Base flow separation using exponential smoothing and its impact on continuous loss estimates
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Ilahee, Mahbub
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Oxley, L
Kulasiri, D
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Christchurch, NEW ZEALAND
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Abstract
Rainfall runoff models are used to estimate design floods. These models require several inputs such as, rainfall duration, intensity, loss etc. For baseflow separation in design flood estimation the estimation of continuing loss (CL) is vital. The surface runoff has to be separated from the stream flow hydrograph. To obtain the volume of surface runoff, the use of an appropriate baseflow separation method is essential and in this paper an exponential method is used to assess the impact of baseflow on continuing loss estimates. The sensitivity analysis shows that the required baseflow separation coefficient (a) could be estimated using 3 to 5 rainfall streamflow events from the study catchment. The selected a can then be applied to other rainfall streamflow events of the same catchment to observe the sensitivity on continuing loss estimate. It has been observed that a small degree of error in the selection of a value does not significantly affect the estimates of the CL values. Rather than using complex rules, the method and procedure used in this research for baseflow separation can be used to estimate a for all other Queensland catchments.
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MODSIM 2007: INTERNATIONAL CONGRESS ON MODELLING AND SIMULATION
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© 2007 Modellling & Simulation Society of Australia & New Zealand. This is the author-manuscript version of this paper. Reproduced in accordance with the copyright policy of the publisher. Please refer to the conference link for access to the definitive, published version.