Trench Drain Systems: Fundamentals, Aesthetics, and Sustainability ( ~ 1 hour ) 

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Buildings, roads, and man-made landscapes can harm the natural environment with their effect on the natural water cycle. Architects and designers need to be aware of the best practices and experts’ recommendations to specify the correct type of drainage system that serves users and protects the environment. This course discusses the positive contributions of modern drainage systems to the built environment and their role in improving sustainability. The technical and aesthetic aspects of trench drain design are also covered.

Soundproofing Simplified ( ~ 1 hour ) 

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Noise negatively impacts human health, making sound control crucial in multifamily housing and various commercial applications. This course reviews airborne and impact sound, the key elements of soundproofing, and the role of high-performance wood fiber soundproofing products in providing effective noise control. Additionally, it discusses how these solutions contribute to meeting requirements of the LEED® v5 Building Design and Construction (BD+C) and Interior Design and Construction (ID+C) rating systems and the WELL Building Standard version 2.

Fast, Scalable, Economical: The Benefits of Building with an Innovative Cold-Formed Steel (CFS) Framing System ( ~ 1 hour ) 

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Extreme weather events of all sorts are becoming increasingly frequent and ferocious. Wood stick-framed structures struggle to withstand them. As climate behavior shifts and worsens, building damage and destruction increase, building codes evolve, and insurance premiums skyrocket or simply become unavailable for certain building types in some locations. Architects must now utilize stronger, more resilient, noncombustible building approaches to address this situation. In addition, mounting pressures related to labor shortages, rising material costs, stringent building codes, and environmental volatility are pushing architects, developers, and engineers to reimagine their approaches to structural design and material selection. This course explores how an innovative, scalable, and economical cold-formed steel column and composite beam framing system can and does address these issues to create faster and deliver stronger, more cost-effective, and sustainable projects. This well-proven, code compliant system reduces dependencies on multiple trades and minimizes the number of handoffs, positively impacting schedule compression, which then translates directly into earlier openings, faster revenue generation, and reduced labor costs. The system is applicable to a range of housing, hotel, and commercial midrise projects in all climates. The course begins by exploring the limitations of traditional wood and metal framing systems. It then describes this prefabricated cold-formed steel (CFS) column and beam framing system and its details, erection methodology, advantages, environmental and sustainability benefits, accreditations, and certifications. It concludes with some representative examples of real-life projects.

Acoustic Door Assemblies and Their Role in Sound Control ( ~ 1 hour ) 

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Sound control is a critical element in a building’s design. We all think of the walls, ceiling, and floor when discussing sound attenuation, but without the proper acoustic door, the sound-control goals in an acoustic plan may not be met. This course reviews healthy sound levels and how to test and identify target STC ratings. Also discussed are the elements of acoustic door assemblies and how they address fire ratings and ADA compliance, contribute to LEED® certification and green building, and provide security for classified files and electronic data.

Operable Walls for Sustainable Design ( ~ 1 hour ) 

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Operable wall systems integrate the indoors and outdoors and define interior spaces, providing flexibility and additional usable area without increasing a building’s footprint. Occupants benefit from expansive daylighting and views as well as quick access to fresh air. This course describes the types of operable wall systems, how they contribute to sustainable design, and the various options and considerations for selecting the correct system.

Advanced Cellulose Insulation: Quiet, Comfortable, Safe, and Sustainable ( ~ 1 hour ) 

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Cellulose insulation has been used successfully by builders and designers for hundreds of years to provide comfort and warmth. Today, builders and designers also consider sustainability principles, climate change, occupant health and wellness issues, energy conservation, and carbon sequestration. Advanced cellulose insulation addresses all those areas as well. This course explains its environmental benefits, including its carbon capture ability, how it improves occupant health and well-being, and its numerous high-performance thermal, acoustic, and fire-resistant attributes.

Office to Residential Building Conversions: Feasibility and Plumbing Retrofit ( ~ 1 hour ) 

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With office vacancies rising amid changes in technology and the growth of working from home during the COVID pandemic, the practice of converting office buildings into residential spaces such as apartments, condominiums, and hotels has been embraced by communities and all levels of government as a solution to the housing crisis. This course examines the factors behind these conversions, with emphasis on the use of in-wall toilet systems as a solution to design, economic, and sustainability concerns.

