| Energy Systems Engineering Technology - Electrical | | |
| ChangeRemoveSave | Add | Add |
School | Conestoga College | | |
Location | Kitchener, ON, Canada | | |
School Type | College | | |
School Size | Full-time Undergraduate: 23,000
| | |
Degree | Diploma | | |
Honours | | | |
Co-op | | | |
Length | 3 Year(s) | | |
Entry Grade (%)* | | | |
Prerequisites | - Grade12 English
- Grade12 Mathematics
| | |
Prerequisites Notes | Applicants must have an Ontario Secondary School Diploma (OSSD), or equivalent, OR 19 years of age or older with mature student status (See Mature Student definition for details.), Grade 12 compulsory English, C or U, or equivalent, OR Conestoga College Preparatory Communications (COMM1270), and Grade 12 Mathematics, C or U (MCT4C or MHF4U or MCV4U or MDM4U), or equivalent, or Conestoga College Preparatory Mathematics for Technology & Apprenticeship (MATH1385). The minimum acceptable grade for MDM4U is 70%. Applicants with MAP4C will not be considered for admission to this program. They may be considered after writing the Conestoga College Math Pre-Admissions test. Minimum grade cut-offs apply. Applicants with MAP4C may be given an alternate offer to the one-year Technology Foundations program which serves as a preparatory pathway into this program. | | |
Cost | | | |
Scholarships | 1 scholarship(s) | | |
Description | With the focus towards a lower-carbon future, energy professionals are in high demand. This three-year program is specifically designed to meet the high demand for engineering technologists in electrical power generation, transmission, and distribution, as well as in low-carbon energy systems, smart building systems, and energy management.
Topics include conventional and renewable energy generation, including distributed energy resources for Ontario's low-carbon energy future. Students will develop a strong electrical engineering technology foundation in electrical fundamentals, motors and control, programmable logic controllers, power system generation, transmission/distribution, protection and control, and grid transformation/smart grids. In addition, topics such as residential/commercial/industrial energy savings, building automation, analytics, energy storage, HVAC systems, and energy auditing are applied for careers in the growing specialty of conservation in private and public sector jobs. Mechanical topics include statics, dynamics, thermodynamics, and fluid mechanics as they apply directly to various energy systems. | | |
Next Steps | | | |