传热传质学术会议论文集,苏州,1999
[33] 孙中宁，阎昌琪，杜泽，光管及窄环隙流道池沸腾换热实验研究，中国工程热物理学会传热传质学术会议论文集,济南，2000
[34] 杨继伟，孙中宁. 入口条件对数直窄矩形通道液泛的影响，中国工程热物理学会多相流学术会议论文集，中国：大庆2007
[35] 孙中宁. 低压低流速高过冷流动沸腾实验研究，全国反应堆热工流体力学会议论文集，2007年10月，北京
[36] 张楠，孙中宁. 多孔介质内气液两相竖直向上流动流型的实验研究. 中国工程热物理学会多相流学术会议论文集. 厦门，2010
[37] 范广铭,孙中宁,王盟. 扁管及斜微肋扁管换热和阻力实验研究. 中国工程热物理学会传热传质学术会议论文集，上海，2010
[38] 宿吉强，孙中宁，范广铭，高力，丁铭．蒸汽冷凝传热中壁面过冷度的实验研究论．中国工程热物理会议文集，2013．
[39] 宿吉强，孙中宁，潘丽强，张楠．竖管管外含空气蒸汽冷凝传热理论研究．中国工程热物理会议文集，2014．
[40] 温济铭, 孙中宁, 周艳民. 自吸式文丘里水洗器引射特性数值分析. 全国反应堆热工流体学术会议暨中核核反应堆热工水力技术重点实验室2015年度学术年会，中国北京，2015.
[41] 仝潘, 范广铭, 孙中宁, 丁铭, 竖直波节管外含空气蒸汽冷凝传热特性研究, 第十四届全国反应堆热工流体学术会议暨中核核反应堆热工水力技术重点实验室2015年度学术年会, 中国北京, 2015
[42] 李昊, 孙中宁, 谷海峰, 徐慧强, 水平管内含空气蒸汽强制对流冷凝平均换热特性实验研究, 第十四届全国反应堆热工流体学术会议暨中核核反应堆热工水力技术重点实验室2015年度学术年会, 中国北京, 2015
[43] 苗壮, 孙中宁, 谷海峰, 周艳民, 结构参数对自吸式文丘里洗涤器引射量的影响, 第十四届全国反应堆热工流体学术会议暨中核核反应堆热工水力技术重点实验室2015年度学术年会, 中国北京, 2015
[44] 苗壮, 孙中宁, 谷海峰, 周艳民, 高速文丘里洗涤器压降计算模型, 第十四届全国反应堆热工流体学术会议暨中核核反应堆热工水力技术重点实验室2015年度学术年会, 中国北京, 2015
[45] 温济铭, 孙中宁, 周艳民, 自吸式文丘里水洗器引射特性数值分析, 第十四届全国反应堆热工流体学术会议暨中核核反应堆热工水力技术重点实验室2015年度学术年会, 中国北京, 2015
[46] 周艳民, 孙中宁, 谷海峰, 苗壮, 文丘里洗涤器去除气溶胶特性实验研究, 第十四届全国反应堆热工流体学术会议暨中核核反应堆热工水力技术重点实验室2015年度学术年会, 中国北京, 2015.

　　

招生方向：核反应堆热工水力，核动力装置性能与设备

研究方向：反应堆热工水力及其严重事故缓解：主要包括沸腾传热与气液两相流动，壁面及直接接触冷凝传热，反应堆非能动安全，放射性物质迁移与滞留

反应堆热工水力，核动力设备，反应堆结构与材料

先进核动力反应堆，强化传热

　　

《核动力工程》编委
《应用科技》编委
中国核学会船用核动力委员会，理事
黑龙江省核学会，理事

[1] 阎昌琪,孙中宁,曹夏昕. 一种针翅管与光管混合排列自支撑式换热器，CN100588894B, 2010-02-10.
[2] 孙中宁,阎昌琪,曹夏昕. 具有除尘功能的管壳式换热器，CN100588894C, 2010-06-16.
[3] 孙中宁,阎昌琪,范广铭,范文辉. 低速热流体流量计，CN101738230B, 2011-04-20.
[4] 阎昌琪,孙中宁,谷海峰等. 均压式密度锁，CN101572128B, 2011-09-14.
[5] 范广铭,孙中宁,阎昌琪等. 多功能宽流程单相对流换热试验装置，CN102081060B, 2012-07-11.
[6] 孙中宁,阎昌琪,孙立成等. 强内热源多孔介质通道强迫对流换热实验装置，CN102081059B, 2013-02-06.
[7] 范广铭,孙中宁,宿吉强等. 一种基于氢气泡流动显示技术的边界层可视化试验装置，CN102426092B, 2013-11-20.
[8] 谷海峰,孙中宁,周夏峰等. 一种双筒多级流化循环型气溶胶发生装置，CN102658039B, 2014-03-26.
[9] 孙中宁,范广铭,阎昌琪等. 一种非能动安全壳冷却系统，CN102637465B, 2014-07-16.
[10] 范广铭,丁铭,孙中宁等. 含有多组分不凝性气体的蒸汽冷凝换热实验装置， CN103033532B, 2014-08-20.
[11] 谷海峰,孙中宁,周艳民等. 气态甲基碘动态配送系统，CN102629493B, 2014-08-20.
[12] 孙中宁,丁铭,范广铭等. 可实现自然循环与强迫循环耦合的冷凝换热实验装置，CN103196945B,2014-12-17.
[13] 谷海峰,孙中宁,张娜娜等.一种高温高湿环境下的碘蒸气取样装置，CN103257059B, 2015-02-25.
[14] 谷海峰,孙中宁,王军龙等. 一种可在线加碘的碘蒸气配送装置，CN103111211B, 2015-04-08.
[15] 丁铭,孙中宁,谷海峰等. 带长期水封功能的自启动气体排放装置，CN103137222B, 2015-04-08.
