한국습지학회지 (Journal of Wetlands Research)

한국습지학회 (Korean Wetlands Society)
권호 표지
DOI QR코드

DOI QR Code

기후변화에 따른 국내 주요 다목적댐의 유입량 변화 전망

Future Projection in Inflow of Major Multi-Purpose Dams in South Korea

  • 이문환 (홍콩과학기술대학교 토목환경공학과) ;
  • 임은순 (홍콩과학기술대학교 토목환경공학과) ;
  • 배덕효 (세종대학교 공과대학 건설환경공학과)
  • Lee, Moon Hwan (Dept. of Civil and Environmental Engrg., The Hong Kong University of Science and Technology) ;
  • Im, Eun Soon (Dept. of Civil and Environmental Engrg., The Hong Kong University of Science and Technology) ;
  • Bae, Deg Hyo (Dept. of Civil and Environmental Engrg., Sejong Univ)
  • 투고 : 2019.10.17
  • 심사 : 2019.11.28
  • 발행 : 2019.12.30
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

다목적댐은 생·공용수를 공급하고, 하천유지유량을 방류하는 등 하천관리에 있어 매우 중요한 역할을 한다. 하지만, 최근 발생하고 있는 기상이변은 댐 공급량의 시공간적 변화를 야기하여 댐 용수공급의 취약성이 증대되고 있는 실정이다. 본 연구에서는 기후변화에 따른 국내 6개 다목적댐들의 미래 유입량의 변화를 평가하였다. 평가를 위해, 고해상도 앙상블 기후변화 시나리오를 이용하였으며, 준분포형 강우-유출모형을 통해 댐 유입량을 산정하였다. 평가 결과, 모든 댐과 모든 시나리오에서 홍수량이 크게 증가하는 것으로 나타났다. 하지만, 갈수량의 경우 태백산맥에서 발원되는 소양강댐, 충주댐, 안동댐은 크게 감소하는 것으로 나타났으나, 합천댐은 증가하는 것으로 나타났으며, 대청댐과 섬진강댐은 변화가 거의 없었다. 하지만 합천댐을 제외한 나머지 댐들 모두 갈수량의 범위가 더욱 넓어지고, 갈수량의 최소값은 감소하는 등 기후변화는 댐의 공급능력에 부정적인 영향을 미칠 것으로 분석되었다. 따라서 기후변화를 고려한 극한 물부족 발생 시 대응할 수 있는 물관리 정책수립이 요구된다.

Multi-purpose dams in Korea play a very important role in water management such as supplying water for living, industrial water, and discharging instream flow requirement to maintain the functions of river. However, the vulnerability of dam water supply has been increased due to extreme weather events that are possible linked to climate change. This study attempts to project the future dam inflow of six multi-purpose dams by using dynamically downscaled climate change scenarios with high resolution. It is found that the high flows are remarkably increased under global warming, regardless of basins and climate models. In contrast, the low flows for Soyangang dam, Chungju dam, and Andong dam that dam inflow are originated from Taebaek mountains are significantly decreased. On the other hand, while the low flow of Hapcheon dam is shown to increase, those of Daecheong and Sumjingang dams have little changes. But, the low flows for future period have wide ranges and the minimum value of low flows are decreased for all dams except for Hapcheon dam. Therefore, it is necessary to establish new water management policy that can respond to extreme water shortages considering climate change.

