YOUR TASKS Design, develop, and maintain full-stack applications (C#, Python, ASP.NET, SQL) to support and improve internal load calculation workflows.
Perform advanced load simulations for class-based and site-specific conditions, including conceptual studies for new design approaches. Collaborate with multidisciplinary teams to optimize controller functions and support component design. Plan and execute load assessment tasks for research, sales, and service-related projects using advanced aero-elastic simulation tools.
Knowledge of ME Methods & Tools: Methods: WPR, industrial process design, industrialization, Jigs & Tools (J&T), time studies and calculation (e.g. PERT, MTM-STV Airbus). Tools & Systems: SAP (PP/PM), PLM systems (Zamiz, TiCon, TAKSY, DocMaster/ECM), Delmia/Apriso, Google Workspace, Microsoft Office.
Knowledge of ME Methods & Tools: Methods: WPR, industrial process design, industrialization, Jigs & Tools (J&T), time studies and calculation (e.g. PERT, MTM-STV Airbus). Tools & Systems: SAP (PP/PM), PLM systems (Zamiz, TiCon, TAKSY, DocMaster/ECM), Delmia/Apriso, Google Workspace, Microsoft Office.
YOUR TASKS: Perform a fine-tuning of the wind turbine control system parameters to ensure both stability and best optimization results for the different product configurations and power modes Development and conception of new control functions to improve wind turbine as well as wind farm performance in terms of load reduction and power capture increase Investigate and analyze complex control issues in the fleet and develop corrective actions in close cooperation with various departments in an international environment Collaborate with cross-functional teams to fulfill Design Failure Mode and Effect Analysis for a new control function Collaborate with the modeling and best simulation of the key subsystems, sensors, pitch and yaw actuators in the wind turbine as well as flow effects at wind farm YOUR PROFILE: MSc /PH.D. degree in Mechanical, Control, Aerospace or Electrical Engineering field Knowledge on Control Design Techniques and Matlab/Simulink Required English (C1), desirable: German , Spanish 3+ years of proven experience Availability to travel YOUR BENEFITS In addition to the opportunity to make our world a little more sustainable, we offer you: *Some offers may vary by location Nordex adheres to a policy of equal employment opportunity.
YOUR TASKS You develop impedance models for wind farms and battery energy storage systems in dq0 coordinates within a hybrid power plant setting You validate impedance models against EMT simulations and raw field measurement data You design control strategies for voltage and frequency control in hybrid power plants while considering coupling effects You perform tuning processes for PMS control loops in MATLAB/Simulink You contribute to improving impedance measurement methods and modelling workflows YOUR PROFILE You are enrolled in a Master's program in Electrical Engineering, Control Engineering, Power Systems or equivalent You have knowledge of electrical energy systems, ideally with exposure to wind energy You bring experience in MATLAB/Simulink or PSCAD, ideally including power system toolboxes You are interested in stability analysis, system modelling and control design Experience with converter control or wind farm control systems is an advantage You have programming skills in MATLAB; additional languages such as Python or C/C++ are a plus You work in a structured, analytical and self‑organized manner on complex technical topics DEINE BENEFITS Nordex bietet eine Vielzahl an attraktiven Benefits – hier findest du einen Auszug dessen, was Dich bei uns erwartet.
Your Profile: Ph.D. or M.Sc. in Mechanical Engineering or equivalent qualifications. Background in mechanical system standardization, modular design, or platform development. 5+ years of experience in similar development or toolkit-related roles. Good understanding of damper systems, machine design, and configuration management.
Your Profile: Ph.D. or M.Sc. in Mechanical Engineering or equivalent qualifications. Background in mechanical system standardization, modular design, or platform development. 5+ years of experience in similar development or toolkit-related roles. Good understanding of damper systems, machine design, and configuration management.
At Nordex, rotor blade aerodynamic design is a key differentiator in our wind turbine technology. We are seeking an experienced engineer who can lead complex design projects and contribute to the continuous improvement of our aerodynamic capabilities.
At Nordex, rotor blade aerodynamic design is a key differentiator in our wind turbine technology. We are seeking an experienced engineer who can lead complex design projects and contribute to the continuous improvement of our aerodynamic capabilities.