[16] 谷海峰,孙中宁,周艳民等. 适用于高压蒸汽管路环境下的甲基碘气体采样系统，CN103197341B,2015-05-20.
[17] 谷海峰,孙中宁,周艳民等. 一种分体自吸式文丘里管洗涤器，CN103566683B, 2015-06-17.
[18] 孙中宁,高力,谷海峰等. 非能动安全壳冷却系统蒸汽排放装置，CN103474109B, 2015-10-28.
[19] 谷海峰,孙中宁,王军龙等. 一种自吸式文丘里水洗器性能实验系统，CN103900842B, 2016-06-29.
[20] 谷海峰,孙中宁,苗壮等. 一种可防冷却水流失的长期水封非能动蒸汽排放装置，CN104299658B, 2016-08-24.
[21] 刘长亮,朱京梅,孙中宁等. 一种气溶胶金属纤维过滤器，CN104667663B, 2017-01-25.
[22] 谷海峰,孙中宁,徐慧强等. 一种长期非能动运行的安全壳过滤排放系统，CN106384607B, 2017-11-21.
[23] 周艳民,谷海峰,王晨等. 一种安全壳长期卸压过滤系统，CN106504811B, 2017-12-19.
[24] 曹夏昕,曹鹏久,孙中宁等. 一种适用于长期运行工况下的开式非能动热量导出系统，CN106409354B, 2018-01-19.
[25] 孙中宁,范广铭,丁铭等. 安全壳冷却系统及安全壳与反应堆压力容器联合冷却系统，CN106104701B, 2018-06-08.
[26] 曹夏昕,曹鹏久,孙中宁等. 一种用于系统自然循环能力提升研究的两相流动装置，CN106229017B, 2018-07-31.
[27] 谷海峰,孙中宁,徐慧强等. 一种宽过冷度含多元气体的水平管内蒸汽冷凝换热实验系统，CN106918622B, 2019-07-16.
[28] 谷海峰,孙中宁,周艳民等. 一种可高效去除有机碘的安全壳过滤排放系统，CN108022659B, 2019-10-08.

[1] 孙中宁，范广铭，王建军. 反应堆热工水力学，哈尔滨工程大学出版社，2017
[2] 孙中宁. 核动力设备。哈尔滨工程大学出版社，第二版，2017

英文论文：
[1] Z.N. Sun, Mechanism of convection heat transfer on a heated crystal surface, Heat Transfer - Asian Research, 29(7) (2000) 573-580.
[2] L. Du, R. Tian, P. Zhang, Z. Sun, Numerical simulation and experiment investigating the performance of a capacitance sensor measuring the humidity of wet steam, Measurement Science and Technology, 22(12) (2011).
[3] X. Meng, Z. Sun, G. Xu, Single-phase convection heat transfer characteristics of pebble-bed channels with internal heat generation, Nuclear Engineering and Design, 252 (2012) 121-127.
[4] M. Ali, C. Yan, Z. Sun, H. Gu, K. Mehboob, Dust particle removal efficiency of a venturi scrubber, Annals of Nuclear Energy, 54 (2013) 178-183.
[5] M. Ali, C. Yan, Z. Sun, H. Gu, J. Wang, Study of iodine removal efficiency in self-priming venturi scrubber, Annals of Nuclear Energy, 57 (2013) 263-268.
[6] M. Ali, C. Yan, Z. Sun, H. Gu, J. Wang, K. Mehboob, Iodine removal efficiency in non-submerged and submerged self-priming venturi scrubber, Nuclear Engineering and Technology, 45(2) (2013) 203-210.
[7] M. Ali, C. Yan, Z. Sun, J. Wang, H. Gu, CFD simulation of dust particle removal efficiency of a venturi scrubber in CFX, Nuclear Engineering and Design, 256 (2013) 169-177.
[8] J. Su, Z. Sun, G. Fan, M. Ding, Experimental study of the effect of non-condensable gases on steam condensation over a vertical tube external surface, Nuclear Engineering and Design, 262 (2013) 201-208.
[9] J. Su, Z. Sun, M. Ding, G. Fan, Analysis of experiments for the effect of noncondensable gases on steam condensation over a vertical tube external surface under low wall subcooling, Nuclear Engineering and Design, 278 (2014) 644-650.
[10] J. Su, Z. Sun, D. Zhang, Numerical analysis of steam condensation over a vertical surface in presence of air, Annals of Nuclear Energy, 72 (2014) 268-276.
[11] J. Wang, X. Guo, S. Yu, B. Cai, Z. Sun, C. Yan, Study on the behaviors of a conceptual passive containment cooling system, Science and Technology of Nuclear Installations, 2014 (2014).
[12] G. Xu, Z. Sun, X. Meng, X. Zhang, Flow boiling heat transfer in volumetrically heated packed bed, Annals of Nuclear Energy, 73 (2014) 330-338.
[13] G. Xu, Z. Sun, X. Meng, X. Zhang, A study of bubble behaviors in the volumetrically heated packed bed, Progress in Nuclear Energy, 76 (2014) 100-105.
[14] X. Guo, Z. Sun, J. Wang, S. Yu, Simulating investigations on the start-up of the open natural circulation system, Nuclear Engineering and Design, 289 (2015) 35-48.
[15] X. Guo, Z. Sun, J. Wang, S. Yu, L. Gao, Numerical simulation of the transient behaviors in an open natural circulation system with a large scale, Annals of Nuclear Energy, 77 (2015) 83-93.
[16] P. Tong, G. Fan, Z. Sun, M. Ding, Experimental study of steam-air condensation over a vertically longitudinal finned tube, International Journal of Heat and Mass Transfer, 89 (2015) 1230-1238.
[17] P. Tong, G. Fan, Z. Sun, M. Ding, J. Su, An experimental investigation of pure steam and steam-air mixtures condensation outside a vertical pin-fin tube, Experimental Thermal and Fluid Science, 69 (2015) 141-148.
