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A Study on the Evaluation of Indoor Environment and Passengers Comfort in the Subway Stations in Summer
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 Title & Authors
A Study on the Evaluation of Indoor Environment and Passengers Comfort in the Subway Stations in Summer
Han, Ji-Eun; Kwon, Soon-Bark; Chun, Chung-Yoon;
 
 Abstract
The purpose of this study is to evaluate passenger's comfort in subway stations in the summer. Six subway stations in Seoul were selected and a survey was carried out targeting subway passengers. The survey was carried out from to in August, 2014. The questionnaire of comfort consisted of five environmental factors; thermal, air, light, acoustic and overall comfort and each items consisted of a five-point scale on each comfort. Tablet PCs were used to make passengers check the questionnaires quickly. At the same time, temperature, humidity, air velocity, carbon dioxide(), illumination, noise, and the concentration of particular matter(PM) in subway stations were measured. The respondents were 1739 people of various ages. As a result of the survey on the evaluation of each comfort, most respondents answered they felt 'neutral' or 'comfortable' for thermal, air and light environment. The respondents who answered 'discomfortable' were more than other responses relatively for acoustic environment. And there were gender differences significantly for the evaluation of air and acoustic environment. The evaluation from male was better than on female. As a result of the relative weights of the four factors contributing to the overall comfort, all factors contributed significantly and air environment was the highest contribution to the overall comfort and there were also gender differences of relative weights of the factors.
 Keywords
Passenger Comfort;Subway Stations;Indoor Environment;
 Language
Korean
 Cited by
 References
1.
Abbaspour, M., Jafari, M. J., Mansouri, N., Moattar, F., Nouri, N., & Allahyari, M. (2008), Thermal comfort evaluation in Tehran metro using Relative Warmth Index. International Journal of Environmental Science & Technology, 5(3), 297-304. crossref(new window)

2.
Carteni, A., Cascetta, F., & Campana, S. (2015), Underground and ground-level particulate matter concentrations in an Italian metro system. Atmospheric Environment, 101, 328-337. crossref(new window)

3.
Chun, C., & Tamura, A. (2005), Thermal comfort in urban transitional spaces. Building and Environment, 40, 633-639. crossref(new window)

4.
Ordody, P. (2000). Thermal comfort in the passenger areas of the Budapest metro. Periodica Polytechnica Mechanical Engineering, 44(2), 309-317.

5.
Kim, H. R., Kim, D. G., Kum, J. S., Chung, Y. H., Kim, J. R., & Kim, M. S. (2009), The study for thermal environment improvement at subway station platform(Part 2: Thermal environment according to supply outdoor temperature), Proceeding of the SARECK 2009 Summer Annual Conference, 561-564.

6.
Kim, K. Y., Kim, Y. S., Roh, Y. M., Lee, C. M. & Kim, C. N. (2008), Spatial distribution of particulate matter (PM 10 and PM 2.5) in Seoul Metropolitan Subway stations. Journal of hazardous materials, 154(1), 440-443. crossref(new window)

7.
Kwon, S. B., Jeong, W., Park, D., Kim, K. T., & Cho, K.H. (2015), A Multivariate Study for characterizing Particulate Matter (PM10, PM2.5, and PM1) in Seoul Metropolitan Subway Stations, Korea. Journal of hazardous materials, submitted.

8.
Lee, A. R., Park, J. Y., Lee, S. J., Cho, H.-J., Jang, C.-Y., & Park, J.-S. (2013), Field study on effects at screen doors in platforms, Proceedings of the Architectural Institute of Korea, 33(2), 327-328.

9.
Lee, S. W., Jeong, D. U., Lee, S. Y., Cha, S. G., & Sym, M. S. (2003), A study on the evaluation of acoustic characteristic in underground subway stations in Seoul, Journal of the Architectural Institute of Korea, Planning and Design Section, 19(4), 155-162.

10.
Ministry of Environment (2014), Management of Indoor Air Quality Act

11.
Park, D. U., Yun, K. S., Park, S. T., & Ha, K. C. (2005). Characterization of PM10 and PM2.5 Levels inside Train and in Platform of Subway. Korean Society of Environmental Health, 31(1), 39-46.

12.
Sohn, J. R., Jung, Y. R., Park, H. H., Oh, Y. H., Choi, W., & Kim, S. G. (2009). The Removal Effect of Fine Particles Applied Platform Screen Door in Seoul Subway Station. Journal of Environmental and Sanitary Engineering, 24(4), 60-68.

13.
Yeo, R. G., Kim, T. W., & Hong, W. H. (2008). Analysis on how indoor air pollutants influence the human body in underground commercial space. Journal of the Architectural Institute of Korea, Planning and Design Section, 24(11), 321-328.