• Development and Application of a Physics-based Soil Erosion Model
  • Yu, Wansik;Park, Junku;Yang, JaeE;Lim, Kyoung Jae;Kim, Sung Chul;Park, Youn Shik;Hwang, Sangil;Lee, Giha;
  • International Water Resources Research Institute, Chungnam National University;Dept of Biological Environment, Kangwon National University;Dept of Regional Infrastructure Engineering, Kangwon National University;Bio Environmental Chemistry, Chungnam National University;Korea Water Environment Research Institute;Department of Rural Construction Engineering, Kongju National University;Korea Environment Institute;Dept of Construction and Disaster Prevention Engineering, Kyungpook National University;
  • 물리적 표토침식모형의 개발과 적용
  • 유완식;박준구;양재의;임경재;김성철;박윤식;황상일;이기하;
  • 충남대학교 국제수자원연구소;인하대학교 토목공학과;강원대학교 바이오자원환경학과;강원대학교 지역건설공학과;충남대학교 생물환경화학과;공주대학교 생물산업공학부;한국환경정책평가연구원;경북대학교 건설방재공학부;
References
  • 1. APIP, 2008 Watershed hydrological modeling based on runoff and sediment transport processes: a physically-based distributed model and its lumping, Master's Thesis, Kyoto University.
  •  
  • 2. Bathurst, J.C., 2002, Physically-based erosion and sediment yield modelling: the SHETRAN concept, In W. Summer and D.E. Walling(ed.), Modelling erosion, sediment transport and sediment yield, UNESCO, Paris, p.47-68.
  •  
  • 3. Duan, Q., Sorooshian, S., and Gupta, V.K., 1992, Effective and efficient global optimization for conceptual rainfall-runoff models, Water Resour. Res., 284 1015-1031.
  •  
  • 4. Duan, Q., Sorooshian, S., and Gupta, V.K., 1994, Optimal use of the SCE-UA global optimization method for calibrating watershed models, J. Hydrol., 158, 265-284.
  •  
  • 5. Johnson, B.E., Julien, P.Y., Molnar, D.K., and Watson, C.C., 2000, The two dimension-upland erosion model CASC2D-SED, J. of the AWRA, 36(1), 31-42.
  •  
  • 6. Kim, Y.K., 2017, Watershed-based PMP and PMF Estimation by considering Spatio-temporal Characteristics, Master's Thesis, Chungnam National University.
  •  
  • 7. Kim, Y.S., Song, M.Y., Lee, G.H., and Jung. K.S., 2014, Development and application of automatic rainfall field tracking methods for depth-area-duration analysis, J. of Korea Water Resour. Assoc., 47(4), 357-370.
  •  
  • 8. Kim, Y.S., Lee, G.H., An, H.U., and Yang, J., 2015, Uncertainty Assessment of Soil Erosion Model Using Particle Filtering, J. of Mountain Sci., 12(4), 828-840.
  •  
  • 9. Lee G.H., Lee, K.H., Jung, K.S., and Jang C.L., 2012, Analysis of the effect of spatial distribution of rainfall on soil eorsion and deposition, JJ. of Korea Water Resour. Assoc., 45(7), 657-674.
  •  
  • 10. Lee G.H., Yu W.S., Jung K.S., and Apip, 2013, Catchment-scale soil erosion and sediment yield simulation using a spatially-distributed erosion model, Environ. Earth Sci., 70, 33-47.
  •  
  • 11. Morris, G.L. and Fan, J., 1997, Reservoir sedimentation handbook, McGraw-Hill, New York.
  •  
  • 12. Tachikawa, Y., Nagatani, G., and Takara, K., 2004, Development of stage-discharge relationship equation incorporating saturated-unsaturated flow mechanism, Annual J. of Hydraulic Eng., JSCE 48, 7-12.
  •  
  • 13. Toy, T.J., Foster, G.R., and Renard, K.G., 2002, Soil Erosion: Processes, Prediction, Measurement and Control, John Wiley & Sons, Inc.
  •  

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