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专利成果
(一)授权国际专利
[1] 孙中宁,范广铭,丁铭,阎昌琪等. ?? ??? ?? ??? ? ?? ???? ??? ?? ?? ?? ?? ???,2020.3,韩国,10-2085983.
[2] 孙中宁,范广铭,丁铭,阎昌琪等. 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,2018.4,中国,ZL201480075917.6.
[3] 孙中宁,范广铭,丁铭,阎昌琪等. CONTAINMENT COOLING SYSTEM AND CONTAINMENT AND REACTOR PRESSURE VESSEL JOINT COOLING SYSTEM,2018.2,加拿大,2954136.
[4] 孙中宁,范广铭,丁铭,阎昌琪等. 格納容器かヤ系、器共同かヤ系及び格納容器 原子炉圧力容,2018.1,日本,6277322.
(二)授权发明专利
[5] 范广铭,李宗坤,曾晓波,赵乐,阎昌琪. 一种测量离心分离器零速包络面长度的试验装置与试验方法,2023.5,中国,ZL202110651048.9.
[6] 范广铭,王刚,阎昌琪,曾晓波,刘安泰,徐浚修. 一种宽流程多流型高效气液分离器,2023.3,中国,ZL201910396092.2.
[7] 范广铭,刘光宇,刘展位,静文浩,杨洛成. 船用蒸汽发生器二次侧沸腾传热分析装置,2022.9,中国,ZL201910396097.5.
[8] 阎昌琪,曾晓波,范广铭,赵乐等. 一种利用角动量守恒的管道式多级油水分离器,2022.3,中国,ZL202010766778.9.
[9] 范广铭,阎昌琪,王建军,王刚等. 一种依靠重力回流的油水分离试验装置,2021.6,中国,ZL201810663118.0.
[10] 范广铭,阎昌琪,王建军,王刚等. 一种重力与离心技术相结合的多功能宽流程高效气液分离装置, 2021.5,中国,ZL201810598118.7.
[11] 范广铭,孙建闯,李文超,孙中宁等. 一种基于边界示踪的湍流边界层流场测速方法,2021.3,中国,ZL201710722268.X.
[12] 范广铭,孙秋楠,丁铭,阎昌琪等. 一种长期非能动安全壳热量导出系统,2017.1,中国,ZL201410353537.6.
[13] 范广铭,孙秋楠,阎昌琪,丁铭等. 非能动堆外冷却系统,2017.1,中国,ZL201410353978.6.
[14] 孙中宁,丁铭,范广铭,高力等. 可实现自然循环与强迫循环耦合的冷凝换热实验装置,2014.12,中国,ZL201310084890.4.
[15] 范广铭,丁铭,孙中宁,郭子萱等. 含有多组分不凝性气体的蒸汽冷凝换热实验装置,2014.8,中国,ZL201210540382.8.
[16] 孙中宁,范广铭,阎昌琪,丁铭等. 一种非能动安全壳冷却系统,2014.7,中国,ZL201210131314.6.
[17] 范广铭,孙中宁,宿吉强,阎昌琪等. 一种基于氢气泡流动显示技术的边界层可视化试验装置,2013.11,中国,ZL201110279201.6.
[18] 范广铭,孙中宁,阎昌琪,朱升等. 多功能宽流程单相对流换热试验装置, 2012.7,中国,ZL201010587371.6.
[19] 孙中宁,阎昌琪,范广铭,范文辉. 低速热流体流量计,2010.1,中国,ZL201010032420.X.
(三)软件著作权
[20] 阎昌琪,曾晓波,范广铭,李佳明. 管道式离心分离器离散颗粒轨迹计算软件V2.0,2022.8,2023SR0893902.
[21] 范广铭,曾晓波,李宗坤,阎昌琪. 管道式离心分离器离散颗粒轨迹计算软件V1.0,2022.3,2022SR0357231.
