References
- Fanger, P. O., 1970, Thermal comfort-analysis and application in environment engineering, MaGraw-Hill, Newyork.
- Hong, S. H., Kim, M. E., Kim, M. H., 2006, "Thermal environment analysis in passenger's cabin and evaluation of thermal comfort", SAREK, Journal of equipment, Vol.35(10), pp.34-45.
- Hara, J., Fujitani, K., Kuwahara, K., 1989, "Computer simulation of passenger compartment airflow", SAE paper, No.881749.
- Currle, J., 1997, "Numerical simulation of the flow in a passenger compartment and evaluation of the thermal comfort of the occupants", SAE paper, No.970529.
- Aroussi, A., Aghil, S., 2000, "Characterisation of the flow field in a passenger car model", Optical diagnostics in engineering, Vol.4(1), pp.1-15.
- Alexandrov, A., Kudriavtsev, V., Reggio, M., 2001, "Analysis of flow patterns and heat transfer in generic passenger car mini-environment", 9th Annual conference of the CFD society of Canada., pp.167-173.
- Lin, C. H., Han, T., Koromilas, C.A., 1992, "Effect of HVAC design parameters on passenger thermal comfort", SAE paper, No.920264.
- Zhang, H., Dai, L., Xu, G., Li, Y., Chen, W., Tao, W. Q. Tao, 2009, "Studies of air-flow and temper-ature fields inside a passenger compartment for improving thermal comfort and saving energy. part I: test/numerical model and validation", Applied thermal engineering, Vol.29, pp.2022-2027. https://doi.org/10.1016/j.applthermaleng.2008.10.005
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