Embodied Carbon and the Building Envelope ( ~ 1 hour ) 

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In the fight against climate change, efforts intensify against the planet’s number one enemy—carbon dioxide. The building industry will play a significant role in these efforts. Embodied carbon—the global greenhouse gas emissions generated from sourcing raw material and processing, manufacturing, transporting, and installing building materials—will be the target over the next decade. This course will define embodied carbon, its impact on greenhouse gas emissions, the construction industry's impact, and the methods and tools that building designers can employ to limit embodied carbon.

Concrete Grid Pavements: Design, Construction, Performance, & Maintenance ( ~ 1 hour ) 

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As impervious land cover increases, so does the need for stormwater management. Concrete grid pavements provide increased infiltration rates, positively affecting runoff flow while decreasing erosion. This course introduces the range of grid pavement and erosion control applications and provides design and construction guidelines. Environmental performance is defined via conclusions from several research projects. Concrete grid pavements require minimal maintenance when properly designed and installed in appropriate applications. This course also includes an overview of how concrete grid paving units can be used to meet a number of LEED® v4.1 BD+C credit requirements.

Benefiting from Mixed-Mode Ventilation with Operable Skylights, Windows, and Doors ( ~ 1 hour ) 

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Designers, building users, and managers are increasingly focused on building and occupant health as well as energy conservation. This course explores how mixed-mode (hybrid) ventilation systems address all these issues by improving the ratio of fresh air introduced into buildings while reducing energy needs and costs. It describes the benefits, elements, and workings of these systems and provides design guidance and illustrative case studies.

Synthetic Surfacing for Rooftops: Elevating the Outdoor Experience ( ~ 30 minutes ) 

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As cities continue to grow, incorporating synthetic surfacing into rooftop spaces offers a safe, practical, and innovative solution to creating more livable, attractive, and resilient urban environments. The course explores synthetic rooftop surfacing, including its applications; environmental, health, and safety benefits; and product, manufacturer, and installer certifications. Also discussed is how synthetic turf can contribute to achieving certification in LEED® v4.1 Building Design and Construction, Sustainable SITES Initiative® v2, and the WELL Building Standard™ version 2.

Thermal Bridging & Thermal Break Solutions ( ~ 1 hour, 15 minutes ) 

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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.

Fundamentals of Sustainable, Energy-Efficient PVC & KEE Single-Ply Roofing Membranes ( ~ 1 hour ) 

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PVC and KEE single-ply roofing membranes are widely used in sustainable building design due to their durability, material efficiency, and recyclability. This course provides an overview of installation, warranties, and maintenance requirements and explores the role of membranes in reflective and vegetated roof systems. Also examined are their potential contributions toward LEED® v5 Building Design and Construction and Sustainable SITES® v2 credits addressing urban heat island mitigation, solar panel readiness, stormwater management, and construction and demolition waste reduction.

Using Thermally Modified Wood in Building Design ( ~ 1 hour ) 

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Thermal modification is a tried and tested process for increasing the durability of wood while maintaining a warm aesthetic in building design. This course examines all aspects of this sustainable wood product and how it can be incorporated into a variety of projects.

Green Turfgrass: Sustainable Practices, Innovative Solutions, and Selection Strategies for Warm-Season Natural Grass ( ~ 1 hour, 15 minutes ) 

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This course is designed to educate and raise awareness among landscapers and architects to assist them in making correct turfgrass selections for their projects. The focus is on warm-season sod turfgrasses suited for the southern and midsection tiers of the United States. The selection criteria and best practices for sodding and maintaining turfgrass are reviewed, along with an introduction to proprietary cultivars designed to offer improved aesthetics, greater tolerances, and fewer inputs.

Looping in Sustainability: Choose Materials That Support the Health of People and the Planet ( ~ 1 hour ) 

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The AIA Materials Pledge identifies five impact areas that building products and materials can and should address: ecosystem health, social health and equity, circular economy, climate health, and human health. This course reviews the concepts, certifications, and tools designers can apply to choose materials that support these five impact areas, including the mindful MATERIALS Common Materials Framework (CMF), the industry’s first common language for sustainable building materials. Finally, the course presents practical examples of exemplary products and materials and assesses them using this framework.

