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.

Designing for Sustainability: Synthetic Turf and the Triple Bottom Line ( ~ 30 minutes ) 

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As synthetic turf systems evolve as functional and aesthetic landscape solutions, conversations about sustainability, particularly environmental impacts, are essential. This course addresses the sustainability of synthetic turf from the triple-bottom-line perspective: profit, people, and planet. 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.

Mastering Elevated Deck Systems for Outdoor Applications ( ~ 1 hour ) 

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In this course, we will explore the features and outdoor applications of elevated deck systems that enable architects to optimize outdoor spaces with functionality, sustainability, and aesthetic appeal, creating attractive and safe spaces for occupants. This course covers the system components for practical applications in various settings, offering insights into proprietary pedestal systems.

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.

Metal Roofing Color Considerations to Save Energy & Meet Green Building Requirements ( ~ 1 hour ) 

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Metal roofing offers longevity, durability, and visual appeal. Today, a range of color and finish options are available that afford specifiers broad design flexibility. This course explores key solar reflectance and sustainability considerations when evaluating metal roofing colors and how selection relates to requirements in codes and green building programs such as LEED® v4.1 Building Design and Construction, Sustainable SITES Initiative® v2, and the WELL Building Standard™ version 2. Case studies demonstrate how metal roofing colors have been used to meet design and sustainability objectives.

Sustainable Waterproofing Solutions ( ~ 1 hour ) 

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Concrete is a very versatile and fundamental building material; however, because it is porous and wicks water through its matrix, concrete has water-related design challenges. This program examines the sustainable benefits of integral concrete waterproofing and analyzes traditional waterproofing methods as compared to integral methods in terms of performance, durability, risk, cost, and construction timeline.

Moisture Management & Sustainable Rainscreen Wall Systems ( ~ 1 hour ) 

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Rain control is a critical aspect of building envelope construction, affecting a building’s structural integrity and occupant health. This course presents the rainscreen wall system as an effective strategy for moisture management, as reflected in the WELL Building Standard™ version 2. Discussed are the fundamentals of moisture control in buildings, the history of rainscreens, rainscreen design principles, and cladding material selection, including potential contributions to credit achievement in the LEED® v5 Building Design and Construction (BD+C) rating system.

Single-Skin Metal Panels and LEED^® Standards and Certification ( ~ 1 hour ) 

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As the market continues to transform the way sustainable buildings are designed, single-skin metal roof and siding products are at the forefront of contributing to healthier built environments. This course breaks down the material inputs and sustainable attributes of single-skin metal roof and siding panels and includes an overview of how the panels can contribute toward earning several LEED ® for Building Design and Construction credits in v4.1.

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.

Design Story: Making Space ( ~ 1 hour ) 

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The interior design industry will play a critical role in meeting the challenges of our increasingly changing world. However, the current practice of design is flawed and becoming increasingly marginalized by standard operating procedures. Business-as-usual approaches challenge effective responses to the diverse and evolving needs of humanity. Life happens in all the spaces we create. Without design, the way we experience living and each other would be drastically different. Beyond outcomes and aesthetics, what would reframing design to consider the diversity of our modern world look like? Learn how it would impact our creative processes and representation of "good design." Join the conversation to explore and see our industry through a new lens that will change the way you see design forever.

Unlocking Wastewater's Potential ( ~ 1 hour ) 

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What is wastewater energy recovery and how does it apply to the future of energy efficiency and decarbonization? In this course, we will explore how this previously overlooked source of energy loss from buildings can be utilized to endlessly recover and recycle energy within projects ranging from individual multifamily residential buildings to commercial and industrial applications and even to district energy networks. Wastewater heat recovery and transfer technologies used in small- and large-scale applications are also discussed, with case studies showcasing the practical applications and garnered benefits.

Community Functional Resilience ( ~ 1 hour ) 

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With the global rise in natural disasters and the increasing need for sustainable environments, resiliency has become a necessity in the design and building industries. This course provides an overview of resilient design, how it relates to building codes and standards, and the role it plays in ensuring the safety and sustainability of the built environment. It examines the role masonry construction plays in meeting resilient design goals and the inherent properties of masonry that make it resilient and provides examples and case studies of resilient design strategies.

