胡鹏博

助理研究员

2023年1月起任职于重庆大学建筑城规学院建筑技术科学系助理研究员,获得重庆大学“弘深青年教师”特别资助。中国矿业大学电力学院能源与动力工程系学士、清华大学能源与动力工程系博士。主要从事建筑环境控制、气态污染物吸附机理和多尺度理论耦合规律等方面研究,已经以通讯作者或第一作者在国内外学术期刊上发表论文10余篇。

研究方向
  • 建筑环境控制
  • 二氧化碳捕集与封存
  • 气态痕量污染物吸附机理
  • 多尺度理论耦合规律
联系方式

brokegirls@126.com

教育经历

2018.09-2023.01 清华大学 能源与动力工程系 热能工程 博士;
2014.09-2018.06 中国矿业大学 电力工程学院 能源与动力工程专业 本科。

工作经历

2023.01月-至今 重庆大学 建筑城规学院 弘深青年教师

科研项目
  • 2026.01-2028.12 国家自然科学基金青年基金项目(C类):住宅室内典型VOCs/SVOCs协同原位吸/脱附净化机理研究;
  • 2024.08-2026.07 建筑安全与环境国家重点实验室(中国建筑科学研究院有限公司)开放课题:室内TVOC/CO2快速协同吸附净化调控机理研究;
  • 2024.07-2027.06 重庆市自然科学基金面上项目:室内多污染物快速捕集过程限域吸附稳定性调控机理研究;
  • 2023.12-2025.11 高密度人居环境生态与节能教育部重点实验室(同济大学)开放课题:高密度室内多组分气态污染物吸附强化机理研究;
  • 2023.10-2025.10 国家博士后创新人才支持项目:室内多组分气态污染物协同吸附强化与迁移解离耦合机理研究;
  • 2023.06-2024.12 中国博士后科学基金面上项目:密闭/半密闭室内污染物竞争吸附过程协同调控机理研究;
  • 2018.01-2021.12 国家自然科学基金委员会,面上项目:燃煤烟气条件下挥发性有害痕量元素异相反应机理研究;
  • 2016.07-2020.06 科技部,国家重点研发计划子课题:单质汞催化氧化技术及工程应用研究。
代表成果

