References
- Aliahmadi, A., Abdolzadeh, M., & Lari, K. (2017). Air flow simulation of HVAC system in compartment of a passenger coach. Applied Thermal Engineering, 123, 973–124. https://doi.org/https://doi.org/10.1016/j.applthermaleng.2017.05.086
- Chang, J. K., Kim, J. B. (1993). Investigation of bus duct system for optimum cooling performance. SAE paper, 970529.
- Chang, T.-B., Sheu, J.-J., Huang, J.-W., Lin, Y.-S., & Chang, C.-C. (2018). Development of a CFD model for simulating vehicle cabin indoor air quality. Transportation Research Part D, 62, 433-440.
- Chen, Q., & Xu, W. (1998). A zero-equation turbulence model for indoor airflow simulation. Energy and Buildings, 28(2), 137–144. https://doi.org/https://doi.org/10.1016/S0378-7788(98)00020-6
- Chow, W. K. (2002). Ventilation of enclosed train compartments in Hong Kong. Applied Energy, 71(3), 161–170. https://doi.org/https://doi.org/10.1016/S0306-2619(02)00008-9
- Chronéer, Z., Axelsson, N. (1999). Accuracy in flow simulations of climate control- Part 2: The Passenger Compartment.The Passenger Compartment, 1.
- de Lieto Vollaro, A., Gori, P., & Vallati, A. (2003). Turbulent air flow characteristics in a ventilated hospital railway coach. International Journal of Ventilation, 2(1), 23–31. https://doi.org/https://doi.org/10.1080/14733315.2003.11683650
- Du, J., Chan, M., Pan, D., & Deng, S. (2017). A numerical study on the effects of design/operating parameters of the radiant panel in a radiation-based task air conditioning system on indoor thermal comfort and energy saving for a sleeping environment. Energy and Buildings, 151, 250–262. https://doi.org/https://doi.org/10.1016/j.enbuild.2017.06.052
- FLUENT. (2007). Airpak 3.0 tutorial guide.
- Gao, Y. (2017). Simulation and optimization of different heating schemes for train compartments. Harbin Engineering University.
- GB. (2013). Civil building indoor heat and humidity environment evaluation standard, GB/T50785-2012: 2013. China Standard Press.
- Guan, H. Y., Lu, M. L., & Hu, S. T. (2019). Fuzzy comprehensive evaluation of summer thermal environment of subway cars. Journal of Qingdao Technological University, 05, 1–9.
- Hara, J., Honda, I., & Kanazawa, K. (1991). Study on the refrigeration cycle of automotive air-conditioner. Transactions of the Japan Society of Refrigerating & Air Conditioning Engineers, 8, 185–194.
- JGJ. (2013). Radiation heating and cooling technical regulations, JGJ142-2012: 2013. China Standard Press.
- Liu, G., & Wang, D. P. (2007). Influences of the air humidity content on the temperature distribution in the train compartment. Sci-Tech Information Development & Economy, 31, 138–140.
- Pan, X. H. (2016). Fuzzy comprehensive evaluation method for indoor ambient air quality of buildings. Shanxi Architecture, 42(31), 198–199.
- Qi, C., Helian, Y., Liu, J., & Zhang, L. (2017). Experiment study on the thermal comfort inside a car passenger compartment. Procedia Engineering, 205, 3607–3614. https://doi.org/https://doi.org/10.1016/j.proeng.2017.10.211
- Sheng, S. S. (2011). Airflow organization and air quality in the high-speed train compartment [Master’s thesis]. Central South University.
- Song, J. W. (2014). Optimization of air conditioning system and airflow organization in a train compartment [Master’s thesis]. Qingdao University of Technology.
- Talaee, M. R., Kabiri, A., Ebrahimi, M., & Hakimzadeh, B. (2019). Analysis of induced interior air flow in subway train cabin due to accelerating and decelerating. International Journal of Ventilation, 18(3), 204–219. https://doi.org/https://doi.org/10.1080/14733315.2018.1462979
- TB. (1988). Air conditioning design parameters for passenger cars, TB1951-87: 1988. China Standard Press.
- TB. (1992). Thermal calculation methods for air-conditioned passenger trains, TB/T1957-91: 1992. China Standard Press.
- Wang, H., Lin, M., & Chen, Y. (2014). Performance evaluation of air distribution systems in three different China railway high-speed train cabins using numerical simulation. Building Simulation, 7(6), 629–638. https://doi.org/https://doi.org/10.1007/s12273-014-0168-5
- Wang, L. L. (2008). Simulation study of radiant panel heating and cooling. Beijing.
- Xuan, S. W., Cao, C. Y., & Zhou, P. (2018). Evaluation and analysis of air flow performance in sub-way carriage based on CFD. Urban Mass Transit, 21(03), 98–101.
- Yang, L., Li, M., Li, X., & Tu, J. (2018). The effects of diffuser type on thermal flow and contaminant transport in high-speed train (HST) cabins - A numerical study. International Journal of Ventilation, 17(1), 48–62. https://doi.org/https://doi.org/10.1080/14733315.2017.1351736
- Yang, P. Z. (2007). Research of thermal comfort about YW25G train compartment. Journal of Thermal Science and Technology,6 (2), 167–171.
- Yang, S. (2014). Simulation of thermal environment in floor cooling-displacement ventilation and air-conditioning room. Shandong Jianzhu University.
- Zhang, D. L. (2007). Research on dry floor radiant heating system. Nanjing Normal University.
- Zhang, Y. N. (2018). Numerical simulation and evaluation of air distribution in train sleeper compartment. Harbin Engineering University.
- Zhang, Y., Li, J., Sun, H., Liu, J., & Chen, Q. (2015). Evaluation of different air distribution systems for sleeping spaces in transport vehicles. Building and Environment, 94, 665–675. https://doi.org/https://doi.org/10.1016/j.buildenv.2015.11.004