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We develop aquatic computational models for oceans, sea, estuaries, aquifers, lakes, rivers, and dams. We pay more attention in the development of mathematical models for water quality as well as decision support systems that enables a well informed decision making at any given time. We are working on governing geophysical fluid dynamic principles to model ocean circulation and better understand flow of water and behavior of rivers, and waterfalls. In oceanography modelling we develop frameworks for decision support systems to solve problems such as:
Variable spatial or temporary scales.
To solve complex topography and lateral boundaries.
To increase computational power for problem solving.
To increase observational measurements for validation.
Integrating atmospheric and ocean models as a single system.
In oceanography modelling we study various aspects of oceans and solve problems relating to:
a) Modelling tracers.
b) Combined circulation and vorticity.
c) Total time mean energy transport modelling.
d) Geophysical fluid dynamic equation modelling.
In rivers , dams, lakes, aquifers, underground water, and estuaries we focus mainly of problems relating supply and demand equilibrium of drinkable water, risks and problems relating to water.
Bathymetry.
Water quality.
Hydrodynamics.
Analysis of flood areas.
Water table level analysis.
Water catchment analysis.
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