[1] Ping-Yang Wang, Xue-Jiao Wang Zhen-Hua Liu. Flow drag and heat transfer characteristics of drag-reducing nanofluids with CuO nanoparticles. Heat and Mass Transfer, 2016

[2] Ping‑Yang Wang, Yan‑Jun Chen, Zhen‑Hua Liu. Performance improvement of wire‑bonded mesh screen flat heat pipe using water‑based nanofluid. Heat and Mass Transfer, 2016

[3] Ping-Yang Wang, Bo-Wen Hu, Zhen-Hua Liu. Heat transfer and thermal storage performance of an open thermosyphon type thermal storage unit with tubular phase change material canisters. Energy Conversion and Management, 2015,103:1078-1088

[4] Ping-Yang Wang, Shuang-Fei Li, Zhen-Hua Liu. Collecting performance of an evacuated tubular solar high-temperature air heater with concentric tube heat exchanger. Energy Conversion and Management, 2015,106:1166-1173

[5] Ping-Yang Wang, Hong-Yang Guan, Zhen-Hua Liu, Guo-San Wang, Feng Zhao, Hong-Sheng Xiao. High temperature collecting performance of a new all-glass evacuated tubular solar air heater with U-shaped tube heat exchanger. Energy Conversion and Management, 2014,77:315-323

[6] Ping-Yang Wang, Xiu-Juan Chen, Zhen-Hua Liu, Yi-Peng Liu. Application of nanofluid in an inclined mesh wicked heat pipes. Thermochimica Acta. 2012,539:100-108

[7] Wang, P.-Y., Tan, H.-P., Xia, X.-L. Transient Coupled Radiative and Conductive Heat Transfer in a Composite of Semitransparent Media. Journal of Thermal Science, 1999,8(2):131-139

[8] Wang, P.-Y., Cheng, H.-E., Tan, H.-P.  Transient Coupled Radiation and Conduction in a Two-Layer Semitransparent Material. Journal of Thermophysics and Heat Transfer, 2002,16(3):475-478

[9] Wang, P.-Y., Cheng, H.-E., Tan, H.-P. Transient Thermal Analysis of Semitransparent Composite Layer with an Opaque Boundary. International Journal of Heat and Mass Transfer, 2001,45(2):425-440.

[10] Wang, P.-Y., Cheng, H.-E., Tan, H.-P.   Internal Radiation Effects in Semitransparent High-Temperature Coatings. Heat Transfer - Asian Research, 2004,33(5):271-278

[11] Tan, H.-P., Wang, P.-Y., Xia, X.-L. Transient Coupled Radiation and Conduction in an Absorbing and Scattering Composite Layer. Journal of Thermophysics and Heat Transfer, 2000,14(1):77-87

[12] Wang Pingyang, Qian Zhong, Xiao Zejuan, et al. Numerical Simulation of Plasma Plume and its Radiative Characteristic. 42nd AIAA/ASME/SAE/ASEE Joint Propulsion Conference, July, 2006, pp. 5263-5272. (EI)

[13] Li Yan, Ping-Yang Wang, Hua Ouyang, Xiaolu Kang. Thermal Analysis of Hall Thruster in Vacuum. Vacuum. 2014,108(20):49-55

[14] Li Yan, Ping-Yang Wang, Hua Ouyang, Xiaolu Kang. Numerical Study of Hall Thruster Plume and Sputtering Erosion. Journal of applied mathematics, 2012, doi.org/10.1155/2012/327021. (SCI, IF=0.834)

[15] Zhong Qian, Ping-Yang Wang, Zhao-Hui Du. Comparison between Particle Simulation and Measurements of a Stationary Plasma Thruster Plume. Aerospace Engineering, 2009, 223:115-122(SCI)

[16] Zhong Qian, Zhao-Hui Du, Ping-Yang Wang. Three-Dimensional Particle Simulation of the Plume of a Pulsed Plasma Thruster. Journal of Aerospace Engineering. 2009,223(6):815-823(SCI)

[17] Zhong Qian, Ping-Yang Wang, Zhao-Hui Du, Xiao-Lu Kang. Study of Plume Characteristics of a Stationary Plasma Thruster. Plasma Science and Technology, 2008,10(5):612-618(SCI)

[18] Da-Li Hou, Wan-Sheng Zhao, Xiao-Ming Kang, Ping-Yang Wang. Effect of Ceramic Nozzle on Performance of Pulsed Plasma Thruster. Aerospace Science and Technology. 2008,12(8):573-578(SCI)

