Applying as a Canadian applicant
Domestic students should apply using a Conestoga College Program Application Form.
Applying as an International applicant
Campus tours
Campus tours are one of the best ways to experience Conestoga. During this time, we are offering online guided tours to show you all Conestoga has to offer.
Book your tourVirtual tours
If you can't make an on-campus tour or attend one of our events, the virtual tour is a great way to visit us.
View our Virtual tourCourses - May 2026
Level 1
Course details
Chemistry and Thermodynamics I
CHEM8010
This course introduces students to the fundamentals of chemistry and thermodynamics. Students will learn the principles of atomic and molecular structure, changes of state, the laws of thermodynamics, as well as how to apply basic thermodynamic principles to different systems including steam. Methods of heat transfer and the principles of operation of heat exchangers will be explored.
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Communications for Effective Management in Industry
COMM8381
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Conestoga 101
CON0101
- Hours: 1
- Credits: 0
- Pre-Requisites:
- CoRequisites:
Engineering Economics for Industry
ECON8061
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Electricity
ELEC8001
- Hours: 56
- Credits: 4
- Pre-Requisites:
- CoRequisites:
Introduction to Energy Management Systems
ERGY8230
This course provides an overview of energy management systems, focusing on their design, operation, and the technologies involved. Students will gain foundational knowledge in energy management, including key concepts, components, and principles for sustainable energy practices.
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Introduction to Occupational Health and Safety Legislation
OHS8197
This course introduces students to health and safety legislation in Ontario. This will include an exploration of the main components of the Occupational Health and Safety Act, industry and hazard specific regulations made under the Act, and the Workplace Safety and Insurance Act. Students will learn to distinguish between legislative requirements, industry standards and best practices and apply their knowledge to a workplace to assess compliance. Students will be introduced to common workplace hazards, and the concepts of hazard identification and mitigation. Students will also explore how inspections, investigations and penalties are used in the enforcement of occupational health and safety legislation.
- Hours: 28
- Credits: 2
- Pre-Requisites:
- CoRequisites:
Applied Statistics Using Excel
STAT8090
This course introduces students to the principles and tools of statistical analysis using Microsoft Excel. Students will learn to collate, validate, analyze, and interpret data accurately using single-variable analysis techniques; topics include descriptive statistics, data visualization, basics of probability and probability distributions, estimation of means, hypothesis testing and simple linear regression.
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Level 2
Course details
PLC 1
CNTR8051
This course introduces students to the basic concepts of programmable logic controllers (PLCs) including what they are, what they do and how to program them. Using industry recognized development software, students will learn to plan, create and test fully functional PLC programs. Emphasis will be placed on communications, data types, memory management, and fundamental ladder logic instructions.
- Hours: 42
- Credits: 2
- Pre-Requisites:
- CoRequisites:
Monitoring, Operations and Maintenance
ERGY8091
In this course, students will learn about the importance of asset management in healthy renewable energy system. This includes proactive and continuous process of commissioning, operating, monitoring, and maintaining renewable power systems to ensure they perform at or above their expected levels. Student will also discuss the significance and best practices for measurement and verification in performance-based contracts. Students will also explore the interfaces between the different components involved in renewable energy systems. Students will learn how telemetry data and control signals are communicated to and from renewable energy sites.
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Energy System Design
ERGY8240
This course explores best practices for the planning and implementation of building energy systems. Students will learn to interpret building requirements to design an energy management system and apply diagnostic design practices to facilitate troubleshooting.
- Hours: 56
- Credits: 4
- Pre-Requisites:
- CoRequisites:
Boiler and Refrigeration
MECH8180
This course explores the function and energy management implications of boilers, refrigerators, and air conditioners in industrial settings. Students will learn how these technologies work, their impacts on carbon reduction strategies, and their relationship to an overarching building energy management system.
- Hours: 56
- Credits: 4
- Pre-Requisites:
- CoRequisites:
Hazard Identification
OHS8036
This course allows students to examine workplace hazard identification and risk management principles in the context of manufacturing and construction environments in Ontario. Students will learn how to asses occupational hazards and exposure pathways, in accordance with applicable legislation. Using industry standard tools and processes, students have an opportunity to conduct a hazard identification and risk evaluation processes. Students will learn how to apply the appropriate hazard controls and how to determine the effectiveness of the selected controls after implementation to ensure for effective risk mitigation.
