2023年
[118] Feng Liu, Zhongning Sun, Haozhi Bian*, Ming Ding*, Xianke Meng. Identification and classification of the flow pattern of hydrogen-air-steam mixture gas under steam condensation. International Journal of Thermal Sciences, 2023, 183:107854.
2022年
[117] Wentao Li, Xianke Meng, Haozhi Bian, Ming Ding. Numerical analysis of heat transfer enhancement on steam condensation in the presence of air outside the tube. Nuclear Science and techniques, 2022, 33:100.
[116] Xinxing Liu, Mingrui Yu, Wei Li, Pei Yu, Zhaoming Meng, Zhongning Sun, Nan Zhang, MingDing. Experimental investigation of the pressure oscillations induced by subsonic steam jets under different vessel pressures. Nuclear Engineering and Design, 2022, 395:111867.
[115] 徐浚修,范广铭,侯明文,丁 铭,岳芷,阎昌琪. 池式低温供热堆非能动余热排出系统单相自然循环流动与传热实验研究. 原子能科学技术, 2022.
[114] Junxiu Xu, Mingwen Hou, Ming Ding, Changqi Yan, Zhiting Yue, Guangming Fan*. Numerical and experimental study on natural convection outside tube bundle under small convection temperature difference. Progress in Nuclear Energy, 2022, 149:104266.
[113] Junxiu Xu, Mingwen Hou, Ming Ding, Changqi Yan, Zhiting Yue, Guangming Fan*. Experimental Study on Separate Heat Pipe-type Passive Residual Heat Removal System of Swimming Pool-type Low-Temperature Heating Reactor. Nuclear Engineering and Design, 2022, 391:111743.
[112] Xiang Peng, Xiaxin Cao, Jianhua Cao, Ming Ding*, Haozhi Bian*. Numerical study on the effect of CO2 on the heat transfer characteristics of steam condensation outside a vertical tube. Nuclear Engineering and Design, 2022, 391:111745.
[111] Feng Liu, Zhongning Sun, Boyang Cao, Haozhi Bian*, Ming Ding*. Numerical investigations on the component separation phenomenon and transport behavior of steam-air-hydrogen mixture induced by condensation. International Journal of Thermal Sciences, 2022, 172:107369.
[110] Zhan Li, Jie Huang, Jincheng Wang, Ming Ding*. Comparative study of meta-heuristic algorithms for reactor fuel reloading optimization based on the developed BP-ANN calculation method. Annals of Nuclear Energy, 2022, 165:108685.
[109] Boyang Cao, Yi Li, Yan Sun, Haozhi Bian*, Ming Ding*. Experimental investigation of tube diameter and inclination angle on steam condensation accompanying with air in tube bundles. Annals of Nuclear Energy, 2022, 166:108695.
[108] Jincheng Wang, Zhan Li, Zehua Guo, Ming Ding*. Application of a new OpenFOAM-based neutron diffusion kinetics solver to pebble-type VHTRs. Annals of Nuclear Energy, 2022, 170:108976.
2021年
[100] Jianchuang Sun, Jian Deng, Xu Ran, Xiaxin Cao, Guangming Fan, Ming Ding. Experimental research on the mechanisms of condensation inducedwater hammer in a natural circulation system. Nuclear Engineering and Technology, 2021, 53:3635-3642.
[99] 曹博洋, 李毅, 边浩志, 曹夏昕, 丁铭*. 管径与倾角对蒸汽-空气冷凝特性影响实验研究. 工程热物理学报, 2021, 42(7):1851-1857.
[98] Jincheng Wang, Zhan Li, Ming Ding. Generation method and verification of pebble type VHTR multigroup cross sections based on OpenMC. Annals of Nuclear Energy, 2021, 159, 108316.
[97] Gonglin Li, Boyang Cao, Shuhang Zhou, Haozhi Bian, Ming Ding. Effects of inclination and flow velocity on steam condensation consisting of air on tube bundle external surfaces, Progress in Nuclear Energy, 2021, 136, 103722.
[96] Shuhang Zhou, Yi Li, Yan Sun, Haozhi Bian, Ming Ding. Evaluations and classifications of the bundle effects on steam condensation based on broad pressure range experiments. Progress in Nuclear Energy, 2021, 135, 103695 .
