1 – Energy Conversion and Management:

Analysis and optimization of energy processes – Cogeneration and combined heat, power and refrigeration – Combustion improvements and combustion of new fuels – Industrial and domestic use of energy – Energy conversion and storage – Energy Efficiency in Buildings – Improvement of Indoor Air Quality – Energy Saving in Transportations – Power Plants and Equipment – Refrigeration and Air-Conditioning – Low Enthalpy Energy Sources – Energy Harvesting

 

2  – Energy Planning and Policy:

Economic and Policy Issues – Energy Analysis – Energy Planning and Energy Management – Energy supply security – Environmental, Social and Economic Impacts of Energy Policies and Usage – Overview of the Global and Regional Energy Scene – Problems of Modeling and Forecasting – Integrated Energy Systems – Optimal Use of Energy Resources – Energy and Environmental Regulation.

 

3 – Power Systems and Networks:

Electricity Supply and Demand – Transmission – Distribution – Network Operation – Data Monitoring and Control Systems – Power Grids – District Heating and Cooling – Natural Gas Supply – Power Plants Automation and Control – Power System Metering – Smart Transmission Grids –

 

4 – Thermodynamics and Heat Transfer:

Heat Exchangers – Conduction, Convection and Radiation Heat Transfer –  Heat Transfer in Fission and Fusion Nuclear Facilities – Exergy Analysis – Entropy Generation Minimization – Heat and Mass Transfer Processes – Thermodynamic Modelling and Optimization – Computational Fluid Dynamics –

 

5 – Renewable and Nuclear Energy Sources:

Biomass and Bioenergy – Geothermal Energy Systems – Sustainable Energy Systems – Wind Energy – Solar  Thermal and Photovoltaic – Concentrating Solar Power – Waves Energy – Nuclear Power Plants – Hydro Power – Hydrogen Production Technology – Fuel Cells – Tide and Ocean Energy