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Performances of rainfall-runoff models calibrated over single and continuous storm flow events

journal contribution
posted on 01.01.2008, 00:00 authored by S Tan, Lloyd ChuaLloyd Chua, E Shuy, E M Lo, L Lim
Accurate parameter estimation is important for reliable rainfall-runoff modeling. Previous studies emphasize that a sufficient length of continuous events is required for model calibration to overcome the effect of initial conditions. This paper investigates the feasibility of calibrating rainfall-runoff models over a number of limited storm flow events. For a subcatchment having a moderate influence from initial soil moisture conditions, this study shows that rainfall-runoff models could still be calibrated reliably over a set of representative events provided that the events cover a wide range of peak flow, total runoff volume, and initial soil moisture conditions. This approach could provide an alternative calibration strategy for a small watershed that has a limited data length but consists of runoff events with a wide range of magnitudes. Compared to continuous-event calibration, event-based calibration appears to perform better in simulating the overall shape of hydrograph, peak flow and time to peak. However, continuous-event calibration was found to be more reliable in providing runoff volume, suggesting that continuous-event calibration should still be used when runoff volume is the main concern of a study.

History

Journal

Journal of hydrologic engineering

Volume

13

Issue

7

Pagination

597 - 607

Publisher

American Society of Civil Engineers

Location

Reston, Va.

ISSN

1943-5584

Language

eng

Publication classification

C1.1 Refereed article in a scholarly journal

Copyright notice

2008, American Society of Civil Engineers