[22] 范广铭,徐浚修,侯明文,阎昌琪等. 池式堆非能动余热排出系统自然循环特性计算软件V1.0,2021.11,2021SR1617181.
[23] 范广铭,孙建闯,刘光宇,严睿豪等. 含不凝性气体的蒸汽冷凝传热模型分析软件,2018.9,2018SR729260.
[24] 孙建闯,范广铭,李文超等. 湍流边界层拟序结构测速分析软件V1.0,2017.6,2017SR488699.
出版著作
1. 工信部“十二五”规划教材,反应堆热工水力学,哈尔滨工程大学出版社,2017.1
发表论文
(一)SCI期刊论文(第一/通讯作者)
[1] Shuai Hao, Guangming Fan*, Zhiting Yue, Rui Zhang, Junxiu Xu, Fubing Ma, Zongkun Li, Changqi Yan. Feasibility study on cooling scheme design of the concrete shielding for swimming pool-type low-temperature heating reactor[J]. Nuclear Engineering and Design, 2023, 415:112738.
[2] Zongkun Li, Meng Wang, Guangming Fan*, Xiaobo Zeng, Yiming Yan, Fubing Ma. Effects of rolling motion on flow and heat transfer characteristics in a tube bundle channel[J]. Applied Thermal Engineering, 2023, 220: 119696. (IF: 6.465)
[3] Xiaobo Zeng, Guangming Fan*, Meng Wang, Le Zhao, Changqi Yan. Experimental and numerical study on the length of LZVV in the bubble separator for molten salt reactor[J]. Nuclear Engineering and Design, 2023, 401: 112100. (IF: 1.9)
[4] Yiming Yan, Meng Wang, Guangming Fan*, Xiaobo Zeng, Zongkun Li. Experimental and theoretical study on the Onset of Nucleate Boiling in non-uniform heating tube bundle channel[J]. Annals of Nuclear Energy, 2023, 182: 109627. (IF: 1.81)
[5] Zongkun Li, Guangming Fan*, Jie Cheng, Xiaobo Zeng, Yiming Yan, Dingyu Jiang. Experimental study on sub-cooled flow boiling heat transfer in inclined non-uniform heating tube bundle channel[J]. Applied Thermal Engineering, 2022, 216: 119119. (IF: 6.465)
[6] Junxiu Xu, Mingwen Hou, Ming Ding, Changqi Yan, Chunqiu Guo, Guangming Fan*. Numerical and experimental study on natural convection outside tube bundle under small convection temperature difference[J]. Progress in Nuclear Energy, 2022, 149:104266. (IF: 2.461)
[7] Xiaobo Zeng, Meng Wang, Guangming Fan*, Le Zhao, Changqi Yan. Effects of key structure parameters on flow field and sensitivity analysis for a bubble separator in MSR[J]. Chemical Engineering Research and Design, 2022, 183:136-149. (IF: 4.119)
[8] 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[J]. Nuclear Engineering and Design, 2022, 391:111743. (IF: 1.9)
[9] Zongkun Li, Guangming Fan*, Jie Cheng, Xuwei Zhou, Xiaobo Zeng. Experimental study on heat transfer characteristics of sub-cooled flow boiling in tube bundle channel under rolling motion[J]. Annals of Nuclear Energy, 2022, 169:108950. (IF: 1.81)
[10] Xiaobo Zeng, Le Zhao, Weiguang Zhao, Mingwen Hou, Fuqiang Zhu, Guangming Fan*, Changqi Yan. Experimental study on a compact axial separator with conical tube for liquid-liquid separation[J]. Separation and Purification Technology, 2021, 257: 117904. (IF: 9.136)(ESI高被引论文)
[11] Xiaobo Zeng, Le Zhao, Guangming Fan*, Changqi Yan. Numerical and experimental study on a new axial separator for liquid-liquid separation[J]. Journal of the Taiwan Institute of Chemical Engineers, 2021, 123: 104-114. (IF: 5.477)