[95] Junxiu Xu, Xibin Xie, Ming Ding, Changqi Yan, Guangming Fan. A one-dimensional code of double-coupled passive residual heat removal system for the swimming pool-type low-temperature heating reactor. Nuclear Engineering and Design, 2021, 374, 111070.
[94] Zhan Li, Jie Huang, Ming Ding. Comparison and analysis of different selection strategies of genetic algorithms for fuel reloading optimization of Thorium-based HTGRs. Nuclear Engineering and Design, 2021, 373, 110969.
[93] Junjie Wang, Haozhi Bian, Xiaxin Cao, Ming Ding. Numerical performance analysis of a novel shell-and-tube oil cooler with wire-wound and crescent baffles. Applied Thermal Engineering, 2021, 184(5), 116298.
[92] Jianchuang Sun, Jian Deng, Xu Ran, Ming Ding, Guangming, Fan. Experimental study on flow modes and transient characteristics in low-pressure equal-height-difference natural circulation system. Annals of Nuclear Energy, 2021, 151, 107965.
2020年
[91] 李湛, 周旭华, 丁铭. 混合教与学遗传算法在换料优化中的应用[C]. 第十八届反应堆数值计算与粒子输运学术会议暨2020年反应堆物理会议, 西安, 2020.
[90] 王俊杰, 丁铭*. 滑油冷却器绕丝支撑结构传热特性分析. 工程热物理学报,2020, 41(11): 2795-2800.
[89] 李毅,孙建闯,彭航,成翔,全标,曹夏昕,周剑,丁铭.低功率条件下低高度差开式自然循环流动模式研究.核动力工程. 2020.
[88] Zimu Yang, Xiaoya Liu, Xiaxin Cao, Zhichao Gao and Ming Ding*. Numerical Analysis of FLiBe Laminar Convective Heat Transfer Characteristics in Tubes Fitted With Coaxial Cross Twisted Tape Inserts. Frontier in energy research, 2020.
[87] Jianchuang Sun, Chuan Lu, Zhengpeng Mi, Xiaxin Cao, Ming Ding*. Experimental research on characteristics of condensation induced water hammer in natural circulation systems. International Communications in Heat and Mass Transfer, 2020, 114, 104559.
[86] Jianchuang Sun, Xu Ran, Zhuohua Zhang, Xiaxin Cao, Guangming Fan, Ming Ding1*. Effects of Direct Contact Condensation on Flow Characteristics of Natural Circulation System at Low Pressure. Frontier in energy research, 2020.
[85] Jianchuang Sun, Zhengpeng Mi, Chuan Lu, Xiaxin Cao, Ming Ding*. Experimental research on reverse flow phenomenon in an equal-height-difference natural circulation system at low pressure, Nuclear Engineering and Design, 2020.
[84] Areej Mutwakkil Attom, Jincheng Wang, Jie Huang, Changqi Yan, Ming Ding*. Comparison of Homogeneous and Heterogeneous Thorium Fuel blocks with Four Drivers in Advanced High Temperature Reactors. International Journal of Energy Research, 2020, 44(7): 5173-5729.
[83] Jincheng Wang, Qin Wang, Ming Ding*. Review on neutronic/thermal-hydraulic coupling simulation methods for nuclear reactor analysis. Annals of Nuclear Energy, 2020, 137:107165.
[82] Areej Mutwakkil Attom, Jincheng Wang, Jie Huang, Changqi Yan, Ming Ding*. Neutronic analysis of thorium S&B fuel blocks with different driver fuels in advanced Block-type HTRs. Annals of Nuclear Energy, 2020.
2019年
[81] 孙建闯, 曹夏昕, 冉旭, 张卓华, 米争鹏, 丁铭*. 低流量下等高差自然循环系统倒流现象实验研究[J]. 化工学报, 2019, 70(11): 4231-4237.
[80] 全 标,边浩志, 丁 铭*,李 毅,成 翔,彭 航,孙中宁. 管束效应对含空气蒸汽冷凝传热影响数值分析. 核动力工程, 2019, 40(5): 61-66.
[79] 全 标,边浩志,丁 铭*,罗涵禹,邹志强,李 锋,孙中宁. 竖直管束外含空气蒸汽冷凝传热特性数值分析. 核动力工程, 2019, 40(5): 29-34.
[78] 孙建闯,曹夏昕,边浩志,成翔,汪宇,丁铭*. 不凝性气体对低高差开式自然循环流动特性影响实验研究. 第十六届全国反应堆热工流体会议,惠州,11月5~8日,2019.
