PSCAD, DIgSilent PowerFactory, Siemens PSS/E) Conduct grid integration studies including stability and harmonics to support wind power plant performance Validate and benchmark simulation models against real-world data and grid requirements Collaborate with Transmission System Operators (TSOs) to interpret and implement simulation model requirements Automate model development and study processes to enhance efficiency and accuracy Provide technical feedback to product development teams based on grid compliance insights Apply deep knowledge of power systems and control theory to improve model quality and turbine-grid interaction YOUR PROFILE M.Sc. in Electrical Engineering/Power Systems or similar Experience with EMT and RMS modelling and simulation in at least one simulation software like PSCAD, PSS/E or DIgSilent PowerFactory Programming experience in Python or C/C++ Experience with interconnection studies and requirements Intercultural understanding: you thrive on working collaboratively with teams across functions and geographies Fluent English spoken and written, additional skills in Spanish and/or German are a plus Good communication skills You are proactive, assertive and a team player YOUR BENEFITS: In addition to the opportunity to make our world a little more sustainable, we offer you: *Some offers may vary by location. ** Hybrid working in accordance with the company's internal policy.
PSCAD, DIgSilent PowerFactory, Siemens PSS/E) Conduct grid integration studies including stability and harmonics to support wind power plant performance Validate and benchmark simulation models against real-world data and grid requirements Collaborate with Transmission System Operators (TSOs) to interpret and implement simulation model requirements Automate model development and study processes to enhance efficiency and accuracy Provide technical feedback to product development teams based on grid compliance insights Apply deep knowledge of power systems and control theory to improve model quality and turbine-grid interaction YOUR PROFILE M.Sc. in Electrical Engineering/Power Systems or similar Experience with EMT and RMS modelling and simulation in at least one simulation software like PSCAD, PSS/E or DIgSilent PowerFactory Programming experience in Python or C/C++ Experience with interconnection studies and requirements Intercultural understanding: you thrive on working collaboratively with teams across functions and geographies Fluent English spoken and written, additional skills in Spanish and/or German are a plus Good communication skills You are proactive, assertive and a team player YOUR BENEFITS: In addition to the opportunity to make our world a little more sustainable, we offer you: *Some offers may vary by location. ** Hybrid working in accordance with the company's internal policy.
Karriere: Wir belohnen Erfolg mit großartigen Incentives und haben ein Auge auf Deine Entwicklung: Viele unserer Führungskräfte kommen aus den eigenen Reihe Deine Aufgaben, unsere Unterstützung: Support zum Start: Die ersten Wochen unterstützen wir Dich mit einem gezielten Online-Ausbildungsprogramm in unserer hauseigenen Academy.
Automate reporting processes for certification, documentation, and quality standards. Provide customized software tools to support load calculation engineers in their daily work. Conduct site-specific load simulations and contribute to feasibility assessments and certification support.
Automate reporting processes for certification, documentation, and quality standards. Provide customized software tools to support load calculation engineers in their daily work. Conduct site-specific load simulations and contribute to feasibility assessments and certification support.
In this master thesis project, you will join our Grid Integration Control team and work on modelling and controlling hybrid power plants. You contribute to impedance‑based modelling approaches, support stability analysis, and help improve grid compatibility of modern wind energy systems. Your work strengthens the performance and robustness of Hybrid Power Plants in future power systems.
In this master thesis project, you will join our Grid Integration Control team and work on modelling and controlling hybrid power plants. You contribute to impedance‑based modelling approaches, support stability analysis, and help improve grid compatibility of modern wind energy systems. Your work strengthens the performance and robustness of Hybrid Power Plants in future power systems.