Mineral Wool as a Continuous Insulation Solution ( ~ 1 hour, 15 minutes ) 

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Insulation can help increase overall energy efficiency, minimize the spread of fire, manage risks associated with moisture and mold, and improve occupant comfort. Choosing the right insulation and putting it in the right location is becoming one of the most important decisions in design, construction, and retrofit. Reviewed in this course are the features, benefits, and design and installation considerations related to mineral wool continuous insulation.

EPS Insulation for Innovative Roofing Applications ( ~ 1 hour ) 

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Retrofitting and replacing roof systems are essential aspects of the construction industry and offer opportunities to reduce a building’s energy consumption. Sustainable retrofitting of roofs with durable, energy-efficient materials helps reduce waste and conserve resources while promoting ecofriendly building practices. This course gives an overview of expanded polystyrene (EPS) insulation and innovative roof systems that are designed to enhance building efficiency.

Polyiso CI for Code-Compliant Walls in Type V and Residential Construction ( ~ 1 hour, 30 minutes ) 

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Continuous insulation is part of building standards and state and energy codes due to its ability to reduce thermal bridging and the associated heat loss and energy consumption. This course looks at the use of polyisocyanurate as a continuous insulation in Type V and residential construction and its use as a multifunctional envelope component—air barrier, weather-resistive barrier, and vapor retarder—by reviewing code requirements for the building envelope.

Building the Perfect Envelope with Insulated Metal Panels ( ~ 1 hour ) 

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Understanding building physics is critical to proper building envelope design. Examined here are practical concepts for the building designer, including how cladding systems perform across different climate zones and applications. Environmental control layers and hygrothermal loads are reviewed, as is the concept of perfect/universal wall design. The course focuses on how single-component insulated metal panels (IMPs) function as a perfect/universal wall, simplifying wall system design and installation.

Fire Code Compliance and Insulated Metal Panels ( ~ 1 hour ) 

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Understanding how insulated metal panels comply with fire safety regulations under the code is critical to their proper use in creating highly energy-efficient and sustainable buildings. This course takes a relatively complex subject and addresses the most important fire safety aspects to allow building designers to make an informed decision on the use of these popular cladding systems. Also reviewed are how these products have been addressed in the development of the International Building Code and the various third-party product listings, evaluation reports, and engineering judgements used to show compliance.

Firestop Specifications ( ~ 1 hour ) 

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Firestopping is the process of sealing openings around penetrants or in joints or gaps between fire-rated assemblies to restore hourly fire resistance ratings. It is a critical part of fire containment and a balanced fire and life safety plan. This course outlines resources and code requirements that architects and designers should be aware of while preparing specifications for firestop systems in their projects. The course also reviews common mistakes to avoid.

High-Performance Paint Removers: Safe and Effective Alternatives ( ~ 1 hour ) 

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Paint in its various forms is an older material whose composition has constantly evolved, even in modern times. This evolution has included the identification and removal of certain hazardous ingredients. Similarly, paint removers have also evolved and improved their ability to deal with a wide range of old and new paint formulas while remaining safe for the occupant, the worker, and the environment at large. This course examines state-of-the-art nontoxic paint removers that are effective in removing as many as thirty coats of paint in one safe and efficient operation.

Low-Slope Roofing and Photovoltaics (PV) ( ~ 1 hour ) 

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As more companies invest in solar to generate clean power for their operations, meet environmental goals, or save money on electrical bills, architects and building owners may need to be prepared to accommodate rooftop photovoltaic (PV) systems in both existing and new buildings. This course provides an introduction to rooftop PV systems, including a discussion of modules, components, and attachments, and best practices for a durable roof and PV system.

How to Specify & Detail Architectural Metal Wall Panels ( ~ 1 hour ) 

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Architectural metal panels (AMPs) provide exceptional design versatility, enhancing both the aesthetics and functionality of a building. This course explores different types of panels, their applications, finishes, key design and specification considerations, and best practices to ensure the durability and performance of the panel system. Additionally, several project examples are presented to showcase the creative applications of AMP systems.

