Physically-based Soil-water Erosion Model - Based on Hairsine and Rose's Concept -

물리적인 기반의 토양침식모델 개발

  • 김성준 (한국수자원공사 수자원연구소)
  • Published : 1997.08.01

Abstract

A physically-based soil-water erosion model with simple hydrology and Rose & Hairsine's erosion concept is described, and was implemented in the form of computer program. The model derived from the concept of stream power(Bagnold, 1977) considers settling velocity characteristics of the soil and distinguishes between the processes of entrainment and re-entrainment. It deals separately with rill flow and sheet flow, handles vegetation in terms of soil contact cover, and has the ability to simulate soil movement on nonuniform slopes. The model predicted sediment concentrations reasonably with the results of Mclsaac et al. (1990). It showed a capability to quantitatively predict the movement of soil on uniform and nonuniform slopes. Among the model parameters, soil depositability $({\phi})$ was the most sensitive from the sensitivity analysis.

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References

  1. Transactions of the ASAE v.33 no.4 Comparison of the components used in several sediment yield models Binger,R.L.
  2. Transactions of the ASAE v.36 no.1 A process-based rill erosion model Eillot,W.J.;J.M.Laflen
  3. NSERL Report No. 1. W.Lafayette, IN : USDA-ARS User requirements : USDA-Water Erosion Prediction Project (WEPP) Foster,G.R.;L.J.Lane(comp.)
  4. Journal of Soil and Water Conservation v.46 no.1 Advances in wind and water erosion prediction Foster,G.R.
  5. Water Resources Research v.28 no.1 Modeling water erosion due to overland flow using physical principles : 1. Sheet flow Hairsine,P.B.;C.W.Rose
  6. Water Resources Research v.28 no.1 Modeling water erosion due to overland flow using physical principles : 2. Rill flow Hairsine,P.B.;C.W.Rose
  7. Transactions of the ASAE v.33 no.5 Contour and conservation tillage for corn and soybeans in the Tama silt loam soil McIsaac,G.F.;J.K.Mitchell;M.C.Hirschi
  8. Hydrology and Water Management in the Humid Tropics-Hydrological Research Issues and Strategies for Water Management Erosion and sedimentation Rose,C.W.;M.Bonnell(ed.);M.M.Hufschmidt(ed.);J.S.Gladwell(ed.)
  9. Reentrainment and settling velocity in a physically-based erosion model Siepel,A.C.
  10. Soil and water conservation research and education progress and needs Soil Conservation Service