Best Distance learning Master's Programs in Energy Engineering 2019 in North America
Energy engineering, which is considered a branch of manufacturing, focuses on providing energy services to communities. Individuals who study energy engineering learn how to improve energy efficiency, help companies comply with energy regulations and research as well as implement modern energy technologies.
Master's Program Distance learning in Energy Engineering in North America
The Masters of Engineering in Electrical Engineering with a concentration in Power Engineering is available for students that have a BS in Electrical Engineering or from
The Masters of Engineering in Electrical Engineering with a concentration in Power Engineering is available for students that have a BS in Electrical Engineering or from another engineering discipline.
Requirements for the Masters of Engineering (ME) degree with a concentration in Electric Power are:
Total of 30 graduate credits At least 6 electrical engineering courses, 4 of which are in the power engineering area 21-27 credits of coursework 1-7 credits of ME project (option avail in Summer term)
The Power Engineering concentration allows students the maximum flexibility to design their program of study to meet their specific needs.
Student A may wish to concentrate strictly in the power area, taking 7 power engineering courses and conducting a significant 7 credit hour project in the power area. Student B may wish to take 4 power engineering courses, 2 other engineering courses, 3 business courses and a 1 credit hour project....
University of Maryland, A. James Clark School of Engineering
Drawing on the innovation and expertise of the University of Maryland Energy Research Center, the energy systems engineering masters program prepares professional enginee
Requirements specific to the energy systems engineering program include:
A bachelor's degree, GPA of 3.0 or better, in civil and environmental, mechanical, or chemical and bimolecular engineering from an accredited institution
Completion of calculus I, II, and III and differential equations, thermodynamics, fluid mechanics, and heat transfer