Underslab Vapor Retarders in Buildings ( ~ 1 hour ) 

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Underslab moisture is something that designers need to take into consideration in both the design and construction phases of a building project. It can cause many problems for the building and the health of its occupants over the course of its life span; however, if properly addressed during design and construction, many of these issues can be mitigated. This course looks at the different types of moisture movement that exist below the slab, examines solutions for a variety of site conditions, and reviews best practices for managing moisture.

The Rooftop Environment: Designing for Safe Access and Fall Protection ( ~ 1 hour, 15 minutes ) 

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Anytime a facility has people working on a roof, their safety and protection must be the priority. Even under the best conditions, working on a rooftop is dangerous due to the roof’s elevation, slope, and edge, as well as other hazards created by weather conditions, electricity, and power tools. This course reviews the hazards of the rooftop environment and the relevant Occupational Safety and Health Administration (OSHA) regulations to aid designers, property owners, and facility managers in selecting safe access and fall protection systems for their buildings.

Enhancing the Built Environment with Architectural Metal Fabric ( ~ 1 hour ) 

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Architectural metal fabric is a dynamic interior and exterior material used to create beautiful and functional façades, balustrades, and screening for a wide variety of commercial and public structures. This course discusses applications for metal fabric and its performance benefits, including safety, security, solar management, and sustainability. It also discusses how coatings and graphics technologies can be incorporated into metal fabrics to enhance branding and visual identity.

Insulate Ukraine ( ~ 30 minutes ) 

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The war in Ukraine has left thousands living in substandard housing conditions, insufficient for winter weather. This course reviews a solution developed by a British engineer that addresses the pressing problem of delivering replacement windows in a war zone to improve thermal comfort in Ukrainian homes.

Installing Fenestration in Exterior Insulated Walls ( ~ 1 hour ) 

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Fenestration openings are a critical component of a building envelope, especially in present-day sustainable, energy-efficient buildings. Building envelopes play an important role in controlling the movement of heat, bulk water, and water vapor. Designing fenestration openings for buildings that use continuous exterior insulation has a significant role in reducing thermal bridging and thus conserving energy. This course reviews the impact of exterior insulation on fenestration installation design. The course also explores solutions for a wide variety of wall system variations.

Protected Membrane Roof (PMR): Innovative Solution for Sustainable Commercial Buildings ( ~ 1 hour ) 

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Protected membrane roof (PMR) assemblies have been widely adopted in low-slope commercial buildings since the late 1960s. Also known as inverted or upside-down roofs, PMR assemblies move the waterproofing membrane from the top of the roof assembly to the surface of the structural deck. This course explores how PMR assemblies provide several advantages over conventional roof assemblies, offering superior protection against water penetration and enhanced energy efficiency. The course also shows how PMR assemblies allow for the creation of green roofs or blue roof systems. With a proven record of reliability, PMR assemblies present a compelling solution for architects seeking innovative, sustainable, and efficient roofing options.

What Is Fundamentally Wrong with ISO R-Value and How Do We Fix It? ( ~ 1 hour ) 

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Understanding the performance of building materials in real-world conditions is key to a successful building design. Recent studies have shown that the commonly reported R-values of polyisocyanurate foams at room temperature may overstate their real-world performance in cooler temperatures, potentially resulting in gaps in designed building enclosure assembly performance and quality. Through a theoretical framework and empirical data, this course shows that optimized polyisocyanurate foam insulation results in better performance, leading to improved energy savings and reduced potential for condensation. Participants are encouraged to explore innovative insulation materials, understand differences between them, and match optimal materials to specific applications while meeting modern construction codes and regulations. By matching the right insulation materials to the application, architects can contribute to energy-efficient and cost-conscious construction practices and help buildings reduce their impact on the environment.

Precast Concrete Pavers and Roof Deck Systems ( ~ 1 hour ) 

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Precast concrete pavers and roof deck systems enable designers to deliver on aesthetics and design objectives while achieving safety and durability requirements. Patented roof deck systems allow for the creation of safe and stable roof deck patios and green roofs that maintain sustainability requirements. This course examines the raw materials used in these systems, reviews the different finishes available, and discusses different paver applications and their methods of installation.