[18] Y. Zhou, Z. Sun, H. Gu, Z. Miao, Experimental research on aerosols collection performance of self-priming venturi scrubber in FCVS, Progress in Nuclear Energy, 85 (2015) 771-777.
[19] Y. Zhou, Z. Sun, H. Gu, Z. Miao, Structure design on improving injection performance for venturi scrubber working in self-priming mode, Progress in Nuclear Energy, 80 (2015) 7-16.
[20] X. Guo, Z. Sun, J. Wang, S. Yu, Steady-state performances and scaling analyses for an open flashing-driven natural circulation system, Progress in Nuclear Energy, 87 (2016) 1-14.
[21] X. Hou, Z. Sun, J. Su, G. Fan, An investigation on flashing instability induced water hammer in an open natural circulation system, Progress in Nuclear Energy, 93 (2016) 418-430.
[22] H. Xu, Z. Sun, H. Gu, H. Li, Forced convection condensation in the presence of noncondensable gas in a horizontal tube; Experimental and theoretical study, Progress in Nuclear Energy, 88 (2016) 340-351.
[23] H. Xu, Z. Sun, H. Gu, H. Li, Experimental study on the effect of wall-subcooling on condensation heat transfer in the presence of noncondensable gases in a horizontal tube, Annals of Nuclear Energy, 90 (2016) 9-21.
[24] Y. Zhou, Z. Sun, H. Gu, Z. Miao, Performance of iodide vapour absorption in the venturi scrubber working in self-priming mode, Annals of Nuclear Energy, 87 (2016) 426-434.
[25] H. Bian, Z. Sun, M. Ding, N. Zhang, Local phenomena analysis of steam condensation in the presence of air, Progress in Nuclear Energy, 101 (2017) 188-198.
[26] X. Guo, Z. Sun, J. Wang, S. Yu, Scaling analyses for the open flashing-driven natural circulation system, Nuclear Engineering and Design, 324 (2017) 111-121.
[27] Z. Guo, Z. Sun, N. Zhang, M. Ding, X. Cao, Radial porosity peak at the centerline of packed beds with small tube to particle diameter ratios, Powder Technology, 319 (2017) 445-451.
[28] Z. Guo, Z. Sun, N. Zhang, M. Ding, J. Liu, Pressure drop in slender packed beds with novel packing arrangement, Powder Technology, 321 (2017) 286-292.
[29] Z. Guo, Z. Sun, N. Zhang, M. Ding, J. Wen, Experimental characterization of pressure drop in slender packed bed (1 < D/d < 3), Chemical Engineering Science, 173 (2017) 578-587.
[30] X. Hou, Z. Sun, G. Fan, L. Wang, Experimental and analytical investigation on the flow characteristics in an open natural circulation system, Applied Thermal Engineering, 124 (2017) 673-687.
[31] X. Hou, Z. Sun, W. Lei, Capability of RELAP5 code to simulate the thermal-hydraulic characteristics of open natural circulation, Annals of Nuclear Energy, 109 (2017) 612-625.
[32] Z. Meng, L. Ding, Z. Qiu, Z. Sun, C. Yan, S. Qiu, G. Su, W. Tian, Model application research for liquid entrainment through ADS-4 pipe in AP1000, Annals of Nuclear Energy, 110 (2017) 1043-1051.
[33] J. Wen, H. Gu, Z. Sun, Y. Zhou, A theoretical model and experiment validation on filtration characteristics of methyl iodide in bubble column, International Journal of Heat and Mass Transfer, 114 (2017) 1263-1273.
[34] H. Xu, H. Gu, Z. Sun, Forced convection condensation of steam in the presence of multicomponent noncondensable gases inside a horizontal tube, International Journal of Heat and Mass Transfer, 104 (2017) 1110-1119.
[35] X. Yan, G. Fan, Z. Sun, Study on flow characteristics in an open two-phase natural circulation loop, Annals of Nuclear Energy, 104 (2017) 291-300.
[36] J. Zhou, Z. Sun, M. Ding, H. Bian, N. Zhang, Z. Meng, CFD simulation for flow distribution in manifolds of central-type compact parallel flow heat exchangers, Applied Thermal Engineering, 126 (2017) 670-677.
[37] H. Bian, C. Kurwitz, Z. Sun, K. Cheng, K. Chen, Enhanced nucleate boiling on 3D-printed micro-porous structured surface, Applied Thermal Engineering, 141 (2018) 422-434.
[38] H. Bian, Z. Sun, X. Cheng, N. Zhang, Z. Meng, M. Ding, CFD evaluations on bundle effects for steam condensation in the presence of air under natural convection conditions, International Communications in Heat and Mass Transfer, 98 (2018) 200-208.
[39] H. Bian, Z. Sun, N. Zhang, Z. Meng, M. Ding, A preliminary assessment on a two-phase steam condensation model in nuclear containment applications, Annals of Nuclear Energy, 121 (2018) 615-625.
[40] G. Fan, P. Tong, Z. Sun, Y. Chen, Experimental study of pure steam and steam–air condensation over a vertical corrugated tube, Progress in Nuclear Energy, 109 (2018) 239-249.
[41] G. Fan, P. Tong, Z. Sun, Y. Chen, Development of a new empirical correlation for steam condensation rates in the presence of air outside vertical smooth tube, Annals of Nuclear Energy, 113 (2018) 139-146.
[42] W. Li, Z. Meng, Z. Sun, L. Sun, C. Wang, Investigations on the penetration length of steam-air mixture jets injected horizontally and vertically in quiescent water, International Journal of Heat and Mass Transfer, 122 (2018) 89-98.
[43] W. Li, Z. Meng, J. Wang, Z. Sun, Effect of non-condensable gas on pressure oscillation of submerged steam jet condensation in condensation oscillation regime, International Journal of Heat and Mass Transfer, 124 (2018) 141-149.
