- 教师名称:刘炜
- 教师拼音名称:Liu Wei
- 出生日期:1987-10-18
- 性别:男
- 职务:Professor
- 学科:建筑环境与能源应用工程
- 职称:教授
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16. Liu, W. and Chen, Q. Optimal air distribution design in enclosed spaces using an adjoint method. Inverse Problems in Science & Engineering, 2015, 23(5), 760-779.
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17. Liu, W., Zhang, T., Xue, Y., Zhai, Z.J., Wang, J., Wei, Y., and Chen, Q. State-of-the-art methods for inverse design of an enclosed environment. Building and Environment, 2015, 91, 91-100.
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18. Liu, W., Duan, R., Chen, C., Lin, C.-H., and Chen, Q. Inverse design of the thermal environment in an airliner cabin by use of the CFD-based adjoint method. Energy and Buildings, 2015, 104, 147-155.
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19. Cao, Q., Liu, Y., Liu, W., Lin, C.-H., Wei, D., Baughcum, S., Norris, S., Shen, X., Long, Z., and Chen, Q. Experimental study of particle deposition in the environmental control systems of commercial airliners. Building and Environment, 2016, 96, 62-71.
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20. Zhang, J., Long, Z., Liu, W., and Chen, Q. Strategy for studying ventilation performance in factories. Aerosol and Air Quality Research, 2016, 16: 442-452.
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21. You, R., Chen, J., Shi, Z., Liu, W., Lin, C.-H., Wei, D., and Chen, Q. Experimental and numerical study of airflow distribution in an aircraft cabin mockup with a gasper on. Building Performance Simulation, 2016, 9(5): 555-566.
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22. You, R., Liu, W., Chen, J., Lin, C.-H., Wei, D., and Chen, Q. Predicting airflow distribution and contaminant transport in aircraft cabins with a simplified gasper model. Building Performance Simulation, 2016, 9(6): 699-708.
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23. Xue, Y., Liu, W. and Zhai, Z.J. New semi-Lagrangian-based PISO method for fast and accurate indoor environment modeling. Building and Environment, 2016, 105: 236-244.
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24. Liu, W., Jin, M., Chen, C. and Chen, Q. Optimization of air supply location, size, and parameters in enclosed environments through using a CFD-based adjoint method. Journal of Building Performance Simulation, 2016, 9(2): 149-161.
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25. Liu, W., Jin, M., Chen, C., You, R., and Chen, Q. Implementation of a fast fluid dynamics model in OpenFOAM for simulating indoor airflow. Numerical Heat Transfer, Part A: Application, 2016, 69(7): 748-762.
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26. Liu, Y., Cao, Q., Liu, W., Lin, C.-H., Wei, D., Baughcum, S., Norris, S., Long, Z., Shen, X., and Chen, Q. Numerical modeling of particle deposition in the environmental control systems of commercial airliners on ground. Building Simulation, 2017, 10(2): 265-275.
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27. Cao, Q., Xu, Q., Liu, W., Lin, C-H., Wei, D., Baughcumb, S., Norrisb, S., and Chen, Q. In-flight monitoring of particle deposition in the environmental control systems of commercial airliners in China. Atmospheric Environment, 2017, 154: 118-128.
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28. Zhao, X., Liu, W., Liu, S., Zou, Y., and Chen, Q. Inverse design of an indoor environment by using a CFD-based adjoint method with adaptive step size for adjusting design parameters. Numerical Heat Transfer, Part A: Applications, 2017, 71(7): 707-720.
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29. Liu, W., You, R., Zhang, Jie., and Chen, Q. Development of a fast fluid dynamics-based adjoint method for the inverse design of indoor environments. Journal of Building Performance Simulation, 2017, 10(3): 326-343.
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30. Liu, W. and Chen, Q. Development of coarse grid generation methods for fast fluid dynamics in simulating indoor airflow. Journal of Building Performance Simulation, 2018, 11(4): 470-484.