[77] 李龚霖,边浩志,孙建闯,丁铭*. 倾斜管束条件下含空气蒸气冷凝换热特性分析. 第十六届全国反应堆热工流体会议,惠州,11月5~8日,2019.
[76] 胡俭,李常伟,王金成,孙建闯,丁铭*. 基于遗传算法的气体喷射器结构优化分析. 第十六届全国反应堆热工流体会议,惠州,11月5~8日,2019.
[75] 王俊杰, 丁铭. 滑油冷却器绕丝支撑结构传热特性分析. 中国工程热物理学会传热传质学术会议,10月18日~20日,青岛,2019.
[74] Haozhi Bian, Zhongning Sun, Nan Zhang, Zhaoming Meng, Ming Ding*, A new modified diffusion boundary layer steam condensation model in the presence of air under natural convection conditions. International Journal of Thermal Sciences, 2019, 145:105948.
[73] Zehua Guo, Zhongning Sun, Nan Zhang, Ming Ding, Yanmin Zhou. Influence of flow guiding conduit on pressure drop and convective heat transfer in packed beds, International Journal of Heat and Mass Transfer, 134:489-502.
[72] Zehua Guo, Zhongning Sun, Nan Zhang, Ming Ding, Haozhi Bian, Zhaoming Meng. Computational study on fluid flow and heat transfer characteristic of hollow structured packed bed. Powder Technology.
[71] Areej M. Atom, Jincheng Wang, Changqi Yan, Ming Ding*, Neutronic Analysis of Thorium MOX Fuel Blocks with Different Driver Fuels in Advanced Block-type HTRs. Annals of Nuclear Energy, 2019, 109:101–109.
[70] Zehua Guo, Zhongning Sun, Nan Zhang*, Ming Ding, Shuai Shi. CFD analysis of fluid flow and particle-to-fluid heat transfer in packed bed with radial layered configuration. Chemical Engineering Science, 2019, 197:357-370.
[69] 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. 哈人滨工程大学大学报, 2019, 40(2):1-7.
[68] Haozhi Bian, Zhongning Sun, Xiang Cheng, Nan Zhang, Zhaoming Meng, Ming Ding*. Numerical investigations on steam condensation in the presence of air on external surfaces of 3 × 3 tube bundles. Progress in Nuclear Energy, 2019, 111:42-50.
2018年
[67] Jian Hu, Xiaxin Cao, Haisha He, Zhaoming Meng, and Ming Ding*. Numerical optimization on the geometrical factors of subsonic air-air ejector. 9th International Symposium on Symbiotic Nuclear Power Systems for 21st Century (ISSNP), July 9-11, 2018, Harbin, China.
[66] 胡俭,曹夏昕,张一鸣,何海沙,孟兆明,丁铭*. 小压缩比异种气体喷射器特性分析. 中国工程热物理学会2018年传热传质学术会议, 哈尔滨,2018.
[65] Zhiyuan Lu, Zhaoming Meng, Ningxin Gu, Jinpu Wang, Feifei Nian, Jun Wang, Ming Ding. Development of correlations for liquid entrainment through a large-scale inclined branch pipe connected to the main horizontal pipe. Experimental Thermal and Fluid Science, 2018, 96:128–136.
[64]Haozhi Bian, Zhongning Sun, Nan Zhang, Zhaoming Meng, Ming Ding*. A preliminary assessment on a two-phase steam condensation model in nuclear containment applications. Annals of Nuclear Energy, 2018,121:615–625.
[63]Haozhi Bian, Zhongning Sun, Xiang Cheng, Nan Zhang, Zhaoming Meng, Ming 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, 2018, 98: 200–208.
[62] 王金成, 黄 杰, 丁铭*. 钍基柱状高温堆MOX型燃料在同燃耗下的特性分析. 第十七届反应堆数值计算和粒子输运学术会议暨 2018 年反应堆物理会议,深圳,2018 .
[61] Jian Zhou, Ming Ding, Zhaoming Meng, Yinxing Zhang, Zhongning Sun. Reducing the Flow Distribution in Central-Type Compact Parallel Flow Heat Exchangers Having Optimized Tube Structure. Frontiers in Energy Research, 2018, 6:35:1-11.
[60] Jian Zhou, Ming Ding, Haozhi Bian, Yinxing Zhang, Zhongning Sun. CFD simulation for the effect of the header matchon the flow distribution in a central-type parallelheat exchanger. Chemical Engineering Research and Design, 2018,136:144–153.