[44] J. Wen, K. Shi, Q. Sun, Z. Sun, H. Gu, Measurement for surface tension of aqueous inorganic salt, Frontiers in Energy Research, 6(MAR) (2018).
[45] J. Wen, Q. Sun, Z. Sun, H. Gu, An improved image processing technique for determination of volume and surface area of rising bubble, International Journal of Multiphase Flow, 104 (2018) 294-306.
[46] G. Xu, X. Zhang, Z. Sun, J. Ruan, B. He, Flow patterns and transition criteria in boiling water-cooled packed bed reactors, Progress in Nuclear Energy, 108 (2018) 214-221.
[47] J. Zhou, M. Ding, H. Bian, Y. Zhang, Z. Sun, CFD simulation for the effect of the header match on the flow distribution in a central-type parallel heat exchanger, Chemical Engineering Research and Design, 136 (2018) 144-153.
[48] J. Zhou, M. Ding, Z. Meng, Y. Zhang, Z. Sun, Reducing the flow distribution in central-type compact parallel flow heat exchangers having optimized tube structure, Frontiers in Energy Research, 6(JUN) (2018).
[49] H. Bian, Z. Sun, N. Zhang, Z. Meng, M. Ding, A new modified diffusion boundary layer steam condensation model in the presence of air under natural convection conditions, International Journal of Thermal Sciences, 145 (2019).
[50] H. Bian, Z. Sun, N. Zhang, Z. Meng, M. Ding, Numerical investigations on steam condensation in the presence of air on external surfaces of 3 × 3 tube bundles, Progress in Nuclear Energy, 111 (2019) 42-50.
[51] Z. Guo, Z. Sun, N. Zhang, X. Cao, M. Ding, Mean porosity variations in packed bed of monosized spheres with small tube-to-particle diameter ratios, Powder Technology, 354 (2019) 842-853.
[52] Z. Guo, Z. Sun, N. Zhang, M. Ding, Influence of confining wall on pressure drop and particle-to-fluid heat transfer in packed beds with small D/d ratios under high Reynolds number, Chemical Engineering Science, 209 (2019).
[53] Z. Guo, Z. Sun, N. Zhang, M. Ding, H. Bian, Z. Meng, Computational study on fluid flow and heat transfer characteristic of hollow structured packed bed, Powder Technology, 344 (2019) 463-474.
[54] Z. Guo, Z. Sun, N. Zhang, M. Ding, S. Shi, CFD analysis of fluid flow and particle-to-fluid heat transfer in packed bed with radial layered configuration, Chemical Engineering Science, 197 (2019) 357-370.
[55] Z. Guo, Z. Sun, N. Zhang, M. Ding, Y. Zhou, Influence of flow guiding conduit on pressure drop and convective heat transfer in packed beds, International Journal of Heat and Mass Transfer, 134 (2019) 489-502.
[56] W. Li, Z. Meng, J. Wang, J. Liu, Z. Sun, Experimental investigations on pressure oscillation induced by steam-air mixture gas sonic jets in subcooled water, International Journal of Heat and Mass Transfer, 128 (2019) 450-458.
[57] W. Li, Z. Sun, Z. Meng, G. Fan, J. Wang, Experimental investigations on the interfacial characteristics of steam-air mixture sonic jets in subcooled water, International Journal of Heat and Mass Transfer, 144 (2019).
[58] W. Li, J. Wang, Z. Sun, J. Liu, Z. Meng, Experimental investigation on thermal stratification induced by steam-air mixture vertical injection with shallow submergence depth, Progress in Nuclear Energy, 115 (2019) 52-61.
[59] W. Li, J. Wang, Z. Sun, Y. Zhou, J. Liu, Z. Meng, Experimental investigation on thermal stratification induced by steam direct contact condensation with non-condensable gas, Applied Thermal Engineering, 154 (2019) 628-636.
[60] W. Li, J. Wang, Y. Zhou, Z. Sun, Z. Meng, Investigation on steam contact condensation injected vertically at low mass flux: Part I pure steam experiment, International Journal of Heat and Mass Transfer, 131 (2019) 301-312.
[61] Y. Li, Q. Ma, Z. Sun, H. Gu, Y. Zhou, K. Shi, Study on calculation method of soluble aerosol removal efficiency under high humidity condition, Frontiers in Energy Research, 7(MAR) (2019).
[62] Y. Li, Z. Sun, H. Gu, Y. Zhou, Deposition characteristic of micro-nano soluble aerosol under bubble scrubbing condition, Annals of Nuclear Energy, 133 (2019) 881-888.
[63] J. Wen, Q. Sun, Z. Sun, H. Gu, Bubble coalescence efficiency near multi-orifice plate, Chinese Journal of Chemical Engineering,  (2019).
[64] J. Wen, Q. Sun, Z. Sun, H. Gu, The effect of multi-orifice plate configuration on bubble detachment volume, Chinese Journal of Chemical Engineering, 27(1) (2019) 72-84.
[65] G. Xu, X. Zhang, Z. Sun, Bubble growth in a boiling water-cooled packed bed reactor, Nuclear Engineering and Design, 349 (2019) 144-149.
 
 
 
中文期刊论文：
[1] 孙福泰,孙中宁,阎昌琪,黄渭堂.管内覆丝网强化对流换热及阻力特性的实验研究[J].核动力工程,1995(02):149-153.
[2] 孙福泰,吕襄波,许岷,孙中宁.蒸汽发生器的旋叶分离器性能研究[J].核科学与工程,1995(03):213-219.
[3] 彭敏俊,杜泽,孙中宁.压水堆核电站热力分析研究[J].核科学与工程,1996(01):18-25.
[4] 孙中宁,黄渭堂,阎昌琪,孙福泰.管内插螺旋丝紊流对流换热性能研究[J].核动力工程,1996(04):50-56.
