Fig. 1. Framework for Spatial based Building Energy DB
Fig. 2. Administrative Districts of Survey area
Fig. 3. Normal energy demand forecast of survey area
Fig. 4. Emergency power demand of 10 min. of blackout
Fig. 5. Emergency power demand of 15 min. of blackout
Fig. 6. Emergency power demand of 30 min. of blackout
Fig. 7. Emergency power requirements over time
Fig. 8. Estimated emergency power requirement of 21 minutes after blackout
Table 2. Domestic definition of emergency power equipment
Table 1. Oversea definition of emergency power equipment
Table 3. Criteria for standby power supply
Table 4. Criteria for shapes and property data
Table 5. Building usage classification
Table 6. Basic structure of each building use
Table 7. Use ratio of Survey area
참고문헌
- Disaster and Safety Management Basic Law, Article 3 (2018.9.18.)
- Jung. D.Y., Son. Y.G., and An. S.H. (2008). "A Study for Database Construction of Building Register based on GIS and Development of Information System." Journal of the Korea Real Estate Academy, 34, pp. 318-332.
- Kim. M.J. (2014). "A Study on the Capacity of Emergency Power System for Principal Buildings." Journal of the Architectural Institute of Korea, 30(6), pp. 271-273.
- Heu. T.H., and Yoon. Y.M. (2013). "Energy Crisis and National Security in the Era of Oil Depletion : A Simulation Analysis." The Korean Association of Northeast Asian Studies, 51, pp. 175-199.
- Jo. G.R., and Joo. I.Y. (2005). "Study on the Large-Scale Power Blackout Management System in the Level of National Crisis Management." Korea Security Science Association, 10(10) pp. 387-407.
- Lee. J.S. (2013). "A study on legal system for building safety city of response of climate change and disaster." Korea legislation research institute.
- Son. B.H. (2005). "Study on the Typical Energy Consumption Value of the Hotel in Daegu." Journal of the Architectural Institute of Korea, 25(1), pp. 227-230.
- Statistical Yearbook of Natural Disaster (2017). Ministry of the Interior and Safety.