Sustainable Energy Carleton University

Last Updated on December 24, 2022

Using the internet for important information doesn’t always bring up the right answer, and that is a fact. This is partly because the internet is filled with plenty of information that’s usually not from reliable sources. In case you’re looking for information on sustainable energy carleton university, then the article below provides all you need to know and more.

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Program Summary

There is an increasing demand for clean sources of energy such as nuclear, wind, solar, geothermal, hydropower and biomass energies. Truly sustainable development, however, will require the clever integration of renewable energy technologies into existing infrastructure, along with vastly improved efficiencies in non-renewable energy use. This program provides analytical and hands-on skills for designing, building, operating and enhancing sustainable energy systems that combine energy generation, distribution and utilization in an environmentally responsible and economically beneficial manner. Two streams are offered: Smart Technologies for Power Generation and Distribution, and Efficient Energy Generation and Conversion.

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Admission Requirements

MASc and MEng Sustainable Energy

All applicants must have:

  • A bachelor’s degree (or equivalent) in a discipline relevant to engineering disciplinary foundations with an average of B + or higher
  • Students whose first language is not English or who have not completed a previous degree at an English speaking university must demonstrate an adequate command of English by attaining, at least, a TOEFL score of 580 (written) or 86 IBT overall with a minimum score in each component of writing – 22; speaking – 22; reading – 20 and listening- 20, or a CAEL score of 70, or an IELTS score of 7.0.

MASc students should find a supervisor prior to entering the program. You can do so by emailing faculty members prior to submitting your application. Click here for a list of our faculty members.  Please note that you should not email faculty with “SPPA” by their name as these faculty members are from the School of Public Policy and Administration and not from an engineering department.

MA Sustainable Energy

All applicants must have:

  • A bachelor’s degree (or equivalent), with an average of B+ or higher.
  • 1.0 credit in university-level micro- and macroeconomic theory (ECON 1000 [1.0] or the equivalent).
  • 0.5 credit in PSCI at the 2000-level or higher, dealing with institutions and processes by which governments legitimize and exercise power, ideally in a Canadian setting (PSCI 2003 or equivalent).
  • A working knowledge of algebra
  • Met language requirements (see above)

The level of academic performance and potential demonstrated within the degree is more important than the discipline; students may enter the program from a wide variety of academic backgrounds in the social sciences, humanities, sciences and engineering. Mid-career applicants who do not have a bachelor’s degree, but who have demonstrated professional excellence over a number of years of work in the public sector will also be considered.

In some cases, applicants may be admitted to the program despite not having completed one of these prerequisite courses in economics or political science, on the condition that the course be completed with a grade of B- or higher in the first year of the program. It is strongly recommended that students complete the prerequisites before starting the program, to ensure that their progress through the core courses is unimpeded.

Sustainable Energy Engineering and Policy

The Master’s program in Sustainable Energy prepares students for employment related to sustainable energy in government, business, or the civil society sector, and/or to serve as a foundation for further graduate education at the doctoral level. The program involves learning across two distinct disciplines – engineering and public policy. Students specialize in one side or the other of the program, graduating with either an engineering degree (MASc or MEng in Sustainable Energy) or a public policy degree (MA in Sustainable Energy) as appropriate. At the same time, students also take courses that engage with the other disciplinary component: public policy for those specializing in sustainable energy engineering; and engineering for those specializing in sustainable energy policy. Moreover students across the program as a whole work and learn together, garnering a greater understanding of the complexity of sustainable energy problems and acquiring an understanding of, and experience with, interdisciplinary collaboration.

There are three fields in the Master’s program in Sustainable Energy:

  • Sustainable Energy
  • Mechanical Energy Conversion
  • Efficient Electrical Energy Systems

The first field, Sustainable Energy, is associated with the MA degree of the program and focuses on the public policy dimensions of sustainable energy problems. Graduates gain an advanced understanding of the ways in which energy policy is made, policy choices and policy instruments, and the challenges that confront public policy in this field. The second field, Mechanical Energy Conversion permits students to acquire knowledge of design, development, implementation and improvement of energy conversion methods and systems that are associated with sustainable generation, distribution and consumption of energy. The final field, Efficient Electrical Energy Systems is focused on advancement in the design, optimization and realization of systems employing electrical power and the associated embedded intelligence. The second and third fields are associated with the MASc and MEng degrees of the program.

