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Project Abstract: This PhD project addresses strategic UK priorities in advanced power semiconductor technologies supporting net zero, electrification, and grid resilience. The research will focus
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Your Job: This PhD project focuses on modelling and simulating future gas grids, exploring transformation pathways, and developing cross-sectoral simulation frameworks to support informed decision
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Your Job: In this PhD project, you will explore the stability and dynamic behaviour of inverter-based power systems, using state-of-the-art supercomputing infrastructure. You’ll work at the cutting
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Job Description Do you want to shape the digital backbone of the green energy transition by enabling grid operators, forecast providers, and aggregators to privately and securely share data and
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Your Job: In this PhD project, you will shape the future of power system security by harnessing exascale computing. Your research will focus on understanding and enhancing grid resilience under
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: Developing and applying simulation and optimization models to analyze energy flows, operational strategies and design decisions in a multi-energy system (power, gas, heat) Investigating different community
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, distributed energy storage units that can provide additional flexibility to the power system. Through Vehicle-to-Grid (V2G), Vehicle-to-Home (V2H), and more broadly Vehicle-to-X (V2X) technologies, EVs can
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We have the power of over 40,000 students and co-workers. Students who provide hope for the future. Co-workers who contribute to Linköping University meeting challenges of today. Our fundamental
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and EU-funded research projects, and has extensive know-how in 5G/6G communication platforms, IoT platforms, and Demand Response algorithms for the Smart Grid. IQU is also active in many EU-funded
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power-hungry, and a significant portion of that energy is consumed by the transmitter. The ERC Synergy project DISRUPT is taking a bold step: moving RF-power generation further into the digital domain and