[5] 黄渭堂,欧贵宝,阎昌琪,孙中宁.螺纹槽管的疲劳强度试验及分析[J].发电设备,1997(03):25-28+38-39.
[6] 彭敏俊,王兆祥,杜泽,孙中宁.船舶核动力装置人机系统设计研究[J].核动力工程,1997(03):93-97.
[7] 孙中宁,彭敏俊,杜泽,黄渭堂.换热器热工计算中传热温差计算方法的一致性问题[J].核动力工程,1997(04):38-44.
[8] 阎昌琪,孙中宁,黄渭堂.复杂管路中的淹没问题研究[J].核科学与工程,1997(03):270-275.
[9] 黄渭堂,刘天才,孙中宁,阎昌琪.螺纹槽管传热与阻力特性的实验研究[J].哈尔滨工程大学学报,1998(01):32-37.
[10] 黄渭堂,阎昌琪,孙中宁,杜泽.螺纹槽管冷凝器若干应用问题的探讨[J].哈尔滨工程大学学报,1998(04):85-91.
[11] 孙中宁,杜泽,黄渭堂,阎昌琪,王明为.单头螺纹槽管管内紊流对流换热[J].核动力工程,1998(05):35-38+77.
[12] 孙中宁.竖直光管及环隙流道内沸腾换热启动时的壁温变化规律[J].哈尔滨工程大学学报,1999(02):89-93.
[13] 孙中宁.晶体加热表面对流换热机理[J].工程热物理学报,1999(03):356-359.
[14] 阎昌琪,孙中宁.流动欠热沸腾起始点计算模型的分析研究[J].哈尔滨工程大学学报,2000(01):15-19.
[15] 孙中宁,阎昌琪,杜泽,张志华.窄环隙流道内自然对流沸腾换热实验研究[J].核科学与工程,2000(01):57-63.
[16] 阎昌琪,孙中宁.流动欠热沸腾通道内净蒸汽产生起始点的确定[J].核科学与工程,2000(02):130-134+168.
[17] 孙中宁,杜泽,阎昌琪,张志华.竖直及倾斜环隙流道内自然对流沸腾临界热负荷[J].核科学与工程,2000(02):123-129.
[18] 阎昌琪,孙中宁,李洪喜.深海潜器用小型核动力的研制与发展前景[J].核动力工程,2000(04):378-380+384.
[19] 孙中宁,杜泽,阎昌琪,李兆俊.竖直环隙流道内沸腾换热启动时的动态特性[J].核动力工程,2000(04):289-293+303.
[20] 李兆俊,闫昌琪,孙中宁.直流蒸发器换热元件单相对流传热的实验研究[J].哈尔滨工程大学学报,2000(05):32-35.
[21] 阎昌琪,孙中宁.竖直管内两相流逆向流动特性研究[J].核动力工程,2001(01):15-18.
[22] 阎昌琪,王东旭,孙中宁.论高等教育与国际接轨[J].继续教育研究,2001(03):20-22.
[23] 孙中宁,阎昌琪,杜泽.光管及窄环隙流道池沸腾换热实验研究[J].工程热物理学报,2001(04):485-487.
[24] 阎昌琪,王东旭,孙中宁.如何加强研究生科研能力的培养[J].黑龙江高教研究,2001(05):73-75.
[25] 阎昌琪,孙中宁,孙立成.反应堆失水事故条件下热管段内的两相流逆向流动研究[J].核科学与工程,2001(03):223-227.
[26] 黄渭堂,阎昌琪,孙中宁,于文艳.钛螺纹槽管传热及流动阻力的实验研究[J].核动力工程,2001(05):456-459.
[27] 阎昌琪,孙中宁.冷凝器强化传热特性分析[J].核科学与工程,2001(04):317-321.
[28] 孙中宁,谈和平,阎昌琪.外侧加热环隙流道自然循环流动沸腾临界热负荷分析研究[J].核动力工程,2001(05):451-455.
[29] 孙中宁,阎昌琪,谈和平,郭建强,孙立成.双侧加热窄环隙流道强迫对流换热[J].核动力工程,2002(04):33-36.
[30] 孙立成,阎昌琪,孙中宁.窄环隙内单相对流换热的实验研究[J].核科学与工程,2002(03):235-239.
[31] 孙中宁,阎昌琪,黄渭堂,谈和平.管外及窄环隙流道池沸腾换热对比实验分析[J].哈尔滨工程大学学报,2003(02):136-140.
[32] 曹夏昕,孙中宁,王贺.竖直窄环隙流道自然对流过冷沸腾实验研究[J].应用科技,2003(05):23-25.
[33] 孙立成,阎昌琪,孙中宁.窄环隙内强迫流动阻力特性的实验研究[J].核动力工程,2003(04):359-362.
[34] 孙中宁,阎昌琪,谈和平,孙立成,郭建强.窄环隙流道强迫对流换热实验研究[J].核动力工程,2003(04):350-353.
[35] 孙中宁,曹夏昕,阎昌琪,谈和平,孙立成.竖直窄环隙通道内的强迫对流换热[J].工程热物理学报,2003(05):828-830.
[36] 孙中宁,谈和平,阎昌琪.窄隙流道自然对流沸腾流动不稳定性实验研究[J].哈尔滨工业大学学报,2003(12):1499-1502.
[37] 孙中宁,孙立成,阎昌琪,黄渭堂.窄缝环形流道单相摩擦阻力特性实验研究[J].核动力工程,2004(02):123-127.
[38] 孙立成,阎昌琪,孙中宁.窄环隙内水流动沸腾时阻力特性的实验研究[J].哈尔滨工程大学学报,2005(01):44-47.
[39] 吴国辉,黄渭堂,孙中宁.断续螺旋折流板在管壳式换热器中的应用[J].应用科技,2005(04):45-47.
