Next-Generation Power and Energy Systems

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With rapid energy sector transformation from the integration of wind and solar energy, as well as electric vehicles bringing new opportunities for power and energy systems engineers, the Department of Electrical, Computer and Energy EngineeringÌý has expanded its professional course offerings to include the following track as part of our Master of Science (MS) degreeÌýfor students with bachelor’s degrees in electrical engineering or related engineering or scientific backgrounds.

The Demand for Next-Generation Power and Energy Systems

Renewable energy sources, such as wind and solar, are increasingly being integrated into the electric power grid, while the power system becomes more tightly intertwined with other systems, such as buildings, natural gas pipelines, and the transportation sector.

Today’s rapid changes create industry demand for professionals who understand new power electronic interfaces, improved modeling and simulation capabilities, and knowledge of advances in communication, control, and optimization to mitigate the impacts of variability and uncertainty in power systems generation.

¶¶ÒõÂÃÐÐÉä’s new master’s program helps engineers and decision makers prepare for this next generation — with deep foundational knowledge, modern technical skillsets, and the ability to effectively participate in multidisciplinary teams to solve new challenges. Adjoint professors from NREL teach program courses with ¶¶ÒõÂÃÐÐÉä faculty to bring practical industry knowledge to classroom discussions.

Students have opportunities to explore energy systems integration themes from the Renewable and Sustainable Energy Institute (RASEI), a join program between ¶¶ÒõÂÃÐÐÉä Boulder and NREL that addresses important, complex problems in energy to expedite solutions that transform energy by advancing renewable energy science, engineering, and analysis through research, education, and industry partnerships.

Instructors from ¶¶ÒõÂÃÐÐÉä Boulder’s faculty and National Renewable Energy Laboratory research programs offer five core courses and numerous electives for the 30-credit hour program to prepare students with the specialized knowledge required to practice grid integration of renewable energy into integrated energy systems.

Many of the Next-Generation Power and Energy Systems courses offer distance-learning options through .Ìý

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Who Should Apply?

The programÌýis intended for students and engineers with a BSÌýdegree in electricalÌýengineering or other science, technology, engineering, and mathematics (STEM) field. Entering students must have adequate knowledge calculus, physics, computation, and of circuits and electronics, as taught in undergraduate courses intended for EE majors.

A small number of undergraduate courses in circuits and electronics may be required as prerequisites for students without a non-EE background, in addition to the 30 credits hours required for the degree.

Master's Courses

A total of 30 credit hours (normally 10 courses) are required for the MSÌýdegree. The curriculum is built around a core of five courses in power and energy systems.

  • ECEN 5407 Renewable Energy and the Future Power Grid
  • ECEN 5797 Introduction to Power Electronics
  • ECEN 5417 Power Systems Analysis
  • ECEN 5437 Distribution System Analysis
  • ECEN 5427 Power Systems Operations and Planning

Electives may be chosen from elective courses offered within the program or the power electronics program. A maximum of two elective courses (6 credits) can also be selected from the variety of courses offered within the Department of Electrical, Computer & Energy Engineering and other departments on campus. Examples of relevant courses offered can found below:

  • AREN 5570ÌýBuilding Electrical Systems Design 1
  • ENVM 5005 The Business of Renewable and Sustainable Energy (taught periodically, unspecified intervals)
  • ECEN 5447 Power Systems Dynamics with Renewable Energy (offered every Spring)
  • ECEN 5457ÌýEnergy Systems Optimization (offered every other Spring beginning Sp23)
  • ECEN 5467 Data Analytics and Data-Driven Decision Making for Modern Power and Energy Systems (offered every other Spring beginning Sp24)
  • ECEN 5517ÌýPower Electronics and Photovoltaic Power Systems LaboratoryÌý (offered every Spring)
  • ECEN 5737ÌýAdjustable-Speed AC Drives (offered every Spring)
  • ECEN 5007 Special Topics: Protection of power systems with renewable & distributed energy resourcesÌý(offered every other Spring beginning Sp23)
  • ECEN 5007 Special Topics:ÌýElectrified Transportation SystemsÌý(offered every Spring)
  • ECEN 5007 Special Topics:ÌýHigh Voltage AC & DC TransmissionÌý(offered every other Fall beginning F23)

Students must first be admitted to the Graduate School with the Next-Generation Power and Energy Systems sub-plan for course credit towards the professional MSÌýdegree. Graduate students pursuing studies at ¶¶ÒõÂÃÐÐÉä Boulder are not required to matriculate into the Next-Generation Power & Energy Systems professional MSÌýsub-plan to take courses, although degree-seeking students enrolled in the professional MSÌýprogram will be given course registration priority.

To register for a graduate-level course through the Electrical, Computer and Energy Engineering Department, contact Graduate AdvisorÌýAdam Sadoff.ÌýTo register for a distance learning course through ¶¶ÒõÂÃÐÐÉä Boulder Connect, check their websiteÌýfor schedule and application information.

"The program gave valuable insight into renewable development from experts active in the field. The courses provided me the knowledge to advance into new roles in a rapidly changing industry."

~Charlie Gerten
Senior Engineer, Eirgrid

Charles Gerten portrait

"Next Generation Power and Energy Systems brings students to the cutting edge of the energy transition. Coursework are based on recent innovation at the National Renewable Energy Laboratory encouraging students to reimagine power systems for a more versatile, decarbonized and interconnected energy future."

~Frank Bergh
Senior Engineer, NRECA International

Frank Bergh headshot