[12] Zongkun Li, Jie Cheng, Xuwei Zhou, Xiaobo Zeng, Xiaxin Cao, Guangming Fan*. Experimental study on sub-cooled flow boiling heat transfer characteristics in non-uniform heating tube bundle channel[J]. International Journal of Heat and Mass Transfer, 2021, 172: 121143. (IF: 5.431)
[13] Meng Wang, Wenzhen Chen, Guangming Fan*. Investigation on Transient Characteristics of High Pressure Vessel Water Level Measurement[J]. Frontiers in Energy Research, 2021, 9: 609320 (IF :3.858)
[14] Xiaobo Zeng, Le Zhao, Guangming Fan*, Changqi Yan. Experimental study on the design of light phase outlets for a novel axial oil-water separator[J]. Chemical Engineering Research and Design, 2021, 165: 308-319. (IF :4.119)
[15] Xiaobo Zeng, Chunfeng Zheng, Le Zhao, Guangming Fan*, Changqi Yan. The statistical characteristic study of bubble trajectory in an axial separator by a Lagrange method[J]. Chemical Engineering Research and Design, 2021, 175:124-130. (IF :4.119)
[16] Xiaobo Zeng, Le Zhao, Weiguang Zhao, Mingwen Hou, Fuqiang Zhu, Guangming Fan*, Changqi Yan. Experimental Study on a Novel Axial Separator for Oil-Water Separation[J]. Industrial & Engineering Chemistry Research, 2021, 59(48):21177-21186. (IF :4.326)
[17] Xiaobo Zeng, Le Zhao, Guangming Fan*, Rui Zhang, Changqi Yan. Experimental Investigation on a New Axial Separator for Oil–Water with Small Density Difference[J]. Industrial & Engineering Chemistry Research, 2021, 60(26):9560-9569. (IF :4.326)
[18] Xiaobo Zeng, Yifan Xu, Le Zhao, Guangming Fan*, Changqi Yan. Numerical investigation on axial liquid-liquid separators with different swirl chambers[J]. Chemical Engineering and Processing - Process Intensification, 2021, 161:108324. (IF :4.264)
[19] Le Zhao, Xiaobo Zeng, Weiguang Zhao, Fuqiang Zhu, Mingwen Hou, Guangming Fan*. Structural optimization for an axial oil‐water separator with multi‐stage separation[J]. Heat and Mass Transfer, 2021, 57(12):1949-1963. (IF :2.325)
[20] Zesheng Niu, Jie Cheng, Wei Li, Guangming Fan*. Experimental study of steam and steam-air mixture condensation over vertical chrome-plated tube and polished tube exterior surface[J]. Nuclear Engineering and Design, 2021, 373:111029. (IF :1.9)
[21] 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[J]. Nuclear Engineering and Design, 2021, 374:111070. (IF :1.9)
[22] Mingwen Hou, Junxiu Xu, Xiaobo Zeng, Guangming Fan*, Changqi Yan. Experimental study on the passive residual heat removal system of swimming pool-type low-temperature heating reactor[J]. Nuclear Engineering and Design, 2021, 386: 111583. (IF :1.9)
[23] Xuwei Zhou, Jie Cheng, Luchao She, Guangming Fan*. Analysis of Measuring Characteristics of the Differential Pressure Water-Level Measurement System Under Depressurization Condition[J]. Frontiers in Energy Research, 2020, 8:145. (IF :4.008)
[24] Xiaobo Zeng, Guangming Fan*, Junxiu Xu, Antai Liu, Yifan Xu, Changqi Yan. Experimental study on a new gas-liquid separator for a wide range of gas volume fraction[J]. Chemical Engineering Research and Design, 2020, 160:561-570. (IF :3.739)
