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Anion Distribution and Correlation Analysis by Fountain Type in Urban

도심지내 분수유형별 음이온 분포 및 상관성 분석

  • Kim, Jeong-Ho (Department of Green Technology Convergence, Konkuk University) ;
  • Park, Seung-Hwan (Department of Forest Science, Konkuk University) ;
  • Kim, Won-Tae (Department of Landscape Architecture, Cheonan Yonam College) ;
  • Yoon, Yong-Han (Department of Green Technology Convergence, Konkuk University)
  • 김정호 (건국대학교 녹색기술융합학과) ;
  • 박승환 (건국대학교 산림과학과 대학원) ;
  • 김원태 (천안연암대학 환경조경과) ;
  • 윤용한 (건국대학교 녹색기술융합학과)
  • Received : 2013.03.19
  • Accepted : 2013.05.31
  • Published : 2013.12.31

Abstract

In order to verify the healing effect in the variety of effects according to fountain type, anion which is the representatives factor of healing, as the center of case studies which in Gwanghwamun(Ground fountain), Cheonggyecheon(Waterfall) and Myeongdong(Formative fountain). According to fountain type, the anion distribution as follow, figures typically$ 15,721{\pm}419ea/cm^3$, Formative fountain $40,190{\pm}788ea/cm^3$, Waterfall $4.480{\pm}290ea/cm^3$ and ground fountain $2.492{\pm}180ea/cm^3$. It is usually exceed to the distribution in natural green, which is $1070{\sim}2100ea/cm^3$. The interrelation between air temperature, relative humidity, wind speed and relative humidity, and wind speed is that, the relative humidity is directly proportional to wind speed and inversely proportional to temperature. As the temperature goes up, the distribution of anion goes down. And as the wind speed and relative humidity goes up, the distribution of anion decrease sharply. The result of interrelation between fountain type and the anion distribution is that, the distance of water falling is directly proportional to the anion distribution in the formative fountain and inversely proportional in the ground fountain. And the distribution of anion is largest in formative fountain. The distribution of anion in ground fountain is lower than in formative fountain, but it is far more than in natural greenery. And as the distance from fountain increase, the distribution of anion goes down.

