Lead Engineer – Electric Power Systems
Job Description
The Electric Power Systems team performs advanced, leading-edge research in a variety of electric power system areas. We focus on technology that enables more reliable and efficient power generation, transmission & distribution. Our major customers include GE Power, GE Renewable Energy, US Dept. of Energy, and the US Dept. of Defense. Opportunities will exist to contribute to technology development in a wide-range of areas including the integration of renewable energy technologies such as wind and solar, WAMS, HVDC, distribution automation, power system protection, and microgrids. Many of these project collaborations are required within the internal organization by actively working on system related aspects with the electrical machines, power electronics, and electrical propulsion and energy storage teams.
Roles and Responsibilities
- Participate in the development of new technologies and capabilities for GE Vernova's power generation, transmission, distribution and end-user product offerings by analyzing system requirements and needs to be translated into existing and new products.
- Develop algorithms to aggregate distributed energy resources (DERs) to provide services to the grid in a microgrid or virtual power plant configuration.
- Develop techniques to efficiently assess the impact of DERs on the grid and develop mitigation strategies.
- Adapt modern distribution automation and management systems for operation with DERs.
- Develop electrical system requirements into projects related to power electronics, electrical machines, propulsion system, energy storage systems, etc.
- Join multi-disciplinary project teams and provide power system analysis expertise in areas such as real-time modeling, simulation, network modeling, system analysis, protection, transient stability analysis, grid codes, Smart Grid concepts, economic dispatch, HVDC/FACTS, etc.
- Perform analytical work to define, meet or exceed customer entitlements.
- Participate in the development and identification of technology, product and service opportunities.
- Effectively communicate results by preparing written reports and making presentations describing analyses performed, solutions developed, and value obtained.
- Connect the organization to the latest technology developments and trends.
- Demonstrate awareness of competing and disruptive technologies.
- Contribute to proposals for GE Vernova businesses as well as government agencies.
Required Qualifications
- Doctorate Degree in Electrical Engineering, Mechanical Engineering or related field with a minimum of 2 years of experience in electric power systems or related field or Master's Degree in Electrical Engineering, Mechanical Engineering or related field with a minimum of 6 years of experience in electric power systems or related field.
- Demonstrated power system engineering experience in at least two of the following: Power system modeling, Protection and stability, Transmission or distribution system planning and optimization, Impact of novel and intelligent devices on power systems (e.g. HVDC, FACTS, storage, electric vehicles etc.), Control and communication technologies, AI/Machine Learning application to power systems.
- Experience with implementation of control algorithms and analytics in control hardware or energy/distribution management systems in a field or lab hardware in the loop environment (e.g. RTDS) and PSCAD simulation capability.
Desired Characteristics
- Experience with microgrid control, energy management systems, hybrid power plant control
- Experience with power electronics based distributed generation and energy storage
- Experience with cybersecurity in power and energy application
- Project experience and publications as the lead author in virtual power plant modeling, simulation, optimization and control
- Extensive experience with simulation software such as PSCAD, PSS/E, OpenDSS and familiarity with EMTP, PSLF and MAPS.
- Programming capability in python or similar languages to interface different modeling tools and platforms
- Experience in control theory with a focus on control algorithms for power or energy systems
- Detailed understanding of generator excitation and speed controls
- Experience with alternative energy and distributed generation, e.g. wind, PV, fuel cells, data-center and combined heat and power applications
- Experience in writing government proposals (e.g. DOE, ARPA-E, DOD) for research grants
- Global mindset & customer focus
- Entrepreneurial inclination