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.

Sun Control Devices for Energy-Efficient Design ( ~ 1 hour ) 

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Exterior shading devices offer a number of advantages that contribute to a more sustainable building, including minimizing cooling costs, reducing peak electricity demand, and controlling glare. These benefits result in greater occupant comfort and improved productivity. This course provides a review of exterior aluminum shading device systems, including the components, finishes, and design and engineering considerations, as well as a discussion of how shading strategies contribute to LEED® certification.

Rooftop Solar Photovoltaic Systems: The Good, the Bad, & the Ugly ( ~ 1 hour ) 

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A rooftop solar photovoltaic system offers myriad benefits to both building owners and the environment; to maximize the benefits, however, it is important to be aware of the potential causes and effects of problems with rooftop installations. This course presents the issues to consider to prevent damaging the roof, voiding the roofing warranty, and incurring additional costs. Solar system mounting options are explored in terms of how they can help eliminate concerns around rooftop installations.

Designing Sustainable Materials for Building Integration (Recorded Webinar) ( ~ 1 hour ) 

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The 2022 Inflation Reduction Act shines a light on how low-carbon building material selection is one of the keys to reducing greenhouse gas emissions in the US. High-performance, sustainable products and thoughtful assemblies designed with the building life cycle in mind are critical to the future of our sustainable communities. This course provides a look at how low-carbon and sustainability considerations are activated from product to building design. Factors impacting a sustainable building life cycle are discussed to help architects and owners with building performance that meets the design intent not just on paper but also in use.

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.

Elevating Roof Deck Design with Walkable, Waterproof Vinyl Membranes ( ~ 1 hour ) 

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Vinyl membrane decking can prolong the life cycle of various building components; however, performance and durability depend on vinyl membrane selection, specification, and installation. Fortunately, vinyl membrane manufacturers can support architects, contractors, and specifiers through all phases of the project to ensure a successful outcome. This course examines walkable, waterproof roof deck membranes and roofing systems and includes discussions on system characteristics, design considerations, and how to properly specify roof deck membrane systems. 

Mastering Sustainable Concrete: On the Road to Net-Zero Construction ( ~ 1 hour ) 

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Concrete is a key construction material in modern society. As the foundation for much of what we make, it has a substantial environmental impact, mainly reflected in its carbon footprint. This course introduces best practices to make concrete more sustainable and lower the embodied carbon in concrete with its use and application.

Sectional Door Systems & the Importance of Thermal Performance ( ~ 1 hour ) 

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Often the largest access point in a building, sectional door systems play a significant role in controlling energy costs and supporting sustainable design in residential and commercial buildings. This course explores the specification considerations and the different types of sectional garage doors, as well as their role in enhancing the thermal performance of homes and commercial buildings.

Enhancing the Built Environment: The Role of Modular Wall Systems ( ~ 1 hour ) 

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Modular wall systems provide a versatile and customizable approach to biophilic design, seamlessly integrating with existing infrastructure and adapting to evolving requirements. This course delves into their benefits, features, specification and installation considerations, and applications encompassing various environments, from urban streetscapes and public parks to commercial spaces, rooftops, and residential areas.

Designing with Modular Refrigeration: Trends Shaping the Modern Kitchen ( ~ 1 hour ) 

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Kitchens have evolved significantly over time, and so has the role of refrigeration in the home; a variety of factors are contributing to this change. This course explores the social, economic, and demographic trends that are reshaping kitchen spaces. It also discusses the latest kitchen design trends and highlights modular refrigeration as a key design element in creating functional spaces that reflect the changing dynamics of modern households.

Accessibility: Six Key Lessons for Navigating Compliance Requirements ( ~ 1 hour ) 

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The primary objective when designing accessible spaces is to ensure that everyone can access all services and offerings provided by the built environment. This course outlines important lessons to help prevent noncompliance with the Americans with Disabilities Act (ADA). By understanding the ADA’s key principles and requirements, designers and architects can create inclusive environments that accommodate individuals with disabilities while mitigating legal risks.

Louver Design & Performance: From Basic to Extreme ( ~ 1 hour ) 

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While providing fresh air intake and exhaust, reducing noise, and keeping out unwanted water and debris, louvers can also provide architectural style to a building design. This course discusses the aesthetics, performance, and weather resistance features of a variety of louver designs from the basic to the extreme. A discussion about the industry standards and test protocols for louver performance is included.

Porcelain Surface: A Design Professional’s Guide ( ~ 1 hour ) 

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This course introduces the learner to the benefits and design advantages of porcelain surface material for both indoor and outdoor use in residential and commercial projects. Since it is a relatively new material in the US, we will review its components and manufacture and how they result in a product with exceptional characteristics for human health and durability. We'll also show and discuss indoor and outdoor applications, the variations available for vertical and horizontal applications, and the many design options. Finally, we’ll help the learner understand what is needed to design with this material and how to work with a fabricator.

Metal Roof & Wall Systems: Specifying for Aesthetics, Durability, and Energy Efficiency ( ~ 1 hour ) 

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Standing seam metal roofing has been used successfully in the United States for centuries, and proper specification is key to realizing its intended performance. Examined here are: the factors driving the demand for standing seam metal roof and wall systems; standing seam panel basics; gauge and grade; oil canning; specification considerations; testing standards; and forming, delivery, storage, handling and warranty.