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Photovoltaic Grid Design
TECH8016
- Hours: 84
- Credits: 6
- Pre-Requisites:
- CoRequisites:
Level 3
Course details
PLC 2
CNTR8061
This course builds upon the concepts introduced in PLC1. Students will be introduced to higher level memory management and organization, as well as more complicated functions such as sequencers and VFD control via Ethernet. Particular focus will be paid to the Ladder Logic and Function Block programming languages. Just as in PLC 1, students will continue to learn to plan, create and test fully functional PLC programs, using industrially recognized hardware and software.
- Hours: 42
- Credits: 3
- Pre-Requisites: CNTR8050 OR CNTR8051
- CoRequisites:
Microgrid
ERGY8120
Through a series of lecture and labs, this course will introduce the students to the design and installation concepts of microgrid systems, utilizing small scale wind and photovoltaic systems. Students will be introduced to site analysis for off-grid systems, electrical load calculations, battery calculations, PV and battery sizing and wind and generator integration and options.
- Hours: 70
- Credits: 5
- Pre-Requisites:
- CoRequisites:
Energy System Automation Design and Visualization
ERGY8250
In this course, students will learn to design and diagnose automated energy management systems that use programmable logic controllers (PLCs) to control energy management. Students will collaborate to plan and design automated energy management systems based on real-world problems.
- Hours: 56
- Credits: 4
- Pre-Requisites:
- CoRequisites:
Utility Data Analysis
ERGY8290
This course explores the data available from utility providers and how to analyze it and interpret it to identify opportunities for increased efficiency and cost savings. During this course, students will apply statistical analysis techniques to identify trends and present information to stakeholders.
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Introduction to Project Management For Industry
MGMT8631
This course covers the necessary tools and processes to manage the life cycle of a project in an industrial environment. Students will utilize the Guide to the Project Management Body of Knowledge (PMBOK®), applying standard terminology and methods in a number of small sample projects including creation of project charter, risk management, procurement, and project scheduling and project reporting.
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Emerging Technologies
TECH8040
This course explores the changing nature of energy technology and discusses current trends and emerging technologies. Through collaborative learning, students will learn strategies to research, evaluate, and identify appropriate applications for and risks associated with new energy technologies.
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Level 4
Course details
Career Management
CDEV8132
- Hours: 28
- Credits: 2
- Pre-Requisites:
- CoRequisites:
Capstone (Applied Energy Management)
ERGY8034
- Hours: 126
- Credits: 7
- Pre-Requisites: ERGY8250 AND ERGY8290 AND MGMT8630 OR MGMT8631
- CoRequisites:
Energy Assessment
ERGY8130
This course explores the industry techniques and best practices used to assess an energy management system and develop recommendations for improvements to its performance and carbon production. Students will learn to analyze organizational needs and energy data to identify trends and determine the efficiency and effectiveness of a system. During this course, students will plan and conduct a project to evaluate an energy system and present recommendations to a customer.
- Hours: 56
- Credits: 4
- Pre-Requisites:
- CoRequisites:
Human Resources Management for Industry
HRM8381
The primary focus in this introductory course is to offer the student an in depth view into Canadian human resource (HR) management functions as it relates to industry. The course emphasis is on the skills and techniques utilized by HR professionals and managers in each of their specialty areas, and how they are related to the organization's overall strategy and objectives in Canada.
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Health and Safety Management
OHS8226
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Program outcomes
- Manage an energy project that aligns with organizational and operational goals.
- Analyze an organization’s current energy profile to plan and establish an energy strategy.
- Evaluate energy production methodologies and carbon reduction strategies to make effective management decisions.
- Recommend energy management options, solutions and technologies to maintain long-term operational and infrastructure efficiency.
- Collect, compile, and interpret data using appropriate tools based on data analysis methodologies.
- Prepare and present persuasive business correspondence and technical documents including business cases, technical reports and proposals in a scientific format using industry-relevant terminology.
- Optimize an energy portfolio based on industry standards, operating procedures and process parameters.
- Plan, design and advance energy management projects, in compliance with occupational health and safety regulations, established standard operating procedures and best practices.
- Develop and apply ongoing strategies for personal and professional development to remain current in the energy field.