[25] Guangming Fan*, Luchao She, Zhongning Sun, Jie Cheng, Yitung Chen. Experimental Study on Laminar Flow Resistance Characteristics of Flat Tube and Microfinned Flat Tube[J]. Heat Transfer Research, 2020, 51(10):897-908. (IF :2.443)
[26] Gang Wang, Changqi Yan, Guangming Fan*, Jianjun Wang, Junxiu Xu, Xiaobo Zeng, Antai Liu. Experimental study on a swirl-vane separator for gas–liquid separation[J]. Chemical Engineering Research and Design, 2019, 151:108-119. (IF :3.350)
[27] Zhanwei Liu, Yanwei Yue, Luchao She, Guangming Fan*. Numerical Analysis of Turbulent Flow and Heat Transfer in Internally Finned Tubes[J]. Frontiers in Energy Research, 2019, 7:64. (IF :2.746)
[28] Luchao She, Guangming Fan*. Numerical Simulation of Flow and Heat Transfer Characteristics of CuO-Water Nanofluids in a Flat Tube[J]. Frontiers in Energy Research, 2018, 6:57. (IF :2.746)
[29] Guangming Fan*, Pan Tong, Zhongning Sun, Yitung Chen. Experimental study of pure steam and steam–air condensation over a vertical corrugated tube[J]. Progress in Nuclear Energy, 2018, 109:239-249. (IF :1.569)
[30] Guangming Fan*, Pan Tong, Zhongning Sun, Yitung Chen. Development of a new empirical correlation for steam condensation rates in the presence of air outside vertical smooth tube[J]. Annals of Nuclear Energy, 2018, 113:139-146. (IF :1.380)
[31] Xiao Yan, Guangming Fan*, Zhongning Sun. Study on flow characteristics in an open two-phase natural circulation loop[J]. Annals of Nuclear Energy, 2017, 104:291-300. (IF :1.476)
[32] Pan Tong, Guangming Fan*, Zhongning Sun, Ming Ding. Experimental study of steam-air condensation over a vertically longitudinal finned tube[J]. International Journal of Heat and Mass Transfer, 2015, 89:1230-1238. (IF :2.857)
[33] 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[J]. Experimental Thermal and Fluid Science, 2015, 69:141-148. (IF :2.128)
(二)EI/中文核心期刊论文(第一/通讯作者)
[34] 李宗坤,范广铭*,曾晓波,严一鸣,马富兵. 倾斜棒束通道过冷沸腾传热模型研究[J]. 原子能科学技术, 2023, 57(8): 1544-1552.
[35] 徐浚修,范广铭*,侯明文,丁铭,岳芷廷,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[J]. 原子能科学技术, 2022, 56(11): 2438-2449. (入选领跑者5000-中国精品科技期刊顶尖学术论文)
[36] 牛泽圣,郭桓辰,范广铭*. 不同表面处理方式对竖直圆管外冷凝换热特性的影响[J]. 核科学与工程,2020. (中文核心)
[37] 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.
[38] 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.
[39] 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.
[40] 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.
(三)国际会议论文(第一/通讯作者)
[41] Guangming Fan, Zongkun Li, Xiaobo Zeng, Shuai Hao, Jie Cheng. Investigations on the Characteristics of Full Scale Temperature Distribution and Evolution in the Uneven Heating Tube Bundle Channels[C]. KNS 2023 10th Korea-China Workshop on Nuclear Reactor Thermal-Hydraulics (WORTH10), November 26-29, 2023, Korea.
[42] Shuai Hao, Guangming Fan*, Zhiting Yue, Jiaming Li, Zongkun Li, Shicong Guan, Changqi Yan, Rui Zhang. Analysis of the influence of operating parameters on the cooling effect of Swimming Pool-type Low-Temperature Heating Reactor[C]. KNS 2023 10th Korea-China Workshop on Nuclear Reactor Thermal-Hydraulics (WORTH10), November 26-29, 2023, Korea.
