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Courses/Engineering/Energy Management

Energy Management in Industrial and Commercial Buildings

Strategies for Improving Energy Efficiency and Sustainability in Industrial and Commercial Buildings

Created byEric Boutin, P. Eng, PMP, ing.
4.7
(122 reviews)
BeginnerUpdated May 16, 2023
Energy Management in Industrial and Commercial Buildings

What You'll Learn

check_circleUnderstand the importance of energy management in industrial and commercial buildings, including the cost savings that can be achieved through upgrades and sustainability measures.
check_circleIdentify key building codes and materials relevant to energy efficiency and sustainability in industrial and commercial buildings, and understand the impact of asbestos and other damaging materials.
check_circleEvaluate energy usage and potential for retrofitting in both new and older buildings, including considerations for ESG commitments and LEED ratings.
check_circleApply best practices for energy efficiency and sustainability in commercial buildings, such as retrofitting with solar panels and improving ventilation and heating systems.
check_circleDevelop a comprehensive understanding of energy efficiency and sustainability considerations in industrial facilities, including storage and maintenance considerations for heavy equipment and emergency power infrastructure.

About This Course

This course provides an overview of energy consumption and management in industrial and commercial buildings, with a focus on sustainability and environmental impact. It highlights the significant changes in building construction, materials, and equipment designed to promote sustainability. The increasing cost of energy has made it a major portion of operating expenses, underscoring the need for proper energy management.

The course aims to bridge the knowledge gap in understanding the importance of energy management among industry professionals and outside contractors. It presents common and accepted practices, including upgrading insulation, modifying equipment operation, and integrating heat recovery into ventilation systems.

Participants will explore the differences between commercial and industrial facilities. For example, public-facing commercial areas like malls often have multiple entrances that complicate energy control, while industrial buildings located in remote areas may require additional costs for outside experts and specialized equipment.

Key topics include important building codes, municipal bylaws, and material hazards such as asbestos and urea formaldehyde foam insulation. These materials may require mitigation strategies during renovations that involve wall removal.

The course emphasizes sustainability and energy efficiency, particularly in commercial buildings, which contribute approximately 13% of greenhouse gas emissions. Retrofitting these structures—by installing solar panels or improving heating and ventilation systems—can yield cost-effective improvements in energy performance.

It also addresses changes in commercial space usage due to the pandemic and increased remote work, presenting opportunities for retrofitting and future-proofing. Older buildings constructed before 1980 often lack energy-efficient design, making retrofitting more challenging but also more necessary.

Students will learn to evaluate building energy use, identify areas of energy loss, and implement strategies to conserve and redirect energy. Retrofitting choices—such as LED lighting upgrades or improved insulation—support better capital planning and improved building efficiency.

Further topics include ESG (Environmental, Social, Governance) commitments, LEED certification considerations, and energy efficiency in industrial facilities such as heavy manufacturing plants. Retrofitting must account for the facility’s use, whether it is public-facing, remote, or urban, as well as occupancy levels and equipment sensitivity to temperature.

The course addresses idle equipment management, including maintenance implications and the need for protective measures like anti-corrosion coatings for long-term storage. It concludes with a discussion on risk assessment related to climate events, such as snowstorms, and the reliability of emergency power and gas supplies.

Each property presents unique challenges and opportunities, and energy management decisions should be based on specific risk-reward analyses tailored to the facility’s context.

Your Instructor

Eric Boutin, P. Eng, PMP, ing.
Eric Boutin, P. Eng, PMP, ing.

Senior Mechanical Engineer | Tetra Tech

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star122 reviews

Mine hoisting, mine ventilation, material handling and dewatering I have worked in the heavy industrial field most of my career since graduating from the University of Waterloo in 1986. My experience includes working as a maintenance engineer for Placer Dome at the Campbell Mine, working within a consulting engineering firm for 4 years, followed by a 10 year engagement with Bowater, in progressive positions from Project Engineer through to overall Manager of Engineering. I am currently a Senior Mechanical Engineer, with experience in the management of large, heavy industrial projects, and an accomplished mechanical engineer, with design expertise in material and fluid handling. Specialties: Underground mining installation design including material handling, ventilation, hoisting, and pumping systems. Pulp and paper installation design including pumping, black liquor, white liquor and green liquor systems. Fluent in French and English

Credit Information

Do these courses count toward my professional development requirements?

This portal is provided as a training and development resource for City of Markham employees. Every course is delivered by a qualified subject matter expert or learning organization, is quantifiable in hours, and is verifiable — you receive a documented certificate of completion for every course you finish, stored on LearnFormula indefinitely.

If you hold a professional designation (for example in engineering, accounting, human resources, or law), courses may be counted as professionally relevant, verifiable learning activities toward your continuing professional development. Individual practitioners are responsible for confirming that an activity meets the requirements of their professional body. For questions about the City of Markham's training and development policies, please speak with your people leader or Human Resources.

What Students Are Saying

4.7
Student's Choice
122 reviews

Frequently Asked Questions

We are a registered provider with 327+ associations and regulatory bodies worldwide. We operate across 29 global markets including Canada, the US, Australia, and the UK. Every course page clearly displays its specific accreditations. Upon completion, you receive a professional certificate that can be validated online. Our certificates include all necessary accreditation details, credit hours, and completion dates, and are formatted specifically to meet the submission requirements of most global regulatory bodies.