<div class="zaSstupacSadrzaj"> <dl><dt><a name="future">1. Future Power and Energy Systems</a></dt><dd>Transmission system modeling and simulation</dd><dd>Transmission system planning: TSO of the future</dd><dd>Control methods and real–time operation</dd><dd>System integration of RES</dd><dd>Advances in RES technology</dd><dd>Advances in forecasting techniques</dd><dd>HVDC</dd><dd>Energy market operation and simulation</dd><dd>Regulatory issues</dd><dd>Application of optimization techniques to power systems</dd><dd>Large–scale storage systems</dd><dd>Transition from power to energy system</dd><dd>Reliability and protection</dd><dd>HV equipment testing</dd><dt><a name="carbon">2. Low Carbon Distributed Energy Systems</a></dt><dd>Distributed energy sources: grid integration and control</dd><dd>Distribution system planning: DSO of the future</dd><dd>DC and AC microgrids: concepts beyond isolated power systems</dd><dd>Off–grid solutions</dd><dd>Smart buildings as energy islands</dd><dd>Energy storage: role, impact, economics, technology</dd><dd>Cogeneration – trigeneration – multi–generation systems</dd><dd>Interconnected infrastructures</dd><dd>Energy efficient buildings and homes</dd><dd>Flexible demand: smart homes, real–time pricing, electro–thermal shifting potentials</dd><dd>Renewable heating: modeling, potential, economics, policy</dd><dd>Forecasting methods for smart systems: RES, demand, energy prices</dd><dd>Smart cities: visions and solutions</dd><dd>Aggregator role</dd><dt><a name="sustainable">3. Sustainable Transportation Systems</a></dt><dd>Batteries for electric vehicles</dd><dd>Fully electric vehicles</dd><dd>Hybrid and fuel cell electric vehicles</dd><dd>Electric power trains</dd><dd>Energy management of transportation systems</dd><dd>Urban and neighbourhood mobility</dd><dd>Water mobility</dd><dd>Policy of sustainable transportation systems</dd><dd>Electric vehicles and electricity market</dd><dt><a name="advances">4. Advances in Energy Conversion</a></dt><dd>Power electronics for electrochemical apparatus, energy storage and UPS</dd><dd>Electrical machines and drives</dd><dd>Power electronics for grid interface, power quality, power factor compensation, filtering techniques</dd><dd>Power electronics for energy from renewables</dd><dd>High efficiency electrical machines and drives for energy saving</dd><dd>Powertrain for ship propulsion and electric vehicles</dd><dd>Power transformers</dd><dt><a name="itc">5. ICT in Energy</a></dt><dd>Communication networks, protocols and technologies for smart grids</dd><dd>Architecture, models and network protocols</dd><dd>Smart energy measurements</dd><dd>Smart grid monitoring and control</dd><dd>Signal processing and compression of power grid sensors data</dd><dd>Privacy and cybersecurity</dd><dd>Standardization and regulation</dd><dd>Field trials and deployments</dd><dt><a name="gas">6. The Future of Gas in Power Sector</a></dt><dd>Natural gas and power markets</dd><dd>Large–scale gas to power generation</dd><dd>Shale gas – opportunities and challenges</dd><dd>Power–to–gas: energy storage system of the future</dd></dl> </div>
Abbrevation
IEEE EnergyCon
City
Dubrovnik
Country
Croatia
Deadline Paper
Start Date
End Date
Abstract