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TL;DR: The SHE system as discussed by the authors is a physically-based, distributed, catchment modelling system developed by the Danish Hydraulic Institute, the British Institute of Hydrology and SOGREAH with the financial support of the Commission of the European Communities.
1,692 citations
TL;DR: The second part of an introduction to the SHE as discussed by the authors, a physically-based, distributed catchment modelling system, was presented by the Danish Hydraulic Institute, the British Institute of Hydrology and SOGREAH with the financial support of the Commission of the European Communities.
1,266 citations
TL;DR: The European Soil Erosion Model (EUROSEM) as mentioned in this paper is a dynamic distributed model able to simulate sediment transport, erosion and deposition over the land surface by rill and interill processes in single storms for both individual fields and small catchments.
Abstract: The European Soil Erosion Model (EUROSEM) is a dynamic distributed model, able to simulate sediment transport, erosion and deposition over the land surface by rill and interill processes in single storms for both individual fields and small catchments. Model output includes total runoff, total soil loss, the storm hydrograph and storm sediment graph. Compared with other erosion models, EUROSEM has explicit simulation of interill and rill flow; plant cover effects on interception and rainfall energy; rock fragment (stoniness) effects on infiltration, flow velocity and splash erosion; and changes in the shape and size of rill channels as a result of erosion and deposition. The transport capacity of runoff is modelled using relationships based on over 500 experimental observations of shallow surface flows. EUROSEM can be applied to smooth slope planes without rills, rilled surfaces and surfaces with furrows. Examples are given of model output and of the unique capabilities of dynamic erosion modelling in general. © 1998 John Wiley & Sons, Ltd.
1,164 citations
TL;DR: In this article, a case study based on the MIKE SHE code and the 440 km 2 Karup catchment in Denmark is presented, where the importance of a rigorous and purposeful parameterisation is emphasized in order to get as few free parameters as possible for which assessments through calibration are required.
800 citations
TL;DR: In this paper, a new form of the Boussinesq equations applicable to irregular wave propagation on a slowly varying bathymetry from deep to shallow water is introduced, which incorporate excellent linear dispersion characteristics, and are formulated and solved in two horizontal dimensions.
783 citations
Authors
Showing all 693 results
| Name | H-index | Papers | Citations |
|---|---|---|---|
| Henrik Madsen | 81 | 848 | 27121 |
| Steffen E. Petersen | 58 | 415 | 16004 |
| Jørgen Fredsøe | 57 | 223 | 13672 |
| Jesper Larsen | 50 | 246 | 10264 |
| Jens Lykkesfeldt | 49 | 231 | 8902 |
| Jens Christian Refsgaard | 48 | 194 | 10917 |
| Hans Burchard | 43 | 129 | 6358 |
| Per A. Madsen | 38 | 98 | 6390 |
| Claus Jørgensen | 37 | 144 | 7572 |
| Ove Andersen | 37 | 222 | 4841 |
| Morten Pejrup | 35 | 81 | 3086 |
| Vladan Babovic | 33 | 109 | 3356 |
| Morten Birkved | 30 | 126 | 2840 |
| David R. Fuhrman | 29 | 103 | 2979 |
| Mary S. Wisz | 28 | 44 | 11932 |