期刊论文

  1. Xinyue Luo, Xianqi Huang, Pengbo Hu, Chi Feng*. Impact factors and correction methods of the cup test for determining the vapor permeability of porous building materials. Results in Engineering. (accepted)
  2. Yang Zhang, Peng Lu, Chi Feng, Xuhua Zheng, Pengbo Hu*. Mechanism study on photocatalytic purification of low-concentration gaseous benzene over germanium & graphene quantum dot-doped titanium dioxide: An experimental and theoretical study. Chemical Engineering Journal, 2025, 525: 170170
  3. Chi Feng, Yang Zhang, Yuqun Zhuo, Pengbo Hu*. Fine-regulated adsorption of carbon dioxide over modified magnesium oxide for fast adsorption–desorption cycle. Chemical Engineering Science, 2026, 320: 122364
  4. Weinan Gan, Yue He, Pengbo Hu, Yunfei Fu, Yihui Yin*, Chi Feng*. Predicting the surface temperature of radiative cooling coatings with time-series forecasting: Validation of the small-batch training dataset and implementation of a hyperparameter optimization strategy. Renewable Energy, 2025, 251: 123351
  5. Zijian Zhu, Yunjie Li, Pengbo Hu, Hans Janssen, Chi Feng*. Hygric properties of porous building materials (IX): experimental evaluation of two hysteresis models. Building and Environment, 2025, 272:112695
  6. Chi Feng, Yuqun Zhuo, Pengbo Hu*. Research on nonsteady‑state adsorption and regulation towards stabler adsorption for benzene over single‑wall carbon materials. Environmental Science and Pollution Research, 2023, 30: 110431-110460.
  7. Chi Feng, Yuqun Zhuo, Pengbo Hu*. Research on adsorption enhancement of formaldehyde over transition-sensitive carbon materials for fast purification. Journal of Building Engineering, 2023, 76: 107353.
  8. Pengbo Hu, Shujuan Wang, Yuqun Zhuo*. As2O3 adsorption enhancement over Ni-modified γ-Al2O3 in complex flue gas constituents. Separation and Purification Technology, 2022, 278: 119520.
  9. Pengbo Hu, Shujuan Wang, Yuqun Zhuo*. Arsenic adsorption enhancement performances of Mn-modified γ-Al2O3 with flue gas constituents involved. Chemosphere, 2022, 288: 132653.
  10. Pengbo Hu, Shujuan Wang, Yuqun Zhuo*. CO2 adsorption enhancement over alkaline metal-promoted MgO with SO2, O2, and H2O present: A theoretical study. Separation and Purification Technology, 2022, 284: 120253.
  11. Pengbo Hu, Shujuan Wang, Yuqun Zhuo*. Strengthened arsenic adsorption over Ni-modified γ-Al2O3 under different operation conditions: An experimental and simulation study. Chemical Engineering Journal, 2022, 431: 134204.
  12. Pengbo Hu, Shujuan Wang, Yuqun Zhuo*. CO2 adsorption enhancement over Al/C-doped h-BN: A DFT study. Chemosphere, 2022, 292: 133396.
  13. Pengbo Hu, Shujuan Wang, Yuqun Zhuo*. Fe-catalyzed CO2 adsorption over hexagonal boron nitride with the presence of H2O. ACS Applied Materials & Interfaces, 2022, 14: 1056-1069.
  14. Pengbo Hu, Shujuan Wang, Yuqun Zhuo*. Strengthened CO2 adsorption over Ce/Al-promoted MgO for fast capture. Separation and Purification Technology, 2022, 287: 120518.
  15. Pengbo Hu, Qiyu Weng, Duanle Li, Tao Lv, Shujuan Wang, Yuqun Zhuo*. Effects of O2, SO2, H2O and CO2 on As2O3 adsorption by γ-Al2O3 based on DFT analysis. Journal of Hazardous Materials, 2021, 403: 123866.
  16. Pengbo Hu, Shujuan Wang, Yuqun Zhuo*. Adsorption of NOx with NH3 on γ-Al2O3 and its effects on the adsorption of As2O3 based on DFT. Industrial & Engineering Chemistry Research, 2021, 60: 2719-2727.
  17. Pengbo Hu, Shujuan Wang, Yuqun Zhuo*. Research on operation parameters and properties of flue gas on adsorption of As2O3 by γ-Al2O3: An experiment and simulation study. Process Safety and Environmental Protection, 2021, 152: 117-130.
  18. Pengbo Hu, Shujuan Wang, Yuqun Zhuo*. Effects of element doping and H2O presence on CO2 adsorption using hexagonal boron nitride. Separation and Purification Technology, 2021, 275: 119182.
  19. Pengbo Hu, Shujuan Wang, Yuqun Zhuo*. Research on CO2 adsorption performances of metal-doped (Ca, Fe and Al) MgO. Separation and Purification Technology, 2021, 276: 119323.
  20. Pengbo Hu, Shujuan Wang, Yuqun Zhuo*. Research on As2O3 adsorption enhancement characteristics of Mn-modified γ-Al2O3. Chemical Engineering Journal, 2021, 426: 131660.
  21. Pengbo Hu, Qiyu Weng, Duanle Li, Tao Lv, Shujuan Wang, Yuqun Zhuo*. Research on the removal of As2O3 by γ-Al2O3 adsorption based on density functional theory. Chemosphere, 2020, 257: 127243.
  22. 韦诗婷,胡鹏博,冯驰*. 室内气态污染物的植物吸收、迁移与转化机理研究进展. 中南大学学报(自然科学版). 2026,57(02):532-548
  23. 张阳,胡鹏博,冯驰*. 室内气态污染物测定方法及其影响因素研究进展. 化工进展. 2025, 44(07): 4126-4143
  24. 黄先奇,罗臣佑,胡鹏博,冯驰*. 多孔建筑材料含湿量无损测试方法综述. 建筑科学. 2024, 40(12):97-106.
  25. 李蕴洁,路标,胡鹏博,冯驰*. 建筑立面风驱雨撞击与响应研究综述. 建筑节能(中英文). 2025, 53(05):166-174
  26. 朱子健,胡鹏博,冯驰*. 多孔材料毛细滞后现象研究综述. 材料导报. 2024, 38(12): 23030281.
  27. 胡鹏博,翁麒宇,李端乐,吕涛,王淑娟,禚玉群*. 模拟烟气中气态痕量元素污染物发生方法的研究现状. 工程科学学报, 2020, 42: 1411-1421.

会议论文

  1. Xianqi Huang, Pengbo Hu, Chi Feng*. Influence of In-situ Factors on the Moisture Content of Building Materials Tested through Time-domain Reflectometry. The 6th Central European Symposium on Building Physics. (accepted)
  2. Xinyue Luo, Pengbo Hu, Chi Feng*. Influence of leakage corrections on the cup test results. The 18th International Conference of Indoor Air Quality and Climate. (accepted)