1.空间微重力冷凝

2.超临界二氧化碳流动传热

3.喷雾冷却

4.室内空气品质

5.区域能源

[1] 国家自然科学基金青年基金项目（微重力下阵列微结构强化制冷剂滴状冷凝传热及液滴润湿转变行为机理研究，52006031，2021/1-2023/12，24万），主持；

[2]军委科技委基础加强计划重点基础研究项目课题-专题二负责人（*****, 6903008104, 2019/12-2023/12, 50万），主持；

[3]企业横向项目（综合能源站冷-热-电-储系统优化设计及运行技术研究，2021/08-2022/06，38.9万)，主持；

[4] 北京工业大学传热强化与过程节能教育部重点实验室开放基金项目（制冷剂滴状冷凝形成机制及传热强化研究，MOEKLEHTEC2020KFJJ04，2020.10-2021.12，2万），主持。

目前共发表论文40余篇，其中SCI第一作者15篇，EI期刊第一作者3篇，具体如下：

   *为通讯作者

[1]Bo Xu, Dengyun Wang, Zhaohai Li, Zhenqian Chen. Drying and dynamic performance of well-adapted solar assisted heat pump drying system. Renewable Energy 2021, 164: 1290-1305.

[2]Bo Xu, Sophie Wang, Zhenqian Chen. Molecular dynamics study of self-propelled droplet on different surfaces. Chemical Physics Letters 2021, 782: 139029

[3]Bo Xu#, Cancan Zhang #, Zhenqian Chen, Yang Yang, Qian Cao. Investigation of nano-droplet wetting states on array micro-structured surfaces with different gravity. Computers and Fluids 2021, 222: 104936.

[4]Bo Xu, Chun Jiang, Zhenqian Chen. Numerical study on flow heat transfer characteristics of horizontal tube falling-film evaporator. Journal of Thermal Science 2021, 30(4): 1302-1317.

[5]Xin Wang, Bo Xu∗, Qiusheng Liu, Yang Yang, Zhenqian Chen ∗. Enhancement of vapor condensation heat transfer on the micro- and nano-structured superhydrophobic surfaces. International Journal of Heat and Mass Transfer 2021,177:121526.

[6]Bo Xu,Jiaxin Xu, Zhenqian Chen. Heat transfer study in solar collector with energy storage. International Journal of Heat and Mass Transfer2020, 156: 119778. 

[7]Bo Xu, Hezhi Zhang, Zhenqian Chen. Study on heat transfer performance of geothermal pile-foundation heat exchanger with 3-U pipe configuration. International Journal of Heat and Mass Transfer 2020, 147: 119020. 

[8]Bo Xu, Zhenqian Chen. Molecular dynamics study of water vapor condensation on a composite wedge-shaped surface with multi wettability gradients. International Communications in Heat and Mass Transfer 2019; 105: 65-72. 

[9]Bo Xu, Zhenqian Chen. Condensation on composite V-shaped surface with different gravity in nanoscale. Microgravity Science and Technology 2019; 31(5): 603-613.

[10Bo Xu, Zhenqian Chen. Formaldehyde diffusion within crystalline and amorphous cellulose at different temperatures and electric fields: A molecular dynamics study. Indoor and Built Environment 2019; 28(2): 175-185.

[11]Bo Xu, Zhenqian Chen. Droplet movement on a composite wedge-shaped surface with multi-gradients and different gravitational field by molecular dynamics. Microgravity Science and Technology 2018; 30(4): 571-579. 

[12]Bo Xu, Zhenqian Chen. Effect of electric field on adsorption of formaldehyde by β-cellobiose in micro-scale. Physica E Low-dimensional Systems and Nanostructures 2018; 99: 112-117.

[13]Bo Xu, Zhenqian Chen. The Combined Effects of Temperature and Electric Fields on Formaldehyde Emission from Building Materials: Experiment and Molecular Dynamics Simulation. International Communications in Heat and Mass Transfer 2017; 87:105-111. 

[14]Bo Xu, Zhenqian Chen, Qiang Ma. Effect of high-voltage electric field on formaldehyde diffusion within building materials. Building and Environment 2016; 95: 372-380. 

[15]许波, 陈振乾. 液滴在润湿梯度表面运动的分子动力学模拟. 工程热物理学报 2020; 41(2):430-435. 

[16]许波, 陈振乾. 建材内甲醛散发参数处理方法及实验研究. 化工学报 2017; 68(S1): 43-47. 

[17]许波,陈振乾. 高压静电场对纤维素Iβ中甲醛扩散的影响. 化工学报 2016; 67: 57-62.