An Integrated Hydrological-Hydraulic Model for Simulating Surface Water Flows of a Shallow Lake Surrounded by Large Floodplains.

Tanaka, Tomohiro; Yoshioka, Hidekazu; Siev, Sokly; Fujii, Hideto; Fujihara, Yoichi; Hoshikawa, Keisuke; Ly, Sarann; Yoshimura, Chihiro

An integrated hydrological-hydraulic model employing the 2-D local inertial equation as the core is established for effective numerical simulation of surface water flows in a great lake and its floodplain. The model is a cascade of validated hydrological and hydraulic sub-models. The model was applied to simulating the surface water flows of the Tonle Sap Lake and its floodplain in Cambodia using the roughness coefficient value calibrated comparing with a remote-sensing data set. The resulting model reasonably handles backwater flows during the rainy season and simulates the propagations of wet and dry interfaces without numerical instability, owing to a proper setting of time step supported by a novel numerical stability analysis. Sensitivity analysis of the surface water dynamics focusing on the setting of roughness coefficient and the backwater effect was also carried out. Overall, utilizing the 2-D local inertial equation in the assessment of lake water dynamics is a new modelling approach, which turns out to be an efficient simulation tool.

HYDROLOGY; HYDRAULICS; FLOODPLAINS; LAKES; BACKWATER

Water (20734441), 2018, Vol 10, Issue 9, p1213

2073-4441

Academic Journal

10.3390/w10091213