Making the Practical and Financial Case for Sustainable Roofing Systems ( ~ 1 hour ) 

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Today’s business environment presents significant challenges for commercial roofing systems. Shortages and disruptions in the supply chain, coupled with a diminishing labor force, have led to uncertainty, inflation, and scheduling difficulties for many projects. However, these challenges also open doors for innovative solutions. This course explores the financial and environmental advantages of using a PVC roofing system. It also highlights the benefits of choosing a roofing system from a single supplier.

Commercial Design and Construction with Insulated Concrete Form (ICF) ( ~ 1 hour, 15 minutes ) 

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ICF construction is cost effective and sustainable, and is a superior way to build stronger, quieter, healthier, and more energy-efficient commercial structures. This course explores insulated concrete form (ICF) construction, describing the forms themselves and their construction, performance, and sustainable benefits. Also presented are design guidelines, the installation process, flooring systems, and commercial project applications.

Successful, Sustainable Precast Enclosure Projects: Designs for Education, Healthcare, Offices, and More ( ~ 1 hour ) 

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High-performance, fully composite insulated wall panels deliver all the benefits of factory precasting with load-bearing and energy efficiency performance from the lightest, thinnest panels possible. This course describes the makeup and cost efficiencies of composite precast panels, their benefits when made with carbon fiber grid shear trusses, and considerations for selecting among the insulation options. The majority of the course focuses on case studies of successful precast enclosure projects in a wide variety of building types across a range of markets.

Equipment Attachment Solutions for Standing Seam Metal Roofs ( ~ 1 hour ) 

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Not only is standing seam metal roofing (SSMR) robust and durable, but the seam itself also provides a convenient anchorage point for the mounting of rooftop equipment. This course reviews the features and advantages of SSMR in terms of durability and sustainability, and the appropriate attachment solutions for mounting equipment. The course focuses on nonpenetrating roof seam clamps and design considerations for their use with snow retention and solar panel systems.

Making the Practical and Financial Case for Sustainable Roofing Systems ( ~ 1 hour ) 

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Today’s business environment presents significant challenges for commercial roofing systems. Shortages and disruptions in the supply chain, coupled with a diminishing labor force, have led to uncertainty, inflation, and scheduling difficulties for many projects. However, these challenges also open doors for innovative solutions. This course explores the financial and environmental advantages of using a PVC roofing system. It also highlights the benefits of choosing a roofing system from a single supplier.

Advantages of Vacuum Insulation Panels (VIPs) for Building Thermal Insulation ( ~ 1 hour, 15 minutes ) 

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Vacuum insulation panels (VIPs) offer higher thermal resistance per unit thickness than traditional insulation materials. This means a building envelope can meet the effective R-values for enclosures required by the energy codes without having to increase the thickness of the walls, roof, or floors. This course discusses how VIPs work, why they are effective, and the impact the properties of the materials used to construct a VIP can have on its performance. VIP installations and the latest developments in VIP technology are reviewed to illustrate the advantages of using VIPs as thermal insulation in the design of energy-efficient buildings.

Roofs and Condensation: A Practical Approach for the Design Professional ( ~ 1 hour ) 

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With the advent of “cool” single-ply roofs featuring heat-reflective exterior surfaces and the use of mechanical attachment, new questions have emerged concerning the internal forces at play within the roofing system, especially in regard to vapor movement and the potential for moisture condensation within the roof. This course reviews the fundamentals of vapor movement in roofing systems, current roof condensation research and the tools available to assess roof condensation. It also provides the building design professional with strategies to deal effectively with moisture movement within the roofing system.

High-Performance Building Envelope Designs with Insulating Concrete Forms ( ~ 1 hour, 30 minutes ) 

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Insulating concrete form (ICF) products use a cost-effective and robust structural material option (reinforced concrete) to turn a building envelope into a high-performing thermal, moisture, and air enclosure with disaster resistance and built-in compliance with energy code requirements. As a result of ICF performance, building owners can complete a whole structure with ICFs and reinforced concrete, including intermediate suspended floors, rooftops, and multistory designs. This course examines the advancements in ICF technology and discusses the potential contribution of ICFs to supporting improved sustainability and resilience.