Course Requirements

Students in the Master’s program in Sustainable Energy must successfully complete a total of 5.0 course credits. Courses must be appropriate to the student’s prior qualifications and selected with the approval of the student’s supervisor. All up to date program requirements can be found on the Graduate Calendar.

Co-op Option for MA and MENG Students

A Co-op option is available to full-time students in both the MA and MENG program. Please note that the MENG option is only available to students starting the program in fall 2020.  Students admitted to this option must satisfactorily complete at least two work terms in order to graduate with co-op designation on their transcripts and diplomas. These work terms are four months in duration and locate students in government departments or other organizations in order to work at a junior officer level. They provide students with opportunities to integrate the theoretical and practical aspects of public administration. During a work term, students will register in the co-op work term courses: PADM 5913 (MA students) or SERG 5913 (MENG students). While on a work term, students are limited to an additional 0.5 credit course. It should be noted that most co-op positions in the federal public service are restricted to Canadian citizens.

WHAT IS A RENEWABLE ENERGY ENGINEER ?

Energy engineering or energy systems engineering is a broad field of engineering dealing with energy efficiency, energy services, facility management, plant engineering, environmental compliance and alternative energy technologies. Energy engineering is one of the more recent engineering disciplines to emerge. Energy engineering combines knowledge from the fields of physics, math, and chemistry with economic and environmental engineering practices. Energy engineers apply their skills to increase efficiency and further develop renewable sources of energy

Renewable Energy Engineer Salary in the United States

How much does a Renewable Energy Engineer make in the United States? The average Renewable Energy Engineer salary in the United States is $74,839 as of May 27, 2021, but the salary range typically falls between $70,422 and $86,271. Salary ranges can vary widely depending on many important factors, including education, certifications, additional skills, the number of years you have spent in your profession. With more online, real-time compensation data than any other website, Salary.com helps you determine your exact pay target. 

Top 10 Highest Paying Cities for Alternative Energy Engineer Jobs

We’ve identified 10 cities where the typical salary for an Alternative Energy Engineer job is above the national average. Topping the list is Lakes, AK, with San Francisco, CA and Santa Clara, CA close behind in the second and third positions. Santa Clara, CA beats the national average by $13,259 (16.2%), and Lakes, AK furthers that trend with another $14,858 (18.1%) above the $81,941 average.

Unfortunately, the job market in Lakes, AK is underperforming for Alternative Energy Engineer jobs, so it may be difficult to land a position in this location.

With these 10 cities having average salaries higher than the national average, the opportunities for economic advancement by changing locations as an Alternative Energy Engineer appears to be exceedingly fruitful.

Finally, another factor to consider is the average salary for these top ten cities varies very little at 6% between Lakes, AK and San Jose, CA, reinforcing the limited potential for much wage advancement. The possibility of a lower cost of living may be the best factor to use when considering location and salary for an Alternative Energy Engineer role.

CityAnnual SalaryMonthly PayWeekly PayHourly Wage
Lakes, AK$96,800$8,067$1,862$46.54
San Francisco, CA$96,012$8,001$1,846$46.16
Santa Clara, CA$95,201$7,933$1,831$45.77
Washington, DC$94,066$7,839$1,809$45.22
Los Angeles, CA$93,038$7,753$1,789$44.73
Fremont, CA$92,349$7,696$1,776$44.40
Jersey City, NJ$91,891$7,658$1,767$44.18
Green River, WY$91,347$7,612$1,757$43.92
San Buenaventura, CA$91,265$7,605$1,755$43.88
San Jose, CA$90,663$7,555$1,744$43.59

Top 5 Best Paying Related Alternative Energy Engineer Jobs in the U.S.

We found at least five jobs related to the Alternative Energy Engineer job category that pay more per year than a typical Alternative Energy Engineer salary. Top examples of these roles include: Senior Energy Engineer, Energy Systems Engineer, and Energy Management Engineer.

Importantly, all of these jobs are paid between $7,124 (8.7%) and $14,808 (18.1%) more than the average Alternative Energy Engineer salary of $81,941. If you’re qualified, getting hired for one of these related Alternative Energy Engineer jobs may help you make more money than that of the average Alternative Energy Engineer position.

Job TitleAnnual SalaryMonthly PayWeekly PayHourly Wage
Senior Energy Engineer$96,749$8,062$1,861$46.51
Energy Systems Engineer$95,063$7,922$1,828$45.70
Energy Management Engineer$91,727$7,644$1,764$44.10
Energy Solution$90,430$7,536$1,739$43.48
Alternative Engineering$89,065$7,422$1,713$42.82

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