At PolyU

 

2025

38. Zhao L., You R.*, Stocchino A., Chen, Q. 2025. Bubble deformation characteristics and the effect on particle removal efficiency in wet scrubbers. Separation and Purification Technology, 357(B): 130178.

​

2024

37. Wang, J., and You, R.* 2024. Evaluating different categories of turbulence models for calculating air pollutant dispersion in street canyons with generic and real urban layouts. Journal of Wind Engineering & Industrial Aerodynamics, 255: 105948.

36. Zhao. R., Zhong. S., You R.* 2024. Application of convolutional neural network for efficient turbulence modeling in urban wind field simulation. Physics of Fluids, 36: 105169.

35. Zhang. H., Pan. Y., Deng. C., Niu. Z., You R., Chen, C. 2024. Experimental investigation of interpersonal particle transport in an aircraft cabin mockup with nanofiber air filters. Science of the Total Environment, 954: 176059.

34. Yin. Y., Zhao. L., You R.*, Pei. J., Li. H., He. J., Sun. Y., Yang. X., Chen, Q. 2024. Prediction of air quality perception in aircraft cabin based on psychophysical model and artificial neural network-based model. Indoor Environments, 1(4): 100044.

33. Bhuvad S. S., You R.*, Chen, Q. 2024. Evaluation  of physiological and thermal comfort effectiveness of ceiling fan and table fan during a heat wave. Energy and Buildings, 322:114706.

32. Zhou, Y., Hou, Y., Chen, C., You, R.* 2024. Optimal operations of gaspers for minimizing the exposure risks of airborne disease transmission in an economy-class aircraft cabin. Indoor Environments, 1(3): 100041.

31. Singh P. K., You R.*, Chen, Q. 2024. Assessment of longitudinal dispersion and flow resistance near floodplains through riparian woodlands. Journal of Environmental Management, 364: 121298.

30. Liu L., Xin J., Liu Z., Zeng W., Li Q., Jin L., You R., Liu M., Liu, H. 2024. Are wearable local cooling devices effective in Chinese residential kitchens during hot summer? Building and Environment, 257: 111532.

29. Pan Y., Zhang H., Huang W., Liu W., You R., Chen, C. 2024. Enhancing removal of air contaminants in existing aircraft cabins by optimizing supply air direction based on Re-field synergy and Bayesian optimization. Science of the Total Environment, 928: 172363.

28. Zhao L., You R.*, Liu J., Chen, Q. 2024. A real-time measurement and analysis method for gas holdup in a wet scrubber with the use of image information entropy. Separation and Purification Technology, 345: 127255.

​

2023

27. Hou, Y., and You, R.* 2023. Investigating the impact of gaspers on airborne disease transmission in an economy-class aircraft cabin with personalized displacement ventilation. Building and Environment, 245: 110963.

26. Wang, J., Wang L., You, R.* 2023. Evaluating a combined WRF and CityFFD method for calculating urban wind distributions. Building and Environment, 234: 110205.

25. Wang, F., Zhang, T., You, R.*, Chen, Q. 2023. Evaluation of infection probability of Covid-19 in different types of airliner cabins. Building and Environment, 234: 110159.

24. Entezari, A., Lin, H., Esan, O. C., Wang, R.*, You, R.*, An, L.* 2023. Continuous humidity pump and atmospheric water harvesting inspired by tree pumping system. Cell Reports Physical Science, 4(2): 101278.

​

2022

23. Zhou, Y., An, Y., Huang, W., Chen, C., You, R.* 2022. A combined deep learning and physical modelling method for estimating air pollutants' source location and emission profile in street canyons. Building and Environment, 219: 109246.

22. Cheng, P., Chen, W., Xiao, S., Xue, F., Wang, Q., Chan, P. K., You, R., Lin, Z., Niu, J., Li, Y. 2022. Probable cross-corridor transmission of SARS-CoV-2 due to cross airflows and its control. Building and Environment, 218: 109137.

21. Wang, F., You, R., Zhang, T., Chen, Q. 2022. Recent progress on studies of airborne infectious disease transmission, air quality, and thermal comfort in the airliner cabin air environment. Indoor Air, 32:e13032.

20. Fu, L., Yang, M., Niu, J., Ren, W.*, You, R.* 2022. Transient tracer gas measurements: development and evaluation of a fast-response SF6 measuring system based on quartz-enhanced photoacoustic spectroscopy. Indoor Air, 32 (1), e12952.