Redwood Lumber & Timbers: Advanced Specification Details ( ~ 1 hour ) 

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Redwood lumber and timbers from sustainably managed and harvested forests offer warmth, durability, and strength in indoor and outdoor projects. This course covers the performance characteristics, environmental benefits, and applications of Redwood, including several case studies that highlight the beauty and versatility of Redwood products. Details are presented on differentiating the grades of Redwood, specifying the right grade for the project type, and the specification resources that are available.

Panel Radiators: The Modern Radiator Solution ( ~ 1 hour ) 

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Modern hydronic radiator systems are an energy-efficient, healthy, and hygienic solution for residential and commercial applications. This course discusses the principles of radiant heating and panel radiators, and how to size panel radiators for residential applications.

Achieve Net Zero Building Goals with Carbon Fiber Reinforced Precast Sandwich Walls ( ~ 1 hour ) 

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Concrete is an essential part of modern buildings. As net zero energy buildings become more common, it is crucial to find ways to reduce concrete’s carbon footprint without losing the performance characteristics that make it valuable to the building team. This course explains the sources of concrete’s carbon footprint and explores strategies for reducing embodied carbon and operational carbon in precast sandwich wall panels and insulated architectural cladding.

Low-Carbon Concrete Solutions for a Sustainable Future ( ~ 1 hour ) 

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The strength, versatility, local availability, and ease of use of concrete help make it the most consumed manufactured substance in the world. Concrete also offers sustainability and resilience benefits: a long lifespan, low maintenance needs, durability against natural disasters, high-albedo surfaces, smoother and stiffer pavement, carbon sequestration capabilities, and increased building energy efficiency. This course describes some of the new technologies that continue to evolve to produce concrete with the same performance and benefits as traditional concrete but with a lower carbon footprint. Also discussed is how to specify low-carbon concrete using EPDs, a carbon budget, and performance-based specifications and how it can contribute to the Building Design and Construction rating systems of LEED® v4.1 and the upcoming LEED v5.

Mind the Gap: Closing Design Barriers in Outdoor Spaces ( ~ 1 hour ) 

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This course examines how inclusive outdoor environments and well-designed site furnishings can promote health, safety, and well-being for all individuals. While everyone can benefit from being outdoors, many people experience exclusion due to design barriers in public spaces. Learners will explore strategies and furniture specifications, including layout and materials, that support accessible and inclusive design and contribute to LEED® v5 Building Design and Construction (BD+C), WELL Building Standard™ v2, and SITES® v2 goals. Case studies highlight real-world applications in communities, school campuses, and public spaces. 

Designing with Nature’s Building Block: Embracing the Dynamics of Wood Movement ( ~ 1 hour ) 

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Wood is a sustainable building material that must be properly detailed to reach its full performance and durability potential. This course explores the intricate relationship between wood and water, providing insights into moisture management strategies crucial for achieving durability in exterior wood installations. Discussions include the natural properties of wood, dynamics of wood movement, wood drying processes, rainscreen principles, and designing for wood movement in cladding and decking applications.

Architectural Bamboo: Beautiful & Sustainable ( ~ 1 hour ) 

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Bamboo is a versatile, strong material with a warm aesthetic that suits an array of interior design styles. This course looks at how bamboo is sustainably sourced to produce low-VOC products such as flooring, cladding, and three-ply architectural wall and ceiling panels. Project examples highlight a CNC routing method that produces panels with eye-catching patterns of varying depths and levels of intricacy. The course also examines how bamboo products may apply to several credits and features in the LEED® v4.1 Building Design and Construction and Interior Design and Construction rating systems and the WELL Building Standard™ version 2.

Designing High-Performance Data Centers for Intelligent Buildings ( ~ 1 hour, 15 minutes ) 

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Today’s buildings are evolving from independently functioning structures to intelligent buildings that interact with occupants and surrounding buildings. This trend has impacted the design, operation, and maintenance of data centers around the globe due to the increased demand for data and digital communication and has resulted in more high-performance data centers. This presentation addresses the specific needs of data centers and presents high-performance design solutions that support sustainable design.

Laminated Rigid PVC Exterior and Interior Panel Systems for Sustainable Design ( ~ 1 hour ) 

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Vinyl has long been a material of choice for construction products for interiors and exteriors because of its durability, cleanability, affordability, and suitability for a vast range of applications. This course furthers the conversation by discussing vinyl’s recyclability and sustainability and the attributes of laminated rigid PVC exterior and interior wall panels and siding and soffit products.

How to Achieve Superior Building Envelope Performance in Rainscreen Wall Design ( ~ 1 hour, 30 minutes ) 

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The building envelope must withstand the effects of long-term exposure to the elements. This course explores rainscreen wall design and the control of hygrothermal loads. The traditional multicomponent backup wall assembly is compared with the single-component, insulated metal composite backup wall system, outlining key differences in design and construction and their overall effect on installation and performance.

Contemporary Residential Lighting Controls ( ~ 1 hour ) 

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Lighting controls allow homeowners to adjust lamps and light fixtures from anywhere in the home without special wiring or expensive master controllers. Lighting controls can be integrated into a home for single-room, multiroom, whole-house, or automated systems. This course discusses the role of lighting in design and occupant comfort and then outlines how lighting controls can benefit occupant behavior, health, and productivity and the appeal and performance of the home, especially regarding energy efficiency.