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[2] 王磊,厉彦忠,张少华,等,低温推进剂空间管理技术研究进展及技术成熟度提升方案,宇航学报,2020
[3] Wang Lei, Wang Jiaojiao, Yan Tian, et al. Film boiling heat transfer predictions of liquid nitrogen from different geometry heaters. International Journal of Multiphase Flow, 2020.
[4] 王磊,叶世轩,厉彦忠,等. 氢仲-正转化释冷方案及冷量空间利用潜能分析,宇航学报.
[5] Wang Lei, Yan Tian, Wang Jiaojiao, et al. CFD investigation on pressure evolution and field distribution in liquid hydrogen tank during successive varied-gravity conditions. Cryogenics, 2019.
[6] 王磊,低温液体大温差快速预冷中的反环状流型稳定性及演变机理,第六届热力学与能源利用青年学术论坛,2019.
[7] Wang L, Yan T, Wang Jiaojiao, et al. CFD investigation on thermodynamic characteristics of on-orbital cryogenic tank under reorientation process. 15th Cryogenics 2019 IIR International Conference, April 7-11, 2019, Prague, Czech Republic.
[8] Wang Lei, Yan Tian, Wang Jiaojiao, et al. Non-condensable helium effect on heat and mass transfer characteristics inside a liquid hydrogen tank. The 25th IIR international Conference of Refrigeration, ICR-2019.
[9] 王磊,李江道,耑锐,等. 空间变过载下液氢输送管内气泡动力学特性仿真研究,载人航天,2019.
[10] 郁一帆,王磊,无人机技术发展的新动态,飞航导弹,2019.
[11] 严天,王磊,王娇娇,等. 微重力下低温传输管内气泡运动特性仿真研究,2019年制冷年会
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[13] 黄晓宁,王磊,毛红威,等. 火箭升空低温推进剂出流特性仿真研究,制冷学报,2019
[14] 王磊,黄晓宁,王娇娇,等. 低温预冷换热规律及表面改性影响研究,2019,中国工程热物理年会. 优秀论文)
[15] 王磊,王娇娇,严天,等. 表面结构改性对低温管流沸腾换热温度迁移的影响,低温工程,2019.
[16] 严天,王磊,王娇娇,等. 推进剂快速加注系统仿真及影响因素讨论,航天工程论坛会议论文,2018.
[17] 王磊,耑锐,张亮,等. 变过载下氢箱增压与物理场分布特性仿真,中国工程热物理学学会工程热力学与能源利用,2018
[18] 王磊,朱康,马原,等. 常重力及微重力下液氢膜态池沸腾换热预测. 航空动力学报,2017.
[19] Wang Lei, Ye Shixuan, Ma Yuan, et al. CFD investigation on helium pressurization behaviors in liquid hydrogen tank. International Journal of Hydrogen Energy, 2017
[20] 叶世轩,王磊,厉彦忠,等. 氢仲-正转化释冷过程分析及冷量空间利用方案研究. 2017年全国低温工程大会会议论文
[21] 王磊,微重力下液氢流动沸腾与传热性能研究,第十三届全国低温工程大会,2017 (分会场特邀报告)
[22] Wang Lei, Zhu Kang, Xie Fushou, et al. Prediction of pool boiling heat transfer for hydrogen in microgravity. International Journal of Heat and Mass Transfer, 2016
[23] Wang Lei, Ma Yuan, Wang Ying, et al. Investigation on pressurization behaviors of two-side-insulated cryogenic tank during discharge. International Journal of Heat and Mass Transfer, 2016.
[24] Wang Lei, Li Yanzhong, Zhang Feini, et al. Correlations for calculating heat transfer of hydrogen pool boiling. International Journal of Hydrogen Energy, 2016.
[25] Wang Lei, Li Yanzhong, Zhu Kang, et al. Comparison of three computational models for predicting pressurization characteristics of cryogenic tank during discharge. Cryogenics, 2015
[26] Wang Lei, Li Yanzhong, Jin Yonghua, et al. Experimental investigation on pressurization performance of cryogenic tank during high-temperature helium pressurization process. Cryogenics, 2015
[27] Wang Lei, Li Yanzhong, Liu Zhan, et al. Numerical investigation of thermal distribution and pressurization behavior in helium pressurized cryogenic tank by introducing a multi-component model. Physics Procedia, 2015
[28] 王磊,厉彦忠,马原,等. 长期在轨贮存低温推进剂过冷度获取方案研究. 航空动力学报,2015
[29] Wang Lei, Ma Yuan, Li Yanzhong. Performance analysis of no-vent fill process for large liquid hydrogen tank in terrestrial and on-orbit environments. Cryogenics, 2015
[30] Wang Lei, Li Yanzhong, Zhao Zhixiang, et al. Transient thermal and pressurization performance of LO2 tank during helium pressurization combined with outside aerodynamic heating. International Journal of Heat and Mass Transfer, 2013
[31] 王磊,厉彦忠,刘展,等. 基于热力学排气系统的低温推进剂长期在轨贮存方案研究.低温工程,2013
[32] Lei Wang; Yanzhong Li; Cui Li; et al. CFD investigation of thermal and pressurization performance in LH2 tank during discharge. Cryogenics, 2013
[33] Wang L, Li YZ, Zhao ZX, et al. Numerical investigation of pressurization performance in cryogenic tank of new-style launch vehicle. Asia-Pacific Journal of Chemical Engineering, 2014.
(创新港)
