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About the Program
This program is designed for graduates of technical degrees or diplomas to explore further studies across the realm of energy management while experiencing hands-on exposure to various technologies and means of power generation. In this program, you will have the opportunity to explore how core technologies in gas and steam are combined with renewable energy sources such as solar and wind. You will benefit from the combination of a registered 4th class high pressure steam training power plant with a renewable energy lab containing full-sized solar panels and related electrical management systems. Theoretical calculations in thermodynamic heating systems are compared with actual field measurements in heating systems to provide you with ample practice opportunities in applied utilities management strategies, where energy management and conservation strategies are assessed as part of utilities optimization. The program helps you develop leadership skills, and the ability to manage complex industrial processes and teams effectively to meet business goals. You will study quality assurance and process and project management with a focus on meeting challenges in an industrial environment from operational and strategic perspectives.
This program involves evening classes, Monday to Friday, and daytime classes, Saturday to accommodate applied components.
Program Outcomes
Analyze an organization's current energy profile to plan and establish an energy strategy
Optimize an energy portfolio using research based analysis, industry standards, operating procedures and process parameters.
Recommend energy management options, solutions and technologies to maintain long-term operational and infrastructure efficiency
Prepare and present persuasive business cases, technical reports and proposals in a scientific format using accurate energy terminology.
Manage the implementation of an energy project that aligns with organizational and operational goals.
Evaluate energy production methodologies and carbon reduction strategies to make effective management decisions.
Compile data and apply appropriate methodologies to interpret and process information based on data analysis methodologies.
Plan, design and advance energy management projects, in compliance with occupational health and safety regulations, established standard operating procedures and best practices
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Level 1
Course Details
Elementary Chemistry and ThermodynamicsCHEM8000
Communications for Effective Management in IndustryCOMM8380
Conestoga 101CON0101
Engineering Economics for IndustryECON8060
ElectricityELEC8000
Applied Math and Mechanics IMATH8030
Introduction to Occupational Health and Safety LegislationOHS8195
Quality, Strategy and Value Creation for IndustryQUAL8320
Level 2
Course Details
Applied Mathematics and Mechanics IIMATH8040
Refrigeration and Air ConditioningMECH8070
High Pressure Boiler Design, Combustion, FeedwaterMECH8085
Customer/Supplier Relationship in IndustryQUAL8330
Applied ScienceSCIE8020
Photovoltaic Grid DesignTECH8015
Level 3
Course Details
CogenerationERGY8005
Waste to Energy and BiomassERGY8010
Photovoltaic and Wind Off-GridERGY8020
Human Resources Management for IndustryHRM8380
Types of PlantsMECH8060
Introduction to Project Management For IndustryMGMT8630
Hazard IdentificationOHS8035
Level 4
Course Details
Career ManagementCDEV8130
Capstone (Applied Energy Management)ERGY8030
Team Dynamics and Employee Engagement in IndustryMGMT8640
Health and Safety ManagementOHS8225
Principles of Lean Six SigmaQUAL8200
Manufacturing Managers
Supervisors, Petroleum, Gas and Chemical Processing and Utilities
Supervisors, Mineral and Metal Processing
Health Insurance - $500