[40] 路广遥,孙中宁,王经,阎昌琪.窄缝环形流道内流动传热特性的实验研究[J].动力工程,2005(02):275-279.
[41] 路广遥,王经,孙中宁.窄环隙内强迫对流换热特性的实验研究[J].核科学与工程,2005(02):159-162.
[42] 黄渭堂,孙中宁,阎昌琪.钛波槽管水平管外凝结换热的实验研究[J].哈尔滨工程大学学报,2006(01):61-65.
[43] 路广遥,孙中宁,王经,阎昌琪.窄缝环形通道内流动阻力特性的实验研究[J].核动力工程,2006(03):28-31.
[44] 李建华,孙中宁,吴国辉.螺旋折流板波槽管换热器换热与阻力实验研究[J].应用科技,2006(08):65-67.
[45] 曹夏昕,阎昌琪,孙立成,孙中宁.摇摆状态下竖直管内单相水摩擦压降特性分析[J].哈尔滨工程大学学报,2006(06):834-838.
[46] 孙立成,阎昌琪,孙中宁.竖直环形流道内欠热沸腾时的气泡行为研究[J].核动力工程,2006(S1):73-76.
[47] 曹夏昕,阎昌琪,孙立成,孙中宁,黄渭堂.竖直管内弹状流向搅混流转变界限的判定[J].核动力工程,2006(S1):68-72.
[48] 曹夏昕,阎昌琪,孙中宁.气-液两相泡状流在摇摆状态下的摩擦压降计算[J].核动力工程,2007(01):72-77.
[49] 曹夏昕,阎昌琪,孙中宁.摇摆状态下竖直管内环状流摩擦压降计算[J].核动力工程,2007(02):24-27.
[50] 曹夏昕,阎昌琪,孙立成,孙中宁.摇摆状态下竖直管内单相水阻力特性实验研究[J].核动力工程,2007(03):51-55.
[51] 曹夏昕,阎昌琪,孙中宁.摇摆状态下竖直管内弹状流单元物理模型解析[J].核动力工程,2007(03):47-50.
[52] 胡岩,孙中宁.折流板结构对管壳式换热器壳程流动与传热的影响[J].应用科技,2007(09):14-18.
[53] 路广遥,王经,孙中宁.换热器热力学计算中平均温差计算方法[J].核动力工程,2008(01):76-80.
[54] 孙中宁,曹夏昕,吕襄波.窄隙自然循环过冷沸腾流道中的温度分布特性[J].哈尔滨工程大学学报,2008(06):563-567.
[55] 张金红,阎昌琪,曹夏昕,孙中宁.摇摆状态下水平管中单相水的摩擦阻力实验研究[J].核动力工程,2008(04):44-49.
[56] 张金红,阎昌琪,孙中宁.摇摆状态下水平管内气液两相流流型转换研究[J].哈尔滨工程大学学报,2008(10):1050-1053.
[57] 于凯秋,曹夏昕,阎昌琪,孙中宁.摇摆状态下两相流空泡份额变化规律分析[J].哈尔滨工程大学学报,2008,29(11):1250-1254.
[58] 李振鹏,孙中宁,廖永浩.非达西流区微球床多孔介质阻力特性研究[J].应用科技,2009,36(04):61-64.
[59] 贺士晶,孙中宁,阎昌琪,范广铭.扁管传热与阻力特性的实验研究[J].核动力工程,2009,30(02):12-15+54.
[60] 贺士晶,阎昌琪,孙中宁,范广铭.扁管壁面温度分布实验研究[J].核动力工程,2010,31(S1):60-64.
[61] 牛广林,阎昌琪,孙中宁,石帅,王镭.整体针翅管混合管束滑油冷却器强化换热试验研究[J].核科学与工程,2010,30(02):155-159.
[62] 孙立成,阎昌琪,孙中宁.小通道内两相流摩擦压降计算方法评价[J].核动力工程,2010,31(04):36-40.
[63] 于立章,孙立成,孙中宁.多孔介质通道中单相流动压降预测模型[J].核动力工程,2010,31(05):63-66+88.
[64] 于立章,孙立成,孙中宁.骨架发热多孔介质通道内单相流阻力与换热特性数值模拟[J].热能动力工程,2010,25(06):614-616+684-685.
[65] 王盟,贺士晶,王建军,孙中宁.核动力装置优化平台设计[J].四川兵工学报,2010,31(11):110-112+120.
[66] 于立章,孙立成,孙中宁.多孔介质通道中单相流阻力特性数值模拟[J].原子能科学技术,2010,44(12):1441-1444.
[67] 王盟,王建军,贺士晶,孙中宁.一种解决复合形局部最优及加速计算的方法[J].计算机应用与软件,2011,28(02):277-278+289.
[68] 王盟,王建军,孙中宁,贺士晶,阎昌琪.蒸汽发生器最优化设计[J].核动力工程,2011,32(01):29-33.
[69] 范广铭,孙中宁,朱升.微肋管单相对流换热实验研究[J].核动力工程,2011,32(01):99-103.
[70] 范广铭,孙中宁,王盟.斜微肋扁管单相对流换热实验研究[J].原子能科学技术,2011,45(02):174-178.
[71] 范广铭,孙中宁,王建军,王盟.扁管流道流动阻力特性研究[J].原子能科学技术,2011,45(03):341-344.
[72] 张楠,孙中宁.多孔介质通道内气-液两相流动阻力特性实验[J].核动力工程,2011,32(03):106-110+126.
[73] 王盟,范广铭,孙中宁.微肋管强化传热及优化设计[J].石油化工设备,2011,40(04):4-7.
[74] 张楠,孙中宁,赵忠南.球床通道内气液两相竖直向上流动流型实验研究[J].原子能科学技术,2011,45(09):1040-1044.
[75] 张微,孙中宁,王建军,翟德华.升功率工况下波动管热分层数值分析[J].原子能科学技术,2011,45(11):1324-1328.