키워드

참고문헌

  1. Bae, DH, Jung, IW, and Chang, H (2008). Potential changes in Korean water resources estimated by high-resolution climate simulation, Climate Research, 35, pp. 213-226. https://doi.org/10.3354/cr00704
  2. Bae, DH, Jung, IW, Lee, BJ, and Lee, MH (2011). Future Korean Water Resources Projection Considering Uncertainty of GCMs and Hydrological Models, Journal of Korean Water Resources Association, 44(5), pp. 389-406. [Korean Literature] https://doi.org/10.3741/JKWRA.2011.44.5.389
  3. Hamon, WR (1961). Estimating potential evapotranspiration, Proceedings of the American Society of Civil Engineers. Journal of the Hydraulic Division, 87(HY3), pp. 107-120. https://doi.org/10.1061/JYCEAJ.0000599
  4. Im, ES, Kwon, WT, Ahn, JB, and Giorgi, F (2007). Multi-decadal scenario simulation over Korea using a one-way doublenested regional climate model system. Part I: Recent climate simulation (1971-2000). Climate Dynamics, 28, pp. 759-780. https://doi.org/10.1007/s00382-006-0203-z
  5. Im, ES, Ahn, JB, and Jo, SR (2015). Regional climate projection over South Korea simulated by the HadGEM2-AO and WRF model chain under RCP emission scenarios. Climate Research, 63, pp. 246-266.
  6. Jung, IW, and Bae, DH (2005). A study on PRMS applicability for Korean River basin, Journal of Korean Water Resources Association, 38(9), pp. 713-725. [Korean Literature] https://doi.org/10.3741/JKWRA.2005.38.9.713
  7. Jung, IW, Bae, DH, and Lee, BJ (2013). Possible change in Korean streamflow seasonality multi-model climate projections, Hydrological Processes, 27, pp. 1033-1045. https://doi.org/10.1002/hyp.9215
  8. Kim, BS, Kim, HS, Seoh, BH, Kim, NW (2004). Impact of Climate Change on Yongdam Dam Basin, Journal of Korean Water Resources Association, 37(2), pp. 185-193. [Korean Literature] https://doi.org/10.3741/JKWRA.2004.37.3.185
  9. Kim, D, Hong, SJ, Han, D, Choi, C, Kim, HS (2016). Analysis of future meteorological drought index considering climate change in Han-River Basin, Journal of Wetlands Research, 18(4), pp. 432-447. [Korean Literature] https://doi.org/10.17663/JWR.2016.18.4.432
  10. Kim, NW, Kim, HJ, Park, SH (2005). Long-term runoff characteristics on HRU variations of PRMS, Journal of Korean Water Resources Association, 38(2), pp. 167-177. [Korean Literature] https://doi.org/10.3741/JKWRA.2005.38.2.167
  11. Kim, UT, Lee, DR, Yoo, C (2004). Effects of climate change on the streamflow for the Daechung dam watershed, Journal of Korean Water Resources Association, 37(4), pp. 305-341. [Korean Literature] https://doi.org/10.3741/JKWRA.2004.37.4.305
  12. Lafon, T, Dadson, S, Buys, G, and Prudhomme, C (2013). Bias correction of daily precipitation simulated by a regional climate model: A comparison of methods, International Journal of Climatology, 33, pp. 1367-1381. https://doi.org/10.1002/joc.3518
  13. Leavesley, GH, Lichty, RW, Troutman, BM, and Saindon, LG (1983). Precipitation-Runoff Modeling System, User's manual, by Water-Resources Investigations, pp. 83-428.
  14. Lee, DW, Jung J, Hon, SJ, Joo, HJ, and Kim, HS (2017). Evaluation of Future Water Deficit for Anseong River Basin Under Climate change, Journal of Wetlands Research, 19(3), pp. 345-352. [Korean Literature] https://doi.org/10.17663/JWR.2017.19.3.345
  15. Lee, MH, Im, ES, and Bae, DH (2019a). A comparative assessment of climate change impact on drought over Korea based on multiple climate projections and multiple drought indices, Climate Dynamics, 53, pp. 389-404. https://doi.org/10.1007/s00382-018-4588-2
  16. Lee, MH, Lu, M, Im, ES, and Bae, DH (2019b). Added value of dynamical downscaling for hydrological projections in the Chungju basin, Korea, International Journal of Climatology, 39(1), pp. 516-531. https://doi.org/10.1002/joc.5825
  17. Oh, SG, and Suh, MS (2018). Changes in seasonal and diurnal precipitation types during summer over South Korea in the late twenty-first century (2081-2100) projected by the RegCM4.0 based on four RCP scenarios, Climate Dynamics, 51, pp. 3041-3060. https://doi.org/10.1007/s00382-017-4063-5
  18. Suh, MS, Oh, SG, Lee, YS, Ahn, JB, Cha, DH, Lee, DK, ... Kang, HS (2016). Projections of high resolution climate changes for South Korea using multiple-regional climate models based on four RCP scenarios. Part 1: Surface air temperature, Asia-Pacific Journal of Atmospheric Sciences, 52, pp. 151-169. https://doi.org/10.1007/s13143-016-0017-9
  19. Taylor, KE, Stouffer, RJ, and Meehl, GA (2012). An overview of CMIP5 and the experiment design, Bulletin of the American Meteorological Society, 93, pp. 485-498. https://doi.org/10.1175/BAMS-D-11-00094.1
  20. Teutschbein, C, & Seibert, J (2012). Bias correction of regional climate model simulations for hydrological climate-change impact studies: Review and evaluation of different methods, Journal of Hydrology, 456, pp. 12-29. https://doi.org/10.1016/j.jhydrol.2012.05.052