[59] Jie Wang, Xiaxin Cao, Zhaoming Meng, Jie Wang and Ming Ding*. A Hybrid Semi-implicit Method of 1D Transient Compressible Flow for Thermal-Hydraulic Analysis of (V)HTR Gas Turbine Systems. Frontiers in Energy Research, 2018, 6:44:1-11.
[58] Xiaoya Liu, Chun Li, Xiaxin Cao*, Changqi Yan, Ming Ding*. Numerical analysis on enhanced performance of new coaxial cross twisted tapes for laminar convective heat transfer. International Journal of Heat and Mass Transfer, 2018, 121:1125–1136.
2017年
[55] Jian Zhou, Zhongning Sun, Ming Ding, Haozhi Bian, Nan Zhang, Zhaoming Meng. CFD simulation for flow distribution in manifolds of central-type compact parallel flow heat exchangers. Applied Thermal Engineering, 2017, 126:670–677.
[54] Zehua Guo, Zhongning Sun, Nan Zhang, Ming Ding, Xiaxin Cao. Radial porosity peak at the centerline of packed beds with small tube to particle diameter ratios. Powder Technology, 2017, 319:445–451.
[53] Zehua Guo, Zhongning Sun, Nan Zhang, Ming Ding, Jiming Wen. Experimental characterization of pressure drop in slender packed bed (1 < D/d < 3). Chemical Engineering Science, 2017, 173:578–587.
[52] Zehua Guo, Zhongning Sun, Nan Zhang, Ming Ding, Jiaqing Liu. Pressure drop in slender packed beds with novel packing arrangement. Powder Technology. 2017, 321:286–292.
[51] Haozhi Bian, Zhongning Sun, Ming Ding, Nan Zhang, Zhaoming Meng. Application and evaluation of automatic wall treatment on diffusion boundary layer based steam condensatiion model in presence of air. 17th international topical meeting on nuclear reactor thermal hydraulics, Xi'an, Shaanxi, China, Sep. 3-8, 2017.
[50] Haozhi Bian, Zhongning Sun*, Ming Ding, Nan Zhang. Local phenomena analysis of steam condensation in the presence of air. Progress in Nuclear Energy, 2017, 101:188-198.
[49] Xiaoya Liu,Chun Li,Haozhi Bian, Changqi Yan, Ming Ding. Enhanced heat transfer and resistance performance of new complex twisted tapes for highly-viscous fluid flow inside tubes.17th international topical meeting on nuclear reactor thermal hydraulics, Xi'an, Shaanxi, China, Sep. 3-8, 2017.
[48] Xiaoya Liu, Ming Ding, Haozhi Bian, Changqi Yan and Chun Li. Numerical study on heat transfer and resistance of a tube fitted with new twisted tapes for lubricating oil. Proceedings of the 25th International Conference on Nuclear Engineering(ICONE-25), July 2-6, 2017, Shanghai, China.
[47] 刘小丫, 丁铭, 李春,阎昌琪. 多孔金属材料强化润滑油传热及阻力特性实验研究. 核动力工程, 2017, 38(3):24-28.
[46] Jie Huang, Ming Ding. Analysis of multi-scale spatial separation in a block-type thorium-loaded helium-cooled high-temperature reactor,Annals of Nuclear Energy, 2017, 101: 89–98.
[45] 黄杰, 李文强, 丁铭. 遗传算法在柱状高温气冷堆换料优化问题中的应用. 强激光与粒子, 2017, 29(1): 016002-1-7
2016年
[44]Jie Huang, Yongyong Yang, Ming Ding, 2016. Fuel cycle cost analysis of Th/U MOX fuel in a block-type HTR. In: 8th International Topical Meeting on High Temperature Reactor Technology, Las Vegas, USA, 2016.
[43] 黄杰,丁铭. 先进柱状高温堆Th/U-MOX型燃料组件钍含量影响分析. 哈尔滨工程大学学报, 2016, 37(10): 1443-1447.
