PROGRAMME DES FOURNISSEURS D’ÉDUCATION (PFÉ)

This course provides an introduction to air curtains and their value in a wide range of building types, along with additional opportunities in specialty applications. Learn how and where air curtain units can be installed within a building to enhance its overall operational performance and functionality. Discover how air curtains can reduce building temperature loss, energy consumption, and windborne dirt, dust, and other pathogens and offer many other benefits. The various codes and standards that promote the use of air curtains are also discussed in order to understand how to select and install the most appropriate air curtain unit.

ONGOING - FREE - 1 HOUR

Interest in metal cladding is continually growing because of its sustainable features: durability, long life span, recyclability, and contribution to cool roofs. Manufacturers provide a wide range of panel profiles, materials, and colors to meet the increased demand. This course examines the performance characteristics and attributes of metal roofing and cladding, different aesthetic options, and best installation practices, as well as how they contribute to more energy-efficient buildings.

ONLINE - ONGOING - FREE

Building designers, property managers, and tenants increasingly focus on lowering their energy and utility consumption and its accompanying costs. To effectively reduce usage and costs, monitoring energy consumption in detail is necessary, especially in buildings and facilities with multiple tenants, end users, and processes. This course explains how utility submetering identifies usage quantities and issues, facilitates smart metering, helps meet or exceed code and building rating system requirements, and accurately allocates utility charges, all of which contribute to users’ lowering their utility consumption and costs. 

Net zero energy ready buildings are a popular topic in today's world of climate change. This course explores how energy efficiency has expanded toward exterior wall assemblies, where thermal bridging and thermally broken subframing systems are becoming the new norm.

The need to evaluate thermal bridging in a building’s design and performance has become more prevalent because of the increasing requirements for more energy-efficient buildings. This course provides an introduction to thermal bridging, energy code requirements, and the use of thermal break solutions designed to improve energy efficiency in the building envelope.

ON-GOING  1.25 hrs

Uncorrected thermal bridging can account for 20–70% of heat flow through a building's envelope. Improving details to mitigate both point and linear thermal bridges will significantly improve energy performance. This course reviews types of thermal bridges, examines how they appear in codes and standards, and explores some mitigation concepts and principles. Calculation methods to account for thermal bridging in your projects are introduced, and a sample design project is used to demonstrate code compliance.

ONGOING - FREE - 1.5 HOURS

The key to an energy-efficient metal building is the implementation of a continuous insulation system that virtually eliminates thermal bridging and prevents condensation. This course discusses how using thermal spacer blocks and metal building insulation in the building envelope increases energy performance, protects against condensation, and meets stringent energy code requirements.

The thermal and dual modification of wood are processes used to improve wood’s profile in terms of durability, dimensional stability, overall performance, and inherent resilience and sustainability. The resulting products can be utilized in many building applications, from decking and siding to pergolas and nonstructural beams, as well as paneling, soffits, and interior trim applications. This course explores the science behind the thermal and dual modification of wood. Examples of modified wood and case studies are also reviewed. 

Roofing technologies have come a long way from labor-intensive BUR systems that achieved watertightness through redundancy. Today’s single-ply membranes are thin, light, and reliable, and installation is safe and efficient. This course focuses on thermoplastic single-plies, particularly those that are PVC based, and explores their benefits and limitations as well as the important factors to consider when selecting a roof system, ranging from fastening techniques to warranties to sustainability. 

Building owners value daylighting and views but face security and safety challenges with large amounts of glazing. Thermoplastic sheet products offer a variety of glazing solutions that resist security threats while providing transparency, strength, and durability. This course introduces the grades and characteristics of acrylic and polycarbonate sheet products and discusses how they meet the requirements for protection against forced entry and ballistics.

ONGOING - FREE - 1 HOUR

Thick 2 cm (20 mm) porcelain tiles that are specifically made for outdoor installations offer a blend of design, versatility, performance, simplicity of installation, and eco-sustainability. Many of the concerns regarding substrate preparation, bond failure, and slip resistance associated with laying thinner tiles outdoors are eliminated. This course discusses the material characteristics and installation of thick outdoor porcelain tiles—a paving system with high technical and visual performance.

The popularity of thin gauged porcelain tile has soared because of its large slab size, beauty, durability, sustainability, and versatility. These tiles are suitable for many environments, especially hospitality, institutional, and office applications. This course explores their many uses, their economic and environmental benefits, and proper installation techniques. 

In today’s rapidly evolving world, safety is a critical factor in architectural design. This course examines how fenestration systems enhance building protection through bullet resistance, fortified glazing, and advanced barrier solutions. Learn how potential threats influence the selection of these systems and how they integrate seamlessly into architectural projects.

ONGOING

Trees are essential for the health of the urban environment, mitigating the heat island effect, cleaning the air, reducing stormwater runoff, and improving residents’ health and well-being. But cities are often inhospitable to trees, where their growth may be stunted or their roots may damage surrounding infrastructure. This course explores ways to design successful projects incorporating green infrastructure by understanding the principles behind tree growth, proper type and amount of soil, water management, and the role of soil vault systems in helping urban trees thrive.