[76] 牛广林,阎昌琪,孙中宁,石帅,南金秋.整体针翅管混合管束滑油冷却器传热特性对比实验研究[J].核科学与工程,2011,31(04):317-320+326.
[77] 朱升,孙中宁,范广铭.低流速时波浪管内流动与传热特性数值分析[J].核动力工程,2011,32(06):51-55.
[78] 朱升,孙中宁,范广铭.微波浪管传热与阻力特性实验研究[J].原子能科学技术,2011,45(12):1444-1448.
[79] 李希川,孙中宁.竖直窄矩形流道液泛研究[J].哈尔滨工程大学学报,2012,33(01):42-46.
[80] 马俊,孙中宁.多孔介质单相流阻力特性[J].应用科技,2012,39(02):72-76.
[81] 孟现珂,孙中宁,邓振国,王戈.含内热源球床通道换热特性实验研究[J].核动力工程,2012,33(02):71-74.
[82] 王盟,孙中宁,谷海峰.自吸式文丘里水洗器结构设计程序开发[J].原子能科学技术,2012,46(06):701-704.
[83] 杜利鹏,田瑞峰,张鹏飞,孙中宁.蒸汽湿度电容传感器内部电场与流场耦合特性数值研究[J].原子能科学技术,2012,46(08):936-942.
[84] 孟现珂,孙中宁,徐广展,张小宁.含内热源堆积球床对流换热特性的实验研究[J].哈尔滨工程大学学报,2012,33(09):1122-1126.
[85] 孟现珂,孙中宁,周平,徐广展.强内热源球床通道单相对流换热特性实验研究[J].原子能科学技术,2012,46(09):1061-1066.
[86] 杜利鹏,田瑞峰,孙中宁,刘晓一.电容式湿度传感器在汽–水系统中的静态响应特性分析[J].中国电机工程学报,2012,32(26):86-90+151.
[87] 徐广展,孙中宁,孟现珂,张小宁.含内热源多孔介质通道内ONB特性[J].化工学报,2012,63(10):3080-3085.
[88] 贺士晶,阎昌琪,孙中宁,刘曙光.强化换热扁管结构最优化分析[J].中南大学学报(自然科学版),2012,43(10):4087-4092.
[89] 王盟,孙中宁,谷海峰,郭雪晴,于勇.自吸式文丘里水洗器阻力特性实验研究[J].原子能科学技术,2012,46(11):1353-1356.
[90] 张楠,孙中宁,阎昌琪.三维随机填充球床通道内流场数值分析[J].原子能科学技术,2012,46(S2):792-795.
[91] 徐广展,孙中宁,孟现珂,张小宁.球床堆流动与传热数值模拟[J].核动力工程,2013,34(03):63-66.
[92] 张小宁,孙中宁,孟现珂,徐广展.整体加热球床通道内流动过冷沸腾起始点的实验研究[J].核动力工程,2013,34(03):58-62.
[93] 赫荣辉,孙中宁.窄环隙流道冷却传热特性实验与仿真研究[J].核动力工程,2013,34(S1):123-127.
[94] 张楠,孙中宁,王建军,葛增芳.球床通道内CFD网格适用性分析[J].工程热物理学报,2013,34(07):1303-1306.
[95] 张楠,孙中宁.随机填充球床通道内单相流动数值模拟方法研究[J].核动力工程,2013,34(04):43-46.
[96] 张小宁,孙中宁,孟现珂,徐广展.变粘性效应对含内热源多孔介质通道内流动阻力特性的影响[J].核动力工程,2013,34(04):23-26.
[97] 李希川,孙中宁.竖直窄矩形流道液泛起始点研究[J].水动力学研究与进展A辑,2013,28(05):526-530.
[98] 宿吉强,孙中宁,高力,范广铭.含不凝性气体蒸汽凝结换热的壁面过冷度分析[J].哈尔滨工程大学学报,2013,34(12):1551-1555.
[99] 宿吉强,孙中宁,范广铭.湍流边界层内暗斑拟序结构的可视化实验研究[J].原子能科学技术,2013,47(10):1723-1728.
[100] 孟现珂,孙中宁,徐广展,张小宁.填充床中沸腾传热迟滞现象的实验研究[J].原子能科学技术,2013,47(10):1782-1786.
[101] 范广铭,孙中宁,宿吉强.扁管单相对流换热实验研究[J].原子能科学技术,2013,47(10):1735-1739.
[102] 宿吉强,孙中宁,范广铭,王世明.矩形通道长带条拟序结构的可视化实验研究[J].原子能科学技术,2013,47(11):2003-2008.
[103] 周艳民,孙中宁,谷海峰,王军龙.气态甲基碘去除特性实验研究[J].原子能科学技术,2013,47(11):2125-2130.
[104] 宿吉强,孙中宁,范广铭,郭子萱.含不凝性气体的蒸汽冷凝传热实验研究[J].核动力工程,2014,35(01):36-41.
[105] 郭雪晴,孙中宁,张东洋.细长自然循环系统流动不稳定性实验研究[J].原子能科学技术,2014,48(02):267-270.
[106] 宿吉强,孙中宁,范广铭,侯晓凡.竖直圆管外含空气蒸汽冷凝传热的实验研究[J].原子能科学技术,2014,48(02):263-266.
[107] 张小宁,孙中宁,孟现珂,徐广展.含内热源多孔介质通道内流动沸腾两相压降的预测[J].原子能科学技术,2014,48(02):241-245.
[108] 徐广展,孙中宁,孟现珂,张小宁.含内热源多孔介质内流动不稳定起始点特性研究[J].原子能科学技术,2014,48(03):453-456.
[109] 郭雪晴,孙中宁,王建军.开式自然循环系统启动特性实验研究[J].核技术,2014,37(04):71-76.