[42] Jie Huang, Ming Ding. Neutronic Performance Comparison of Th-232 and U-238 as Blanket for Seed-and-Blanket Fuel Blocks in the AHTR. The 5th International Conference on Nuclear and Renewable Energy Resources (NURER2016), Hefei, Anhui Province, China, 18-21 Sep. 2016
[41] Haozhi Bian, Zhongning Sun, Ming Ding, Nan Zhang, Yongyong Yang, Wangsheng Tian. A fluid film CFD model for steam condensation in presence of air. Proceedings of the 2016 24th International Conference on Nuclear Engineerin(ICONE24),June 26-30, 2016, Charlotte, NC, USA.
[40] 黄杰,李文强,丁铭. 遗传算法在柱状高温气冷堆换料优化问题中的应用. 第十六届反应堆数值计算和粒子输运学术会议暨2016 年反应堆物理会议, 北京, 2016.8.
[39] Jie Wang, Ming Ding, Xiaoyong Yang, Jie Wang. Performance comparison and optimization of two configurations of (Very) high temperature gas-cooled reactors combined cycles. Annals of Nuclear Energy, 2016, 94: 279–287.
[38] Jie Huang, Ming Ding. Analysis of thorium content and spatial separation influence for seed and blanket fuel blocks in the AHTR. Progress in Nuclear Energy, 2016, 90:182-189.
2015年[37] 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, RGLT2015-80029, 北京,2015,8.
[36] 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. 原子能科学技术, 49(10): 1772-1777.
[35] Pan Tong, Guangming Fan, Zhongning Sun, Ming Ding, Jiqiang Su. An experimental investigation of pure steam and steam–air mixtures condensation outside a vertical pin-fin tube. Experimental Thermal and Fluid Science, 2015, 69:141–148.
[34] Pan Tong, Guangming Fan, Zhongning Sun, Ming Ding. Experimental study of steam–air condensation over a vertically longitudinal finned tube. International Journal of Heat and Mass Transfer, 2015, 89: 1230–1238.
[33] 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,2015, 49(4): 623-628.
[32] 王杰, 丁铭, 杨小勇, 王捷. 高温气冷堆复合联合循环特性研究. 原子能科学技术,2015, 49(4): 616-622.
2014年[31] Huijing Jiang,Xiaoyong Yang,Ming Ding, Jie WangA Study on Performance Characteristics for Closed Brayton Cycle in Inventory Regulation. Proceedings of the 22nd International Conference on Nuclear Engineering, July, 7-11, 2014, Prague, Czech Republic
[30]Jiqiang Su, Zhongning Sun, Ming Ding, Guangming Fan. FundamentalAnalysis of experiments for the effect of noncondensable gases on onsteam condensation over a vertical tube external surface under low wall subcooling. Nuclear Engineering and Design, 2014, 278:644–650.
[29] 王杰,丁铭,杨小勇,王捷. 高温气冷堆简化型联合循环特性研究, 原子能科学技术, 2014,48(12): 2224-2229.
[28] G.C. Zha, K.M. Haefner, B. M. Hayton, M. Ding. Mars Aerial Nuclear Global Landing Explorer A Global Mobility and Multi-Mission Platform, 50th AIAA/ASME/SAE/ASEE Joint Propulsion Conference.Cleveland OH, USA, 28-30 July, 2014. AIAA-2014-3820
[27] 李明芮,丁铭,陈文振,郑云涛, 储玺. 水铀比对环形燃料元件核物理特性的影响, 第十五届反应堆数值计算和粒子输运学术会议暨2014年反应堆物理会议, 成都,2014.
[26] 黄杰,丁铭. 先进柱状高温堆S&B型燃料组件空间分离效应研究, 第十五届反应堆数值计算和粒子输运学术会议暨2014年反应堆物理会议, 成都,2014.
[25] 陈哲雨,孙立成,丁铭. 针翅套管传热元件阻力特性实验研究. 哈尔滨商业大学学报(自然科学版), 2014, 30(2): 203-206.
[24] 王佳卓,阎昌琪,丁铭,陈哲雨,石帅. 高压圆形板壳式换热器的设计与研究. 核动力工程, 2014, 35(2): 141-145.
[23] J Verruea, M. Ding, J.L. Kloosterman. Thorium utilization in a small and long-life HTR part III: composite-rod fuel blocks. Nuclear Engineering and Design, 2014, 267:253-262.
[22] M. Ding, J.L. Kloosterman. Thorium utilization in a small and long-life HTR part II: seed-and-blanket fuel blocks. Nuclear Engineering and Design, 2014, 267:245-252.
[21] M. Ding, J.L. Kloosterman. Thorium utilization in a small and long-life HTR Part I: thorium MOX fuel blocks. Nuclear Engineering and Design, 2014, 267:238-244.