[43] Qiang Wan, Guangming Fan*, Junxiu Xu, Changqi Yan, Zhiting Yue. Numerical simulation study of pool reactor cooling pool with passive separated heat pipe cooling system under ATWS accident[C]. KNS 2023 10th Korea-China Workshop on Nuclear Reactor Thermal-Hydraulics (WORTH10), November 26-29, 2023, Korea.
[44] Xinyu Zhou, Guangming Fan*, Junxiu Xu. Experimental Study on Start-up and Operation Characteristics of Separated Heat Pipe System Under Low Parameters[C]. ASME 2023 30th International Conference on Nuclear Engineering (ICONE 30), May 21-26, 2023, Japan.(ICONE30 Best Poster Award)
[45] Shuai Hao, Guangming Fan*, Junxiu Xu, Changqi Yan, Rui Zhang, Fubing Ma, Zongkun Li, Mingwen Hou. Experimental study on cooling scheme of the concrete around swimming pool-type low-temperature heating reactor[C]. ASME 2023 30th International Conference on Nuclear Engineering (ICONE 30), May 21-26, 2023, Japan.
[46] Yiming Yan, Guangming Fan*, Zongkun Li. Experimental study on the heat transfer characteristics of non-uniform heating tube bundle channel[C]. ASME 2022 29th International Conference on Nuclear Engineering (ICONE 29), August 8-12, 2022, China.
[47] Fubing Ma, Guangming Fan*, Junxiu Xu, Changqi Yan, Shuai Hao, Xinyu Zhou. Research on the Supercharging Performance of the Annular Multi-nozzles Ejector at the Suction Port of a Centrifugal Pump. ASME 2022 29th International Conference on Nuclear Engineering (ICONE 29), August 8-12, 2022, China.(Qian Sanqiang Award)
[48] Zongkun Li, Jie Cheng, Xuwei Zhou, Xiaobo Zeng, Xiaxin Cao, Guangming Fan*. Experimental Investigation on Boiling Heat Transfer Characteristics in an Inclined Tube Bundle[C]. ASME 2021 28th International Conference on Nuclear Engineering (ICONE 28), August 4-6, 2021, America.
[49] Zongkun Li, Jie Cheng, Xuwei Zhou, Xiaobo Zeng, Guangming Fan*. Experimental Investigation on Saturated Flow Boiling Heat Transfer in an Inclined Tube Bundle[C]. The 6th International Workshop on Heat/Mass Transfer Advances for energy Conservation and Pollution Control (6thIWHT), August 13-16, 2021, Harbin, Chian.
[50] Zesheng Niu, Guangming Fan*, Jie Cheng, Wei Li. Experimental study of pure steam and steam-air mixture condensation over vertical chrome-plated tube[C]. ASME 2020 International Conference on Nuclear Engineering (ICONE 27), August 4-5, 2020, America. (WOS:000850735200066)
[51] Xiaobo Zeng, Changqi Yan, Guangming Fan*, Jie Cheng, Junxiu Xu, Antai Liu. Experimental study on two different gas-liquid separators under different flow patterns[C]. ASME 2020 International Conference on Nuclear Engineering (ICONE 27), August 4-5, 2020, America.(WOS:000850735200021)
[52] Junxiu Xu, Ming Ding, Changqi Yan, Guangming Fan*. Experimental study on natural convection heat transfer outside tube bundle in space under low temperature difference. ASME 2020 International Conference on Nuclear Engineering (ICONE 27), August 4-5, 2020, America.
[53] Guangming Fan*, Luchao She, Zhongning Sun, Jie Cheng, Yitung Chen. Experimental Study on Laminar Flow Resistance Characteristics of Flat Tube and Microfinned Flat Tube[C]. The 5th International Workshop on Heat/Mass Transfer Advances for Energy Conservation and Pollution Control (5thIWHT), 2019, Novosibirsk, Russia.
