Energy storage systems
- characterize the state of the art in the field of hybrid storage systems and perspectives of their evolution taking into account different use cases; - contribute to the specification, design, development and implementation of tools in the energy area, involving hybrid storage systems, renewable production, isolated systems, system services, system dynamics and stability; - specify the exchange of information between systems and develop APIs to enable interaction between new tools and existing platforms; - participate in the elaboration of use cases and services related to the use of hybrid storage systems in isolated power systems; - specify virtual power plants and their functional applications based on hybrid storage systems and aiming at providing specific system services. - attend a curricular unit of transversal competences; - write the grant activity report.
student in electrical engineering or other similar field
Minimum profile required
- knowledge in programming;- fluency in English (written and spoken).
- capability to analyze and process data relating to the operation and control of energy systems; - experience or knowledge of fundamental concepts of dynamics and stability of isolated systems; - experience or knowledge of energy conversion systems for storage devices or renewable systems; - knowledge of Python (or similar); - knowledge in the area of energy transition and digitalization; - knowledge of electrical energy storage systems.
Since 10 Nov 2022 to 24 Nov 2022
Cluster / Centre
Power and Energy / Power and Energy Systems