산업경영시스템학회지 (Journal of Korean Society of Industrial and Systems Engineering)

  • 제46권1호
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  • Pages.84-90
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  • 2023
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  • 2005-0461(pISSN)
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  • 2287-7975(eISSN)
한국산업경영시스템학회 (Society of Korea Industrial and System Engineering)
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우리나라 공공건물의 내용연수 추정: RCC를 중심으로

An Estimation on Average Service Life of Public Buildings in South Korea: In Case of RCC

  • 권정훈 (금오공과대학교 산업공학부) ;
  • 조진형 (금오공과대학교 산업공학부) ;
  • 오현승 (한남대학교 산업경영학과) ;
  • 이세재 (금오공과대학교 산업공학부)
  • Jung-Hoon Kwon (School of Industrial Engineering, Kumoh National Institute of Technology) ;
  • Jin-Hyung Cho (School of Industrial Engineering, Kumoh National Institute of Technology) ;
  • Hyun-Seung Oh (Department of IME, Hannam University) ;
  • Sae-Jae Lee (School of Industrial Engineering, Kumoh National Institute of Technology)
  • 투고 : 2023.03.06
  • 심사 : 2023.03.22
  • 발행 : 2023.03.31
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초록

ASL estimation of public building is based on how appropriate the maximum age of the asset is derived based on the age record of the asset in the statistical data owned by public institutions. This is because we get a 'constrained' ASL by that number. And it is especially true because other studies have assumed that the building is an Iowa curve R3. Also, in this study, the survival rate is 1% as the threshold value at which the survival curve and the predictable life curve almost coincide. Rather than a theoretical basis, in the national statistical survey, the value of residual assets was recognized from the net value of 10% of the acquisition value when the average service life has elapsed, and 1% when doubling the average service life has elapsed. It is based on the setting mentioned above. The biggest constraint in fitting statistical data to the Iowa curve is that the maximum ASL is selected at R3 150%, and the 'constrained' ASL is calculated by the proportional expression on the assumption that the Iowa curve is followed. In like manner constraints were considered. First, the R3 disposal curve for the RCC(reinforced cement concrete) building was prepared according to the discarding method in the 2000 work, and it was jointly worked on with the National Statistical Office to secure the maximum amount of vintage data, but the lacking of sample size must be acknowledged. Even after that, the National Statistical Office and the Bank of Korea have been working on estimating the Iowa curve for each asset class in the I-O table. Another limitation is that the asset classification uses the broad classification of buildings as a subcategory. Second, if there were such assets with a lifespan of 115 years that were acquired in 1905 and disposed of in 2020, these discarded data would be omitted from this ASL calculation. Third, it is difficult to estimate the correct Iowa curve based on the stub-curve even if there is disposal data because Korea has a relatively shorter construction history, accumulated economic wealth since the 1980's. In other words, "constrained" ASL is an under-estimation of its ASL. Considering the fact that Korea was an economically developing country in the past and during rapid economic development, environmental factors such as asset accumulation and economic ability should be considered. Korea has a short period of accumulation of economic wealth, and the history of 'proper' architectures faithful to building regulations and principles is short and as a result, buildings 'not built properly' and 'proper' architectures are mixed. In this study, ASL of RCC public building was estimated at 70 years.

키워드

과제정보

This study has been partially supported by a Research Fund (#202001270001) of Kumoh National Institute of Technology, Korea

참고문헌

  1. Bank of Korea, Measuring Capital OECD Manual (2009yr) 2nd ed. translation, BOK, 2010.
  2. BLS, Overview of Capital Inputs for the BLS Multifactor Productivity Measures, U.S. Bureau of Labor Statistics, June 2, 2017.
  3. Cho, J. and Oh, H., Estimation for ASL of Tangible Fixed Asset, Korea Appraisal Board Real Estate Institute, 2012.
  4. Giandrea, M.D., Kornfeld, R.J., Meyer, P.B, and Powers, S.G., Alternative Capital Asset Depreciation Rates for U.S. Capital and Multifactor Productivity Measures, BLS working paper 539, U.S. Bureau of Labor Statistics, 2021.
  5. Hulten, C. (ed.), Depreciation, Inflation and Taxation of Income from Capital, The Urban Institute Press, 1980.
  6. Kim, J. K., Reinforced Concrete Structure Design, CIR, Korea, 2018, Vol. 1, p. 345.
  7. Korea Institute of Public Finance, Analysis of Service Lives for Depreciation of Asset in Major Countries, Korea Institute of Public Finance, 2012.
  8. Korea National Statistical Office, National Wealth Survey, 1968, 1977, 1987, 1997, 2008.
  9. Korea National Statistical Office, Report on Mining and Manufacturing Survey, Various Years.
  10. Lee, S. and Cho, J., Estimation of ASL in Korea Public Buildings, unpublished, KSIE, 2021.
  11. Marston, A. Winfrey, R., and Hempstead, J. C., Engineering Valuation and Depreciation, ISU Press 9th Printing, 1982.
  12. National B/S Team, Application Method of Service Live by Asset in Capital Stock Estimation, Bank of Korea, 2011.11.
  13. National B/S Team, Capital Stock Estimation, Bank of Korea, 2013.10.
  14. Oh, H., Cho, J., and Chung, K., Estimation of ASL (average service life) for Tangible Fixed Asset by Asset, SNU Institute of Economic Research, 2000.
  15. PCA(Portland Cement Association), https://www.cement.org/