• Title/Summary/Keyword: The Ten-storied Stone Pagoda on the Site of Wongaksa

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Production and Application of Pagoda Dharani Contents Using the Ten-storied Stone Pagoda of Wongaksa Temple Site (원각사지 10층 석탑을 이용한 탑 다라니 콘텐츠 제작 및 활용)

  • Lee, Ki-Ok;Park, Sung-Eun;Lee, Yong-Kyu
    • The Journal of the Korea Contents Association
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    • v.7 no.11
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    • pp.298-308
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    • 2007
  • While the cultural contents industry plays main role in global contents market recently, the market of Buddhist cultural property contents is still in insufficient state. Specially, despite most cultural properties is Buddhist cultural property in Korea, there is a lot of difficult problems in preserving, restoring and designing its prototype as cultural property. So, this research intends to contribute to the development of Buddhist design and Buddhist culture contents by developing the Pagoda Dharani contents using the Ten-storied Stone Pagoda on the Site of Wongaksa. The first thing is designing the Pagoda Dharani using the Ten-storied Stone Pagoda on the Site of Wongaksa. Also, using the Pagoda Dharani, we design and implement the Pagoda Dharani contents on the web. In this paper, by using the proposed the Pagoda Dharani contents, the previous activation problem of the Buddhist culture contents can be resolved.

Investigation on the environment of facilities for conservation of the Ten storied stone pagoda of Wongaksa Temple site (원각사지10층석탑 보호각 내부 보존환경 조사연구)

  • Hong, Jung-Ki;Eom, Doo-Sung;Kim, Soon-Kwan
    • 보존과학연구
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    • s.23
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    • pp.95-112
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    • 2002
  • Seoul City built a facility for conservation of the Wongaksajisipcheungseoktap (Ten storied stone pagoda of Wongaksa Temple site, National treasure No. 2). It has speciality glass(thickness 21.5㎜) between steel-frames(8.4m, length 8.4m, height 15.4m). So we investigated the inside of facility to know whether the environment alvariation exists. We measured continuously the temperature and relative humidity, twice for the particulate, once for the $SO_2$(sulfur dioxide), $NO_2$(nitrogen dioxide)and $O_3$(ozone) from September $1_st$, 2000 to August $31_st$, 2001.The temperature and relative humidity, have a tendency to vary, and they have no difference between the inside and the outside. As dewy phenomenon doesn appear on the surface of the Pagoda and facility we know that the inside air is moving. As a result of the particulate is $64\mug$/$m_3$ of average concentration, the particulate fluxed inside don’t flow out because air-velocity of the outside is faster than that of the inside. The air pollutants are 0.036ppm/hr of SO$_2$average concentration, 0.028ppm/hr of $NO_2$ average concentration and 0.008ppm/hr of $O_3$ average concentration which are lower than the Environmental Air Quality Standards($SO_2$ : 0.15ppm/hr, $NO_2$ : 0.25ppm/hr,O3 : 0.1ppm/hr).

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