​

2021

19. Xia, T., Qi, Y., Dai, X., Liu, J., Xiao, C., You, R., Lai, D., Liu, J., Chen, C. 2021. Estimating long-term time-resolved indoor PM 2.5 of outdoor and indoor origin using easily-obtainable inputs. Indoor Air, 31: 2020–2032.

18. Zhou, Y., An, Y., Chen, C., You, R.* 2021. Exploring the feasibility of predicting contaminant transport using a stand-alone Markov chain solver based on measured airflow in enclosed environments. Building and Environment, 202: 108027.

17. An, Y., Xia, T., You, R., Lai, D., Liu, J., Chen, C. 2021. A reinforcement learning approach for control of window behavior to reduce indoor PM2.5 concentrations in naturally ventilated buildings. Building and Environment, 200: 107978.

16. Dai, H. K., Huang, W., Fu, L., Lin, C-H., Wei, D., Dong, Z., You, R., Chen, C. 2021. Investigation of pressure drop in flexible ventilation ducts under different compression ratios and bending angles. Building Simulation, 14: 1251-61. 

​

2020

15. Xue, J., You, R., Liu, W., Chen, C., and Lai, D. 2020. Applications of Local Climate Zone (LCZ) classification scheme to improve urban sustainability. Sustainability, 12: 8083. 

14. Wang, Z., Yang, M., Fu, L., Chen, C., You, R.*, and Ren, W.* 2020. Rapid field measurement of ventilation rate using a quartz-enhanced photoacoustic SF6 gas sensor. Measurement Science and Technology, 31: 085105. 

​

2019

13. You, R., Lin, C.-H., Wei, D., Chen, Q. 2019. Evaluating the commercial airliner cabin environment with different air distribution systems. Indoor Air, 29: 840-853. 
12. Liu, W., You, R., Chen, C. 2019. Modeling transient particle transport by fast fluid dynamics with the Markov chain method. Building Simulation, 12: 881-889.

​

​

Before joining PolyU

 

2018

11. You, R., Zhang, Y., Zhao, X., Lin, C.-H., Wei, D., Liu, J., Chen, Q. 2018. An innovative personalized displacement ventilation system for airliner cabins. Building and Environment, 137: 41-50.

 

2017

10. You, R., Chen, J., Lin, C.-H., Wei, D., Chen, Q. 2017. Investigating the impact of gaspers on cabin air quality in commercial airliners with a hybrid turbulence model. Building and Environment, 111: 110-122.

9. Liu, W., You, R., Zhang, J., Chen, Q. 2017. Development of a fast fluid dynamics-based adjoint method for the inverse design of indoor environments. Journal of Building Performance Simulation, 10: 326-343.
 

2016

8. You, R., Liu, W., Chen, J., Lin, C.-H., Wei, D., Chen, Q. 2016. Predicting airflow distribution and contaminant transport in aircraft cabins with a simplified gasper model. Journal of Building Performance Simulation, 9: 699-708.
7. You, R., Chen, J., Shi, Z., Liu, W., Lin, C.-H., Wei, D., Chen, Q. 2016. Experimental and numerical study of airflow distribution in an aircraft cabin mockup with a gasper on. Journal of Building Performance Simulation, 9: 555-566.

6. Shi, Z., Chen, J., You, R., Chen, C., Chen, Q. 2016. Modeling of gasper-induced jet flow and its impact on cabin air quality. Energy and Buildings, 127: 700-713.

5. Liu, W., Jin, M., Chen, C., You, R., Chen, Q. 2016. Implementation of a fast fluid dynamics model in OpenFOAM for simulating indoor airflow. Numerical Heat Transfer, Part A: Applications, 69: 748-762.
 

2013

4. You, R., Zhao, B. 2013. A simplified method for assessing particle deposition rate in aircraft cabins. Atmospheric Environment, 67: 80-84.

3. You, R., Cui, W., Chen, C., Zhao, B. 2013. Measuring short-term emission rate of particles in the “personal cloud” with different clothes and activity intensities in a sealed chamber. Aerosol and Air Quality Research, 13: 911-921.

​

2012

2. You, R., Zhao, B., Chen, C. 2012. Developing an empirical equation for modeling particle deposition velocity onto inclined surfaces in indoor environments. Aerosol Science and Technology, 46: 1090-1099. 

1. Li, Q., You, R., Chen, C., Yang, X. 2012. A field investigation and comparative study of indoor environmental quality in heritage Chinese rural buildings with thick rammed earth wall. Energy and Buildings, 62: 286-293.
 

​