Research

Earth, Atmosphere & Environment Sciences

Title :

Numerical Modelling on Hydrodynamic Stability Analysis of Tidal Inlets

Area of research :

Earth, Atmosphere & Environment Sciences

Focus area :

Research, Education, Training & Outreach, REACHOUT

Principal Investigator :

Dr. K. Thiruvenkatasamy, Professor, Academy of Maritime Education & Training Univrsity (AMET), Tamil Nadu

Timeline Start Year :

2019

Timeline End Year :

2022

Details

Executive Summary :

Tidal inlet as an opening in the shoreline through which water enters the hinterland, thereby providing a connection between the ocean and bays, lagoons, and estuaries. These inlets provide a tidal connection between back barrier bays, lagoons, marsh and tidal creeks, and the coastal ocean and are kept open by tidal currents. Tidal inlets significantly impact the local coastal environment. They play an important role in near shore processes and exchange of water, sediments, nutrients, larvae, planktonic organisms and pollutants. Tidal basins, including tidal lagoons and estuaries with their associated coastal inlets, interrupt a significant part of the world’s shorelines. The main channel of a tidal inlet is maintained by the tidal currents propagating back and forth between the lagoon and the sea resulting from the rise and fall of the tides. Due to the fact that coastal inlets interrupt the continuity of the shorelines and near shore processes, they play a vital role in sediment budgets and coastal erosion. The morphology of tidal inlets is controlled by the interaction of hydrologic, geologic, meteorological, oceanographic, and topographic features. The complexity of inlet processes show diversity in hydraulic signature, sediment transport patterns, and morphology. The frequency and interactions of tide, wave and freshwater flow, together with topographic and geologic controls, are responsible for wide range in tidal settings

Co-PI:

Dr. J Rajaram, professor, AMET University, Chennai

Total Budget (INR):

21,79,000

Outcome/Output:

The study has been carried out to analyze the hydrodynamic behaviour of Muttukadu tidal inlet using Delft3D modelling software. 2. The model produced long shore sediment transport rate of 0.8 x 106 m3 and velocity values at the inlet with a maximum of 0.9m/s. 3. In this work, a more practical approach for ascertaining stability for tidal inlet is proposed. The approach that is taken by this work is to estimate the long shore sediment transport rate and tidal prism. 1. The estimated stability through the stability criteria of Bruun (1986). 4. It is suggested that for the purpose of operating small crafts through micro-tidal inlets, a stability number close to 5 may be considered suitable. Morphodynamics has been analyzed using numerical modeling.

Organizations involved