2013年[20] 陈哲雨, 阎昌琪, 丁铭, 石帅. 一种紧凑布置滑油冷却器的强化传热特性实验研究. 中国核科学技术进展报告( 第三卷)核能动力分卷(下), 2013, 652-657.
[19] Jiqiang Su, Zhongning Sun, Guangming Fan, Ming Ding. NationalExperimental study of the effect of non-condensable gases on steam condensation steamcondensation over a vertical tube external surface. Nuclear Engineering and Design, 2013, 262:201-208.
[18] 石帅,阎昌琪, 丁铭. 针翅管滑油冷却器壳侧传热与阻力性能实验研究. 原子能科学技术, 2013,47(8):1342-1347.
[17] 石帅,阎昌琪, 丁铭,陈哲雨. 针翅套管双侧强迫对流换热实验研究. 哈尔滨工程大学学报,2013,34(3):287-291.
[16] 郑云涛,丁铭,张亮,王黎东,曹夏昕. 基柱状高温气冷堆不同启动燃料特性初步分析. 原子能科学技术, 2013, 47(S):42-45.
[15] M. Ding, J.L. Kloosterman. Feasibility neutronic design of the reactor core configurations of a 5 MWth transportable block-type HTR. Nuclear Science and Techniques, 2013, 24(4):060402.
[14] M. Ding, J.L. Kloosterman. Thermal-Hydraulic Design and Transient Evaluation of a Small Long-Life HTR. Nuclear Engineering and Design, 2013, 255:347-358.
2012年[13] 郑云涛,丁铭,张亮,王黎东,曹夏昕. 钍基柱状高温气冷堆不同启动燃料特性初步分析. 第十四届反应堆数值计算和粒子输运学术会议暨2012年反应堆物理会议, 银川,2012.
[12] Ming Ding, Jan Leen Kloosterman, Frank Wols. Thermal-Hydraulic Evaluations of the U-Battery for Loss of Forced-Cooling Conditions. 6th International Conference on High Temperature Reactor Technology, October, 2012, Tokyo, Japan.
2011年以前[11] M. Ding, J.L. Kloosterman. Neutronic feasibility design of a small long-life HTR. Nuclear Engineering and Design, 2011, 241(12),5093-5103.
[10] Ding M., Kloosterman J.K., Parametric Neutronics Design of a Small and Long-Life HTR. 5th International Conference on High Temperature Reactor Technology, October, 2010, Czech Republic.
[9] Ding M., Yang X.Y., Wang J.. Study on Dynamic Characteristics of Plate-Fin Recuperator in High-Temperature Gas-Cooled Reactor Closed Cycle. Nuclear Technology, 2010, 169:205-217
[8] Ding M., Boer B., Kloosterman J.L., et al. Evaluation of experiments in the AVR with the DALTON–THERMIX coupled code system. Nuclear Engineering and Design, 2009, 239(12):3105–3115.
[7] Boer B., Lathouwers D, Ding M, et al. Coupled Neutronics/thermal Hydraulics Calculations for High Temperature Reactors with the DALTON-THERMIX Code System. International Conference on the Physics of Reactor, September, 2008, Switzerland.
[6] 丁铭, 王捷, 杨小勇, 等. 高温气冷堆板翅式回热器的分布参数模型. 核动力工程, 2008, 29(2): 11-15.
[5] 丁铭, 王捷, 杨小勇, 等. 无限大芯部热容板翅式回热器动态性能研究. 原子能科学技术, 2007, 41(4): 453-457.
[4] 丁铭, 阎昌琪, 孙立成. 整体针翅管流动阻力特性实验研究. 核动力工程, 2007, 28(1): 68-71.
[3] Ding M, Sa R, Wang J, et al. Comparison of Lumped Parameter Models of Helical-Tube Precooler in HTGR Brayton Cycle. 15th International Conference on Nuclear Engineering(ICONE15), April, 2007, Japan
[2] Ding M, Wang J, Yang X, et al. Lumped Parameter Model for Dynamic Performances of Plate-Fin Recuperator. 14th International Conference on Nuclear Engineering(ICONE14). July, 2006, USA.
[1] 丁铭, 阎昌琪, 缪红建, 孙立成. 整体针翅管强化传热实验研究. 核动力工程, 2005, 26(5): 452-455 .