Keywords

References

  1. Agisi, Y., 1996, Forest aromatic bath and medical science of health resort, Green Age, 265, 31-37.
  2. Ahn, D. S., 2002, Analyses on the cognitive effects of masking traffic noise by sounds of water, Journal of Korean Institute of Forest Recreation, 6(4), 9-19.
  3. Ahn, B. W., Kwon, S. J., Kim, Y. S., Kim, Y. I., Lee, K. M., Im, S. B., Whang, K. W., 1994, Landscape Planning, Munundang, Seoul, 127-136.
  4. Byeon, S. H., 1999, Study on the design trends of the urban landscape facilities, MS Thesis, Yeungnam University, Gyeongsang buk-do, Korea.
  5. Cho, Y. G., 2012, Risk assessment of Escherichia coli infection from use of interactive waterscape facilities, Journal of Korean Society of Environmental Health, 38(1), 73-81. https://doi.org/10.5668/JEHS.2012.38.1.073
  6. Cho, Y. B., 2009, Study of healing of the forest proper needs assessment model development and in the identification, PhD. Thesis, Wonkwang University, Jeollabuk-do, Korea.
  7. Choi, K. S., 1993, Study in the design of outdoor space hydroponic, MS Thesis, Hongik University, Seoul, Korea.
  8. Huh, H. C., 2005, Post Occupancy Evaluation of floor fountain - Jin-ju namgaram Park -, MS Thesis, Gyeongnam Ntional University of Science and Tchnology, Gyeongsang nam-do, Korea.
  9. Jeon, K. S., Cho, Y. B., 2009, Study in the anion content in the forest, Proceedings of the Korean Forest Recreation Conferences, 15-17.
  10. Jeong, N. R., Ahn, D. S., 2007, An analysis on the visual preference of waterscape facilities for healing garden in psychiatric hospitals, Journal of Korean Institute of Landscape Architecture, 35(3), 50-61.
  11. Jeong, Y. S., Park, I. H., 1999, The effect of plants and waterscape facilities on the thermal indoor environment, Journal of Korean Institute of Landscape Architecture, 27(1), 19-28.
  12. Ju, J. U., 2011, Type of analysis, and the musical fountain, defects of facilities maintenance improvement Study, MS Thesis, Hanyang University, Seoul, Korea.
  13. Jussi, S. J., Marja, M., 2005, Seasonality: Nature, peopleis preferences and urban planning in Oulunsalo, Finland, Landscape Research, 30(2), 273-281. https://doi.org/10.1080/01426390500044499
  14. Kang, H. M., Sim, W. K., 2010, Urban and historic landscapes : Co-housing complex problems and improve the direction of hydroponic facilities, Proceedings of the Korean Landscape Architecture Conferences, 170-173.
  15. Kwon, S. H., 2002, Apartment outside of hydroponic facilities, the construction and maintenance of the improvement study, MS Thesis, Hanyang University, Seoul, Korea.
  16. Kim, K. J., You, E. H., Seo, H. W., Cho, S. Y., Lee, J. A., Jeong, H. H., 2012, Air anions emission in CAM(Crassulacean acid metabolism) and C3 plants affected by light intensity, Journal of Korean Society for People, Plants and Environment, 15(4), 281-285.
  17. Kim, D. C., Kim, S. W., Choi, J. H., 2010, A Study on the Hydroponics Facility in the Apartment Complex which is Applied Environment-Friendly Design Elements- Focusing on the "Good Living Apartment Award" Wining Apartment Complex- , Journal of Korean Society of Design Culture, 16(4), 79-88.
  18. Kim, W. K., 2004, A Study of Influences Caused by Far Infrared and Anion on Human Body, MS Thesis, Wonkwang University, Jeollabuk -do, Korea.
  19. Kim, Y. I., Kim, M. J., Kim, J. S., Hong, H. S., Jang, T. H., 2001, Design of Sajik fountain, Journal of Korean Institute of Landscape Architecture, 29(4), 75-81.
  20. Kim, Y. C., Lee, C. M., Lee, Y. H., Jeong, H. U., 2000, Anion effects of mental workload, Proceedings of the Korean Ergonomics Conferences, 1(1), 217-220.
  21. Kim, I. R., 2003, Study on the direction of the high elevation fountain landscape design improvements, MS Thesis, Yeungnam University, Gyeongsang buk-do, Korea.
  22. Kim, J. H., Oh, D. K., Yoon, Y. H., 2012, Evaluation of Restoration Performance of Ecological Restoration River on Urban based on the Cheonggyecheon in Seoul, Journal of the Seoul Institute, 13(3), 187-196.
  23. Kim, H. J., Kim, S. C., Park, B. J., 2011, Analyzing the user's behavior and the satisfaction of waterscape facilities in university campus, Proceedings of the Korean Forest Recreation Conferences, 80-81.
  24. Krueger, A. P., Reed, E. J., 2006, Biological impact of small air ions, Science, 193(4259), 1209-1213.
  25. Lee, Y. N., 2004, A study on the schemes to vitalize the waterscape facilities in apartment complex, Proceedings of the Korean Architectural Conferences, 71-74.
  26. Lee, Y. N., 2005, A study on the schemes to reduce the maintenance of waterscape facilities in apartment complex, Proceedings of the Korean Architectural Conferences, 55-58.
  27. Lee, Y. H., 2011, Study of musical expression Optimization algorithm techniques for intelligent musical fountain system, MS Thesis, Chungang University, Seoul, Korea.
  28. Lee, J. H., 2003, The effect of improving indoor air quality used anion by indoor plants, Journal of Korean Association of Indoor Landscape, 5(1), 89-98.
  29. Lee, J. H., Yoon, P. S., 2003, A study on efficiency and mechanism of removing indoor pollutants used anion generated by indoor plants, Journal of Korean Society for People, Plants and Environment, 6(4), 81-92.
  30. Lee, J. H., 2004, A study of generation by indoor plants, Journal of Korean Association of Indoor Landscape, 6(2), 53-66.
  31. Lee, C. H., 2009, The apartment complexes hydroponic facility utilization and resident satisfaction research: Gwang-ju metropolitan cities, MS Thesis, Honam University, Gwangju, Korea.
  32. Lee, H. J., 2008, Fountain of formative analysis and improvement on the direction of research: A case study of An-yang city, MS Thesis, Kyunghee University, Seoul, Korea.
  33. National Health Insurance Corporation, 2010, Major environmental illness health care patients, statistical analysis, analysis of health insurance data, Korea Development Institute, Korea.
  34. Park, S. H., Lee, Y. B., Bea, K. Y., Mitsuo, K., 1998, Anion evolution in plants and its involved factors, Journal of Korean Society of Horticultural Science, 39(1), 115-118.
  35. Reilly, T., Stevenson, I. C., 1993, An investigation of the effects of negative air ions on responses to submaximal exercise at different times of day, J. Hum. Ergol. (Tokyo), 22(1), 1-9.
  36. Ryu, J. J., 2010, The study of co-housing complex hydroponic facilities character- ization, MS Thesis, Hanyang University, Seoul, Korea.
  37. Sin, C., 2006, Co-housing complex of the hydroponic facility Revitalizing Research, MS Thesis, Seoul National University, Seoul, Korea.
  38. Um, T. W., Kim, K. T., 2010, Correlations between concentrations of negative ions and forest type, and site factors at national forests in Yangyang-gun, Journal of Korean Society of Ecology, 24(5), 539-546.
  39. Yoon, Y. H., Oh, D. K., Kim, J. H., 2012, Analysis of anions distribution and correlation by biotope type at summer for comfort urban planning, Journal of Korean Institute of Urban Design, 13(1), 51-62.
  40. Whang, G. J., Lee, M. S., Na, D. Y., 1998, Effect of anion generating air cleaner on the components of ETS in a closed room, Journal of Korean Society of Tobacco Science, 20(1), 124-130.