[19] 钱中, 杜朝辉, 王平阳, 袁益超。脉冲等离子体推力器羽流特性数值研究. 航空动力学报,2010,25(5):1145-1150

[20] 钱中, 王平阳, 杜朝辉. 脉冲等离子体推力器羽流三维粒子模拟.宇航学报. 2009,30(2):680-684,734

[21] 钱中, 王平阳, 杜朝辉, 康小录. Hall推力器羽流数值模拟. 推进技术. 2008,29(1):93-97

[22] 钱中, 王平阳, 杜朝辉, 康小录. 稳态等离子体推力器羽流数值模拟. 固体火箭技术. 2008,31(5):484-488

[23] 王平阳，钱中，杨帆，杜朝辉. 稀薄等离子体稳态流动的数值模拟. 工程热物理学报，2007, 28(6): 1013-1015(EI)

[24] 白耀忠，王平阳，康小录，于水淋，乔彩霞. Langmuir双探针测量Hall推力器羽流特性. 推进技术，2006，27(4):368-371(EI)

[25] 亓雪芹，王平阳，张靖周，单勇，程惠尔. 反向蒙特卡罗法模拟波瓣喷管的红外辐射特性. 上海交通大学学报，2005，39(8):1229-1232(EI)

[26] 王平阳，鹿洪芳，程惠尔. 双组元姿控发动机反流特性的DSMC模拟. 工程热物理学报，2004, 25(4):640-642(EI)

[27] Ping-Yang Wang，Qian Zhong，Ze-Juan Xiao，Fan Yang. Numerical Simulation of Plasma Plume and its Radiative Characteristic. AIAA 2006-4858

[28] 王平阳，钱中，杨帆，杜朝辉. 稀薄等离子体稳态流动的数值模拟. 工程热物理年会传热传质分会，2006，No.063265,1199-1204

[29] 王平阳，白耀忠，康小录，  于水淋，乔彩霞. Hall推力器羽流特性的实验测量. 工程热物理年会传热传质分会，2005，No.053365,1862-1865

[30] 王平阳, 张靖周, 单勇, 董士奎, 亓雪芹. 波瓣喷管红外辐射特性的数值模拟. 工程热物理年会传热传质分会，2004，No.043098,482-485

[31] 王平阳，钱中，严立，杜朝辉. 电推力器等离子体羽流三维非稳态流动模拟. 中国工程热物理学会传热传质学学术会议, 2008.

[32] 严立, 王平阳, 欧阳华. 月面环境发动机羽流冲击力效应模拟计算, 上海交通大学学报，2012.46(8): 1310-1314.

[33] 严立, 王平阳, 陈佳洛,欧阳华. 基于CUDA Fortran的DSMC方法并行优化, 上海交通大学学报2013.47(8): 1198-1204.)

[34] 严立, 王平阳, 陈佳洛, 欧阳华. 基于PIC/MCC/DSMC方法霍尔推力器热分析, 推进技术. 2015,36(6)

[35] 张志远, 严立, 王平阳, 吴建军. 霍尔推力器放电室壁面溅射产额研究, 推进技术. 2015(3):476-480

[36] 张志远，田杨，王平阳，吴建军. 霍尔推力器寿命实验和计算分析. 火箭推进, 2014, 40(3)

[37] 田杨，张志远，王平阳，严立. 基于混合方法的霍尔推力器寿命预估及参数影响分析. 推进技术, 2013, 34(7):1002-1008

[38] 严立, 王平阳, 康小录, 欧阳华. 霍尔推力器羽流流场及溅射污染数值模拟, 第七届中国电推进技术学术研讨会, 广东深圳, 2011.

[39] 严立, 王平阳, 欧阳华. 霍尔推力器耦合热分析.第九届中国电推进技术学术研讨会, 甘肃兰州, 2013.

[40] 王平阳, 严立, 计京津. Fluid/DSMC/RMC方法计算姿控发动机羽流附加热和力效应, 中国工程热物理学会2010年传热传质学学术会议, 上海.

[41] 王平阳, 钱中, 严立, 杜朝辉.电推力器等离子体羽流三维非稳态流动模拟, 中国工程热物理学2008年传热传质学学术会议, 福建厦门.

[42] 王平阳, 张志远, 严立, 康小录, 欧阳华. 霍尔推力器加速通道溅射产额实验研究,第九届中国电推进技术学术研讨会, 甘肃兰州, 2013.