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We develop AGCM (atmospheric global climate modelling) to better understand the climate and climate change and to do weather forecasting. The basic idea is the mathematical modelling of global air circulation of the planetary atmosphere. We further develop models of various energy sources available in the atmosphere such as electromagnetic radiation and temperature. We develop water cycle models that link the atmosphere with water sources such as oceans, rivers and dams. The models focus mainly on:
Gravity.
Moisture.
Air quality.
Air density.
Air velocity.
Air pressure.
Earth rotation.
Solar radiation.
Air and ocean temperature.
We develop EBM (earth energy balance models) to better understand heat transfer through convection and modeling the relationship of radiation from the sun, the absorption and emissivity of heat radiated into the atmosphere. We are modelling solar radiation to understand how solar radiation is absorbed when passing through the atmosphere. The time mean zonally averaged energy transport models enables us to understand both qualitative and quantitative aspects of realistic atmospheric circulation . We develop models to map relationship of greenhouse variables which are: rising temperature, sea ice melt, reduced albedo. This enables us to understand atmospheric governing dynamics to be able to solve problems in the atmosphere and recognize anomalies. We develop climatology state of the art atmospheric model.
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