The Next Generation of Concrete Masonry ( ~ 1 hour ) 

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The inherent properties of concrete masonry, including strength, durability, and fire safety, have been well documented, though a perception of high cost persists. Due to significant changes to codes and standards that increased the flexibility of concrete masonry structural design, this construction method may also offer cost-effective and energy-efficient alternative solutions. This course reviews changes to ASTM C90 and the masonry design standard and includes a discussion on the benefits and opportunities these requirements bring.

Drinking Water Filtration: A Changing Landscape ( ~ 1 hour ) 

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Many communities face challenges related to the presence of harmful pollutants in their drinking water supply. This course examines the issues associated with these contaminants, focusing on lead, per- and polyfluoroalkyl substances (PFAS), and microplastics. It also discusses the government’s response to providing clean, safe water and innovations in point-of-use filtration systems designed to reduce toxic substances in drinking water and minimize the environmental impact of disposable plastic water bottles.

Metal Roofing Fundamentals ( ~ 1 hour ) 

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A properly designed roof is a building’s primary shield, safeguarding everything beneath it. Presented are metal roofing substrates, their advantages and drawbacks, and material compatibility. Also discussed are metal roofing configurations, finishes and coatings, and roofing system components. Design considerations, including expansion and contraction, fasteners, climate/regional weather, fire resistance, cool roof designs, and structural weight, are reviewed.

Thermal Spacers for Code Compliance and Improved Energy Efficiency in Metal Buildings ( ~ 1 hour, 30 minutes ) 

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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.

PMR Roofs: Designing for Sustainability ( ~ 1 hour, 15 minutes ) 

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According to building professionals, the solution to achieving an energy-efficient building envelope is to focus more on the roof. Protected membrane roof (PMR) assemblies deliver thermal efficiency and can play a valuable role in a sustainable design strategy. Presented in this course is a review of the components, advantages, ballast options, and design and installation considerations of PMR assemblies.

Concrete Waterproofing and Protection with Crystalline and Antimicrobial Technology ( ~ 1 hour ) 

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Concrete structures often face some of the most challenging environments, where chemical reactions can rapidly cause erosion and reduced service life. This course explores how acid attack, microbially induced corrosion (MIC), and carbonation compromise the structural integrity of concrete. It covers the origins and damaging effects of these processes, such as cracking, spalling, and corrosion. Learners will discover waterproofing strategies that prevent deterioration through performance-based admixtures that combine antimicrobial and crystalline technologies, along with a visual detection system for on-site verification. Designers will be better equipped to specify protective measures that extend the service life of concrete structures, reduce long-term maintenance, and lower the project’s carbon footprint.

The Role of Composite Cladding in Superior Building Envelope Design and Performance ( ~ 1 hour ) 

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Wood-plastic composite cladding offers a pleasing aesthetic and exceptional durability as part of a rainscreen assembly, enhancing the performance and longevity of the building envelope. Presented here are the functions and components of Lstiburek’s “perfect (universal) wall” design and a drained and ventilated rainscreen assembly. The course explores the composition, manufacture, benefits, design possibilities, and installation of wood-plastic composite cladding, as well as compliance with building codes and standards.

Selecting and Specifying a Railing System ( ~ 1 hour ) 

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Architectural railing systems offer safety, durability, strength, and design flexibility for a variety of indoor and outdoor applications. This course provides an overview of the important factors that need to be considered when selecting and specifying a railing system for a commercial or residential building project. Topics include materials and finishes, fabrication and installation, and relevant building codes and standards.

The Importance of Balanced Ventilation with Energy Recovery Ventilators (ERVs) ( ~ 1 hour ) 

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An energy recovery ventilator (ERV) system provides occupants with filtered, balanced, and tempered air within their living space. Airborne contaminants can be greatly reduced with ERV systems. This course provides knowledge about the need, use, design, and installation of ERVs in the modern dwelling unit and when retrofitting existing structures. The course also addresses the environmental advantages of sustainable and healthy solutions for indoor air quality.

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

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Selecting a countertop surface today, whether for a break lounge or a reception desk, means weighing the relative sustainability of the choices while considering whether the material meets the design objectives of the space. This course will help you decide whether quartz surfacing does that. We will review its performance characteristics and environmental and human health impacts, compare it to other options, and guide selection and design.

Specifying Glazing Systems for Performance & Sustainability ( ~ 1 hour ) 

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Architectural glazing systems are vital to building performance, influencing energy efficiency, structural integrity, and aesthetics. This course compares storefront and curtain wall systems, explores performance optimization strategies, and examines their contribution to sustainability. Participants will gain the technical knowledge needed to develop effective product specifications.

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.

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.