[110] 宿吉强,孙中宁,高力.中等过冷度下含不凝性气体蒸汽冷凝传热特性[J].化工学报,2014,65(10):3884-3890.
[111] 徐广展,孙中宁,孟现珂,张小宁.含内热源球床通道内过冷流动沸腾汽泡行为特性研究[J].工程热物理学报,2014,35(07):1365-1368.
[112] 宿吉强,孙中宁,张东洋.含空气蒸汽冷凝数值计算模型建立与模拟[J].原子能科学技术,2014,48(07):1188-1193.
[113] 宿吉强,王辉,孙中宁,张东洋.含空气蒸汽冷凝传热特性数值模拟[J].化工学报,2014,65(09):3425-3433.
[114] 周艳民,孙中宁,谷海峰,苗壮.自吸式文丘里洗涤器引射特性及其影响因素[J].化工学报,2015,66(01):99-104.
[115] 周艳民,孙中宁,谷海峰,王军龙.气态甲基碘的溶解特性研究[J].原子能科学技术,2014,48(11):2023-2027.
[116] 王军龙,孙中宁,谷海峰,周艳民.放置条件对分光光度法测定安全壳过滤排放系统中碘离子的影响[J].理化检验(化学分册),2014,50(12):1592-1594.
[117] 李亚,曹夏昕,王开元,孙中宁.RELAP5/MOD3.2竖直管束外大容积沸腾换热模型适用性分析[J].原子能科学技术,2014,48(12):2269-2273.
[118] 王开元,曹夏昕,李亚,孙中宁.非能动余热排出换热器池沸腾换热性能研究[J].原子能科学技术,2014,48(12):2263-2268.
[119] 王军龙,孙中宁,谷海峰,周艳民.水平管内蒸汽冷凝局部换热特性实验研究[J].原子能科学技术,2014,48(12):2219-2223.
[120] 王璐,孙中宁,范广铭,宿吉强.竖直管束外含空气蒸汽冷凝的实验研究[J].核安全,2014,13(04):79-83.
[121] 徐慧强,孙中宁,谷海峰,李昊.水平管内纯饱和蒸汽强制对流冷凝局部换热特性[J].化工学报,2015,66(01):92-98.
[122] 徐慧强,孙秋南,谷海峰,李昊,孙中宁.水平管内含空气蒸汽流动冷凝局部换热特性[J].化工学报,2015,66(07):2456-2463.
[123] 周艳民,孙中宁,谷海峰,王军龙.鼓泡层内气态甲基碘的去除特性研究[J].核动力工程,2015,36(02):138-142.
[124] 曲新鹤,孙中宁,丁铭.联箱匹配对U型布置并联管组换热器流量分配影响研究[J].原子能科学技术,2015,49(04):623-628.
[125] 周艳民,孙中宁,谷海峰,苗壮.自吸式文丘里水洗器引射特性研究[J].原子能科学技术,2015,49(06):1075-1079.
[126] 徐慧强,孙中宁,谷海峰,李昊.空气对水平管内蒸汽强制对流冷凝换热特性的影响[J].哈尔滨工程大学学报,2015,36(11):1443-1447.
[127] 赫荣辉,孙中宁.螺旋折流板波槽管换热器换热性能实验研究[J].世界科技研究与发展,2015,37(05):525-528.
[128] 侯晓凡,孙中宁,范广铭,丁铭,宿吉强.开式自然循环系统启动特性研究[J].原子能科学技术,2015,49(10):1772-1777.
[129] 王开元,曹夏昕,李亚,孙中宁.非能动余热排出换热器冷凝换热性能研究[J].原子能科学技术,2015,49(10):1752-1757.
[130] 潘丽强,宿吉强,范广铭,孙中宁.含空气的蒸汽冷凝传热模型研究[J].核动力工程,2015,36(06):45-50.
[131] 徐慧强,孙秋南,谷海峰,李昊,孙中宁.壁面过冷度对水平管内含空气蒸汽冷凝换热影响[J].核动力工程,2016,37(01):43-47.
[132] 侯晓凡,孙中宁,孙秋南,范广铭,雷文静.开式自然循环系统中间歇喷泉流动的实验研究[J].哈尔滨工程大学学报,2016,37(04):556-561.
[133] 徐慧强,孙秋南,谷海峰,李昊,孙中宁.水平管内含空气蒸汽强制对流冷凝换热模型研究[J].原子能科学技术,2016,50(04):621-626.
[134] 侯晓凡,孙中宁.开式自然循环闪蒸不稳定的线性均相流模型[J].哈尔滨工程大学学报,2016,37(07):930-935.
[135] 郭雪晴,孙中宁,王建军,俞胜之.闪蒸诱发的两相自然循环比例模化分析[J].工程热物理学报,2016,37(06):1297-1303.
[136] 侯晓凡,孙秋南,范广铭,孙中宁,李伟.自然循环闪蒸不稳定诱发的水击现象实验研究[J].原子能科学技术,2016,50(06):1014-1020.
[137] 王璐,孙中宁,张林,李伟,唐昌兵,刘洋华,武小莉.竖直矩形通道内空气-水两相流动中气泡聚合研究[J].科技视界,2017(16):197-198.
[138] 郭子萱,孙中宁,张楠.球形燃料颗粒点接触处理方法研究[J].核动力工程,2017,38(05):164-168.
[139] 刘家庆,刘新星,孙中宁,孟兆明.含不凝性气体蒸汽浸没射流冷凝压力振荡实验研究[J].原子能科学技术,2019,53(02):312-318.
[140] 边浩志,孙中宁,丁铭,张楠,孟兆明,王璐.含空气蒸汽冷凝换热特性的数值模拟分析[J].哈尔滨工程大学学报,2019,40(02):426-432.
[141] 温济铭,孙中宁,谷海峰,刘子平.蒸发现象的鼓泡除甲基碘过程理论分析[J].哈尔滨工程大学学报,2019,40(09):1595-1600.