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Pavlos Tourou

Researcher

Ruhr-University Bochum, Institute for Power Systems Technology and Power Mechatronics

Bochum, Germany

14 profile visitsPotential applicant for a funded RTDI project

My organisation

The Institute for Power Systems Technology and Power Mechatronics (EneSys) at the Ruhr-University Bochum is engaged in system-oriented research in the following areas: renewable energy sources and especially wind power, electric mobility, mechatronic drivetrains and power electronics for industrial applications. The range of research activities includes conception/design and optimisation of energy conversion systems and mechatronic drivetrain systems for wind turbines, grid integration of decentralized generation system in smart grids as well as development of energy storage systems for mobile and stationary applications. Projects/Cooperations: EneSys is currently coordinating and participating in various national as well as European (Horizon 2020) research and industrial projects. Centrally located in the most populous state of Germany, North Rhine-Westphalia, EneSys cooperates with various stakeholders in the energy, industrial and transport sectors such as manufacturers, private and public service providers and applied research centers. The university: The Ruhr-Universität Bochum (RUB) is one of the strongest research universities in Germany. It is organised in 20 faculties and is home to 5,000 employees, 2,500 scientists and over 40,000 students from 130 countries. It’s internationally recognised collaborative research, the promotion of its young scientists and the ability to quickly implement far-reaching reforms form the basis for its good international reputation.
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About me

My organisation

Ruhr-University Bochum, Institute for Power Systems Technology and Power Mechatronics

http://www.enesys.rub.de

The Institute for Power Systems Technology and Power Mechatronics (EneSys) at the Ruhr-University Bochum is engaged in system-oriented research in the following areas: renewable energy sources and especially wind power, electric mobility, mechatronic drivetrains and power electronics for industrial applications. The range of research activities includes conception/design and optimisation of energy conversion systems and mechatronic drivetrain systems for wind turbines, grid integration of decentralized generation system in smart grids as well as development of energy storage systems for mobile and stationary applications.

Projects/Cooperations: EneSys is currently coordinating and participating in various national as well as European (Horizon 2020) research and industrial projects. Centrally located in the most populous state of Germany, North Rhine-Westphalia, EneSys cooperates with various stakeholders in the energy, industrial and transport sectors such as manufacturers, private and public service providers and applied research centers.

The university: The Ruhr-Universität Bochum (RUB) is one of the strongest research universities in Germany. It is organised in 20 faculties and is home to 5,000 employees, 2,500 scientists and over 40,000 students from 130 countries. It’s internationally recognised collaborative research, the promotion of its young scientists and the ability to quickly implement far-reaching reforms form the basis for its good international reputation.

Skills

  • energy system modelling and simulation
  • Energy Management
  • Control Systems
  • optimisation algorithms

Interests

  • grid integration of RES
  • zero and positive energy buildings and districts

Additional questions

I am interested in the following Call Modules of the Joint Call 2024:

Call Module 1: Data spaces and interoperabilityCall Module 2: Energy system flexibilityCall Module 3: Advanced renewable energy technologies for power productionCall Module 5: Hydrogen and renewable fuelsCall Module 6: Heating and cooling technologiesCall Module 8: Integrated regional energy systemsCall Module 9: Integrated industrial energy systemsCall Module 10: Clean energy integration in the built environment

I am interested in the following CETPartnership thematic areas:

develop the optimised, integrated European net-zero emissions energy systemdevelop a pool of zero-emission power technologies and solutions based on Renewable Energy Sourcesprovide technological cleaner solutions for storage technologiesprovide technological cleaner solutions for hydrogen and renewable fuelsprovide enhanced and improved heating & cooling technologies and systemsdevelop and validate integrated regional and local energy systems, NoREST initiativedevelop and demonstrate technical solutions for integrated industrial energy systemsprovide solutions and technologies for buildings to become an active element in the energy system

Marketplace (1)

  • Service

    Smart Wind Farm Laboratory (SWiPLab)

    Extensive infrastructure with configurable, modular, and digitally networked laboratory for optimising controls and components of wind farms

    Author

    Pavlos Tourou

    Researcher at Ruhr-University Bochum, Institute for Power Systems Technology and Power Mechatronics

    Bochum, Germany