Designing for Access: A Guide to ADA Standards for Plumbing Fixtures ( ~ 1 hour ) 

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Restrooms and other plumbing applications must comply with accessibility regulations, but do you know exactly how to do that? This course is a handy reference that explains what codes and regulations you must satisfy, when those requirements apply to new construction and alterations, and how to select and install fixtures to meet accessibility standards and the requirements of the LEED® v5 for Building Design and Construction and Interior Design and Construction rating systems and the WELL Building Standard™ v2.

ADA Compliance for Door Hardware ( ~ 1 hour ) 

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The intent of the Americans with Disabilities Act (ADA) is to ensure that individuals with disabilities have the same rights and opportunities as everyone else and are afforded equal access to the built environment. This course discusses the need for compliance with accessibility regulations and how businesses can benefit from it. It explores the ADA, criteria for perimeter and interior access, accessible design requirements for door and doorway components, and relevant codes, standards, and design guidelines.

Air Curtains: Energy Savings & Occupant Comfort ( ~ 1 hour, 15 minutes ) 

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An air curtain, also known as an air door, employs a controlled stream of air aimed across an opening to create an air seal. This seal separates different environments while allowing a smooth, unhindered flow of traffic and unobstructed vision through the opening. This course discusses how air curtains work and why they can contribute to occupant comfort, energy efficiency, and indoor air quality when the door is open. It also reviews how air curtains improve whole-building energy efficiency versus conventional methods.

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.

Utilizing EPD Output to Inform Sustainable Site Furniture Selection ( ~ 1 hour ) 

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Third-party environmental product declarations (EPDs), using a life-cycle analysis (LCA) approach, provide a comprehensive analysis and quantification of a product’s sustainability. This course examines how EPDs can inform sustainable site furniture selection and how the use of sustainable site furniture can contribute to meeting various credit requirements of LEED® v4.1 Building Design and Construction, Sustainable SITES Initiative® v2, and the WELL Building Standard™ version 2.

Polycarbonate Glazing Systems: An Energy-Efficient Daylighting Solution ( ~ 1 hour ) 

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Multiwall polycarbonate is an extremely versatile glazing material with high impact strength, excellent thermal insulation, and long-term light transmission. Compared to glass, it is much lighter and easier to handle, offering considerable savings in transportation, labor, and building costs. This course examines how multiwall polycarbonate systems can improve thermal energy efficiency and increase daylighting within a space, enhancing occupant productivity, health, and well-being.

Light-Manipulating Materials: Engaging, Biophilic, & Sustainable ( ~ 1 hour, 30 minutes ) 

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Light-manipulating materials use internal channels to capture, bend, scatter, and redirect light and create visually stunning spaces. Panels and slabs in resin, glass, and terrazzo make an experiential surface for privacy screens or signage, primary or accent lighting, and countertops or flooring—anywhere the interplay of light and shadow is desired for beauty and inspiration. This course describes the different types of light-manipulating materials and substrates, design and installation options, and the contributions of these products to sustainability goals as well as occupant health, well-being, and engagement in a wide range of dynamic, unique applications.

Wood Acoustics: Natural Solutions for Noise Control ( ~ 1 hour ) 

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Wood is not only visually appealing; it plays a vital role in shaping acoustics. This course examines the acoustic properties of wood and its applications in wood-based architectural solutions, focusing on how acoustic wood products can help control noise in commercial and residential environments. Also reviewed is how these products support sustainable design objectives, including their role in meeting the criteria of the LEED® v5 Building Design and Construction and Interior Design and Construction rating systems, as well as the WELL Building Standard™ v2. The presentation features design strategies and case studies that illustrate the effectiveness of acoustic wood products in achieving superior performance.

High-Performance Coatings and Exterior Restorations ( ~ 1 hour ) 

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High-performance coatings are a necessity when it comes to protecting building exteriors and restoring them after harsh weathering and UV degradation; the right coatings prolong a building exterior’s life span and divert materials from landfills. New PVDF coating systems provide superior protection while satisfying aesthetic and environmental considerations. Their various characteristics and benefits are explored, and application methods are discussed.