[1] Wang C, Ding P, Xing Y, et al. PIV experimental study of airflow structure in a multi-slot ventilation enclosure with opposed jets[J]. Buildings, 2024,14/12/19

[2]Chen H, Gao X, Wang C（通讯作者 ）, Experimental study on the performance enhancement of PV/T by adding graphene oxide in paraffin phase change material emulsions[J]. Solar Energy Materials and Solar Cells, 2024.266

[3] Wang C ,  Zhang J ,  Chao J , et al. Evaluation of dynamic airflow structures in a single-aisle aircraft cabin mockup based on numerical simulation[J]. Indoor and Built Environment, 2021:1420326X2199209.

[4] Wang C ,  Zhang J ,  Chen H , et al. Experimental study of thermo-fluid boundary conditions, airflow and temperature distributions in a single aisle aircraft cabin mockup[J]. Indoor and Built Environment, 2020:1420326X2093227.

[5] Wang C ,  Liu J ,  Shang W , et al. Experimental and numerical study of space station airflow distribution under microgravity condition[J]. Building and Environment, 2018, 144(OCT.):268-280.

[6] Wang C ,  Liu J ,  Li J , et al. Turbulence characterization of instantaneous airflow in an aisle of an aircraft cabin mockup[J]. Building and Environment, 2017, 116(MAY):207-217.

[7] Wang C ,  Liu J ,  Li J , et al. Chaotic behavior of human thermal plumes in an aircraft cabin mockup[J]. International Journal of Heat and Mass Transfer, 2017, 119.

[8] Tong Y, Yang H, Wang C（通讯作者 ） , et al. Analysis of Thermal Insulation Thickness for a Container House in the Yanqing Zone of the Beijing 2022 Olympic and Paralympic Winter Games[J]. International Journal of Environmental Research and Public Health, 2022, 19.

[9]Chen H, Zhao R, Wang C（通讯作者 ）, et al. Preparation and Characterization of Microencapsulated Phase Change[J]. Energies, 2022,08

[10] Nie J ,  Pang Y ,  Wang C（通讯作者 ）, et al. Theoretical Study on the Relationship of Building Thermal Insulation with Indoor Thermal Comfort Based on APMV Index and Energy Consumption of Rural Residential Buildings[J]. Applied Sciences, 2021, 11(18):8565.

[11] Chen H ,  Li S , Wang C（通讯作者 ）, et al. Experimental study on characteristics of a nano-enhanced phase change material slurry for low temperature solar energy collection[J]. Solar Energy Materials and Solar Cells, 2020, 212:110513.

[12] Chen W ,  Liu J , Wang C , et al. Assessment of a confined thermal plume by PIV combined with POD analysis[J]. Applied Thermal Engineering, 2021, 188(3):116590.

[13] Zhang Y ,  Li J ,   Wang C , et al. Experimental investigation of large-scale flow structures in an aircraft cabin mock-up[J]. Building and Environment, 2020, 184:107224.

[14] Jia L ,  Liu J ,  Wang C , et al. Study of the thermal performance of a novel dew point evaporative cooler[J]. Applied Thermal Engineering, 2019, 160:114069.

[15]Li J, Liu J, Wang C, et al. PIV experimental study of the large-scale dynamic airflow structures in an aircraft cabin: Swing and oscillation [J]. Building & Environment, 2017, 125. 

[16]Li J, Liu J, Wang C, et al. PIV methods for quantifying human thermal plumes in a cabin environment without ventilation [J]. Journal of Visualization, 2016:1-14.

[17]Li J, Cao X, Liu J, Wang C, et al. Global airflow field distribution in a cabin mock-up measured via large-scale 2D-PIV [J]. Building & Environment, 2015, 93(2):234-244.

[18]Zhang Y, Liu J, Pei J, Wang C, et al. Statistical analysis of turbulent thermal convection in a cabin mockup[J]. Building & Environment, 2017, 115:34-41.

[19]Zhang J, Pan W, Long Z, Wang C, et al. Study of the oil mist filtration performance: Pressure drop characteristics and filter efficiency model [J]. Aerosol & Air Quality Research, 2017, 17(4): 1063-1072.

[20]Zhang Y, Liu J, Pei J, Wang C, et al. Performance evaluation of different air distribution systems in an aircraft cabin mockup [J]. Aerospace Science & Technology, 2017, 70: 359-366.

[20]Li M, Yan Y, Zhao B, Tu J, Liu J, Li F, Wang C, et al. Assessment of turbulence models and air supply opening models for CFD modelling of airflow and gaseous contaminant distributions in aircraft cabins[J]. Indoor & Built Environment, 2017: 1420326X1668804. 

[21]卢浩阳，王聪聪（通讯作者），陈红兵，等. 对置射流封闭人居空间内流场的涡识别研究[J]. 制冷学报，2025，46/1

[22]何迪，王聪聪（通讯作者）, 陈红兵，等. 应用 PSO-RBF 神经网络预测太阳能 PV/T 系统的热、电性能[J]. 可再生能源，2024，42/04/455-463

[23]陈红兵, 薛闪闪, 王聪聪（通讯作者）,等. 既有居住建筑外墙保温厚度优化及减排效益分析[J]. 科学技术与工程, 2022(013):022.

[24]李璊, 王聪聪（通讯作者）, 杨晖,等. 冬奥集装箱房室内热环境多物理场耦合模拟及分析[J]. 暖通空调.

[25]陈红兵, 李宝武, 王聪聪（通讯作者）,等. 新型平板热管式PV/T热泵系统的集热模块优化研究[J]. 热科学与技术, 2021, 20(4):7.

[26]陈红兵, 孙俊辉, 王聪聪（通讯作者）,等. 应用遗传算法优化BP神经网络预测太阳能PV/T系统热电产出[J]. 热科学与技术, 2021, 20(5):8.

[27]陈红兵, 张晓坤, 王聪聪（通讯作者）,等. 一种基于微热管阵列的太阳能PV/T热泵系统能效实验研究[J]. 可再生能源, 2021, 39(5):7.

[28]陈红兵, 赵瑞, 王聪聪（通讯作者）,等. 基于太阳能集热蓄热的相变微胶囊的制备及微观形态表征[J]. 功能材料, 2020, 51(12):6.