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Automatic Calibration for Noncontinuous Observed Data using HSPF-PEST

HSPF-PEST를 이용한 불연속 실측치 자동보정

  • 전지홍 (안동대학교 환경공학과) ;
  • 이새봄 (안동대학교 비점오염원센터)
  • Received : 2012.06.05
  • Accepted : 2012.11.12
  • Published : 2012.11.30

Abstract

Applicability of 8 day interval flow data for the calibration of hydrologic model was evaluated using Hydrological Simulation Program-Fortran (HSPF) at Kyungan watershed. The 8 day interval flow monitored by Ministry of Environment located at upstream was calibrated and periodically validated during 2004-2008. And continuous daily flow monitored by Ministry of Construction & Transportation (MOCT) and located at the mouth was compared with daily simulated data during 2004-2007 as spatial validation. Automatic calibration tool which is Model-Independent Parameter Estimation & Uncertainty Analysis (PEST) was applied for HSPF calibration procedure. The model efficiencies for calibration and periodic validation were 0.63 and 0.88, and model performances were fair and very good, respectively, based on criteria of calibration tolerances. Continuous daily stream flow at the mouth of Kyungan watershed were good agreement with observed continuous daily stream flow with showing 0.63 NS value. The PEST program is very useful tool for HSPF hydrologic calibration using non-continuous daily stream flow as well as continuous daily stream flow. The 8 day interval flow data monitored by MOE could be used to calibrate hydrologic model if the continuous daily stream flow is unavailable.

Keywords

References

  1. Albek, M., U. B. Ogutveren and E. Albek, 2004. Hydrological modeling of Seydi Suyu watershed (Turkey) with HSPF. Journal of Hydrology 285: 260-271. https://doi.org/10.1016/j.jhydrol.2003.09.002
  2. Beasley, D. B. and L. F. Huggins, 1981. ANSWERS Users Manual. EPA 905/9-82-001. USEPA, Chicago, IL.
  3. Bicknell, B. R., J. C. Imhoff, J. L. Kittle, A. S. Donigian and R. C. Johanson, 1996. Hydrologic simulation program-FORTRAN user's manual, v.12, Athens, GA., USEPA.
  4. Choi, J. H., J. H. Ha and S. S. Park, 2008. Estimation of the effect of water quality management policy in Paldang lake. Korean Society of Environmental Engineers 30(12): 1225-1230 (in Korean)
  5. Chun, K. C., R. W. Chang, G. P., Williams, Y. S. Chang, D. Tomasko, K. LaGory, J. Ditmars, H. D. Chun and B. K. Lee, 2001. Water quality issues in the Nokdong river basin in the Republic of Korea. Environmental Engineering and Policy 2:131-143. https://doi.org/10.1007/s100220000024
  6. Doherty, J., 2006. Model independent parameter estimation. fifth edition of user manual. Watermark Numerical Computing, Brisbane Australia.
  7. Donigian, A. S., 2000. HSPF Training Workshop Handbook and CD, Lecture #19, Calibration and Verification Issues, Slide #L19-22, EPA Headquarters, Washington Information Center, Presented and prepared for U.S. EPA, Office of Water, Office of Science and Technology, Washington, D.C., USA.
  8. Fontaine, T. A. and V. M. F. Jacomino, 1997. Sensitivity analysis of simulated contaminated sediment transport. J. Am. Water Resour. Assoc. 33: 313-326. https://doi.org/10.1111/j.1752-1688.1997.tb03512.x
  9. Jang, J. H., C. G. Yoon, K. W. Jung, and J. H. Jeon, 2006. Pollutant loading estimate from Yongdam watershed using BASINS/HSPF. Korean Society of Limnology 39(2): 187-197 (in Korean).
  10. Jang, J. H., C. G. Yoon, K. W. Jung, and S. B. Lee, 2009. Characteristics of pollution loading from Kyongan stream watershed by BASINS/SWAT. Korean Society of Limnology 42(2): 200-211 (in Korean).
  11. Jeon, J. H., C. G. Yoon, J. H. Ham, and K. W. Jung, 2006. Evaluation of BASINS/WinHSPF applicability for pollutant loading estimation for Korean watershed. Water Science & Technology 53 (1): 25-32. https://doi.org/10.2166/wst.2006.004
  12. Jeon, J. H., D. Choi, J. J. Kim and T. D. Kim, 2009. Evaluation calibration methods of stream flow for water quality management. Journal of Korean Society on Water Quality 25(3): 432-440 (in Korean).
  13. Jeon, J. H., T. I. Kim, D. H. Choi, K. J. Lim, T. D. Kim, 2010. Hydrologic calibration of HSPF model using parameter estimation (PEST) program at Imha watershed. Journal of Korean Society on Water Quality 26(5): 802-809 (in Korean).
  14. Knisel, W. G., 1980. CREAMS: A field-scale model for chemicals, runoff, and erosion from agricultural management systems, conservation research report, No. 26. U.S. Department of Agriculture, Washington, D.C.
  15. USEPA, 2001. WinHSPF Version 2.0 User's Manual. EPA 68-C-98-010. Washington, D.C.
  16. Yoon, C. G., J. Y. Han, K. W. Jung, and J. H. Jang, 2007. Application of BASINS/WinHSPF for pollutant loading estimation in Soyang dam watershed. Korean Society of Limnology 40(2): 201-213 (in Korean).

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