[54] Luchao She, Guangming Fan*, Jie Cheng. Study on Structure Design and Numerical Simulation of High-Pressure Liquid-gas Ejector[C]. The 5th International Workshop on Heat/Mass Transfer Advances for Energy Conservation and Pollution Control (5thIWHT), 2019, Novosibirsk, Russia.
[55] Gang Wang, Guangming Fan*, Changqi Yan, Xiaobo Zeng, Antai Liu. Experimental study on a separator for gas liquid separation[C]. The 5th International Workshop on Heat/Mass Transfer Advances for Energy Conservation and Pollution Control (5thIWHT), 2019, Novosibirsk, Russia.
(四)国内会议论文(第一/通讯作者)
[56] 李佳明,姜丁煜,曾晓波,范广铭*. 基于拉格朗日法的旋流场内颗粒运动特性实验研究[C],2023年工程热物理学会多相流年会,中国上海:2023.10.22
[57] 李宗坤, 范广铭*, 曾晓波, 高波, 严一鸣, 葛坤. 非均匀加热管東通道内温度分布特性[Z], 2023年中国核科学与技术博士生论坛, 哈尔滨工程大学核科学与技术学院, 中国哈尔滨, 2023.7.15
[58] 李佳明, 郝帅, 曾晓波, 范广铭*. 基于CFD-DEM方法的熔盐堆分离器内固液两相耦合作用的数值模拟[Z], 2023年中国核科学与技术博士生论坛, 哈尔滨工程大学核科学与技术学院, 中国哈尔滨, 2023.7.15
[59] 李宗坤,范广铭*,曾晓波,严一鸣,马富兵. 倾斜加热棒壁面过冷流动沸腾传热模型[C]. 第二届全国核反应堆热工流体力学学术年会, 哈尔滨, 2022.
[60] 马富兵, 曾晓波, 范广铭*. 主泵吸入口引射装置结构对增压性能的影响数值分析[C]. 第二届全国核反应堆热工流体力学学术年会, 哈尔滨, 2022.
[61] 王超群,范广铭*,曾晓波,阎昌琪,曹夏昕,双筒气液分离器分离性能的实验研究,第二届全国核反应堆热工流体力学学术年会,,哈尔滨,2022.
[62] 曾晓波,赵乐,阎昌琪,范广铭*. 熔盐堆气泡分离器内零速包络面的试验研究[C]. 中国核学会2021年学术年会, 烟台, 2021.
[63] 曾晓波,赵乐,阎昌琪,范广铭*. 轴流式离心分离器切向速度的预测模型研究[C]. 中国核学会核反应堆热工流体力学分会第一届学术年会, 重庆, 2021.
[64] 马富兵,李宗坤,程杰,范广铭*. 非均匀加热管束通道过冷沸腾起始点实验研究[C]. 中国核学会核反应堆热工流体力学分会, 重庆, 2021.
[65] 牛泽圣,郭桓辰,范广铭*. 不同表面处理方式对竖直圆管外冷凝换热特性的影响[C]. 中国核学会 2019 年学术年会, 包头, 2019.
[66] 周旭威,范广铭*. 双参考管水位计瞬态特性分析[C]. 中国核学会船用核动力分会学术年会, 成都, 2019.
[67] 佘禄超,范广铭*. 高压液-气引射器数值模拟[C]. 工程热物理年会多相流分会会议论文集, 长沙, 2019.
[68] 郭恒辰,范广铭*,李文超. 竖直抛光管管外含空气蒸汽冷凝传热实验研究[C]. 第十五届全国反应堆热工流体学术会议, 山东, 2017.
[69] 李文超,范广铭*,郭恒辰. 微肋表面湍流边界层猝发现象的实验研究[C]. 第十五届全国反应堆热工流体学术会议, 山东, 2017.
[70] 仝潘,范广铭*,孙中宁,丁铭. 竖直波节管外含空气蒸汽冷凝换热特性研究[C]. 第十四届全国反应堆热工流体学术会议, 北京, 2015.
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