Engineering intern- Turbine Functionality Controls

equirements through implementation and validation. Project options include:

• AI Controls Development-accelerate time-intensive controls work by defining and validating interfaces, workflows, and prompting to enhance existing processes.

• End-to-end Alarm Management-own a defined set of alarms to improve availability, reliability, and serviceability while minimizing nuisance trips and flooding; perform fleet and Pareto analyses, identify false positives, document rationalization, write requirements, conduct failure analyses, and implement code changes.

• Feature redesign-extend the latest redesign efforts to additional platforms by identifying applicability gaps, defining added requirements, adapting/integrating controls code, and planning/executing HIL tests to validate changes.

Qualifications/Requirements and Desired Characteristics

Mechanical / Electrical / Computer Engineering / Computer Science backgrounds.

Helpful skills include: Systems thinking, data mindset, ability to ramp quickly on new tools, outsider mindset

Outcomes

In this rotation, you will own 1-2 controls projects end-to-end, turning requirements into implemented and validated turbine features with visible impact on reliability, availability, and serviceability. You'll gain hands-on experience building and integrating MATLAB/Simulink-based controls and executing rigorous verification, including HIL testing and failure analysis. You'll practice disciplined engineering (traceable requirements, change control, safety/compliance) while collaborating with component owners, fleet performance management, and other Controls engineers, sharpening communication and technical leadership. By rotation end, you'll have delivered production-quality code changes and reusable workflows/tools that accelerate future development.

Additional Information

Relocation Assistance Provided: No