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Engineer for Wind Turbine Simulation Model Validation - Job Opportunity at Fraunhofer Institute for Wind Energy Systems IWES

Bremerhaven, Germany
Full-time
Mid-level
Posted: May 1, 2025
Hybrid
EUR 55,000 - 75,000 annually based on TVöD scale and experience level, with additional performance-based bonuses

Benefits

Flexible working hours with core hours system
Remote work options
Emergency childcare support
Employee discounts on events, clothing, and travel
Germany-wide transit pass (Deutschlandticket)
Professional development programs
Opportunity for doctoral studies
Work-life balance focus
International work environment

Key Responsibilities

Develop and implement validation methods for offshore wind turbines
Research and evaluate validation methodologies
Implement validation algorithms in Python
Model and simulate offshore wind turbines
Extend existing MoWiT (Modelica Library for Wind Turbines) models
Generate and analyze synthetic simulation data
Compare simulation results with test bench and turbine measurement data
Document findings in scientific publications
Present research at conferences and trade shows
Support project acquisition activities

Requirements

Education

Diploma/Master's degree with focus on wind energy

Experience

Experience in wind turbine simulation and modeling

Required Skills

Wind turbine simulation experience Programming skills (Modelica, Python, or C) Knowledge of offshore wind turbines Understanding of hydrodynamics and wave theories German and English language proficiency
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Sauge AI Market Intelligence

Industry Trends

The wind energy sector is experiencing rapid growth with increasing focus on offshore installations, creating high demand for simulation and validation expertise. Digital twin technology and real-time simulation capabilities are becoming crucial for wind turbine optimization and maintenance. Integration of AI and machine learning in wind turbine modeling is emerging as a key trend. Growing emphasis on cost reduction and efficiency improvement in offshore wind projects drives demand for advanced simulation tools.

Role Significance

Small specialized team of 4 core members plus student researchers, typical for advanced R&D units in research institutions
Mid-level technical position with significant research responsibility and potential for growth into senior technical or research leadership roles

Key Projects

Development and validation of wind turbine simulation models Hardware-in-the-loop testing implementation Optimization of offshore wind turbine designs Research publication and scientific advancement in wind energy systems

Success Factors

Deep understanding of wind turbine physics and simulation methodologies Ability to bridge theoretical modeling with practical applications Strong analytical and problem-solving capabilities Effective communication skills for international collaboration Research mindset with practical implementation focus

Market Demand

High demand with growing emphasis on offshore wind expertise and digital simulation capabilities. The role combines specialized technical knowledge with research orientation, making it particularly valuable in the current renewable energy expansion.

Important Skills

Critical Skills

Wind turbine simulation expertise is fundamental for model validation and optimization Programming skills enable implementation of complex simulation models Understanding of offshore conditions crucial for accurate modeling

Beneficial Skills

Machine learning for advanced data analysis Project management capabilities Scientific writing and presentation skills Knowledge of wind energy market trends

Unique Aspects

Combination of academic research with practical industry applications
Access to advanced testing facilities and real-world data
International research environment with direct industry impact
Opportunity to influence wind energy technology development

Career Growth

2-4 years in current role with potential for advancement based on research contribution and project success

Potential Next Roles

Senior Research Engineer Technical Team Lead Research Group Leader Wind Energy Systems Architect R&D Project Manager

Company Overview

Fraunhofer Institute for Wind Energy Systems IWES

Fraunhofer IWES is a leading research institution in wind energy systems with strong industry connections and public funding support

Premier position in applied research with direct influence on industry standards and technological advancement
Strategic location in Northern Germany's wind energy cluster with strong international collaborations
Research-oriented environment with emphasis on innovation, collaboration, and practical application of scientific findings
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