Optimizing Energy Efficiency and Thermal Comfort with Radiant Heating and Cooling ( ~ 1 hour ) 

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Energy conservation and occupant well-being, comfort, and productivity are issues of increasing concern in building design. This course illustrates how radiant heating and cooling systems address these issues positively and efficiently. It encompasses the various types of systems available and how they can contribute to credit requirements in the LEED® v4.1 Building Design and Construction rating system and the WELL Building Standard™ version 2. System workings, design, aesthetic considerations, advantages, testing and measuring protocols, and installation procedures are reviewed, and the course concludes with several installation examples.

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.

Beyond Fire Sprinklers: Rethinking Home Fire Protection with Water Mist ( ~ 1 hour ) 

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Fire safety and suppression are essential design features for building projects. This course explores how innovative water mist fire suppression systems can enhance occupant safety in homes while preserving aesthetics and minimizing water damage. Key design principles of electronically controlled water mist systems are examined, and their installation and maintenance are described. Also discussed is guidance for dealing with code officials when using these systems as an alternative to traditional fire sprinklers.

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.

The Role of Door Openings in Improving Resilient Design ( ~ 1 hour ) 

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Resiliency is a growing necessity. It is important to understand the impacts on the built environment resulting from natural and manmade disasters and disturbances and to design for those impacts now. Presented in this course is an overview of the benefits of using steel doors as part of a resilient design strategy for applications requiring resistance to blasts, tornadoes, and ballistics.

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 a Sustainable Masonry Cavity Wall Building Envelope ( ~ 1 hour, 30 minutes ) 

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Masonry is an ideal sustainable building construction material as it is extremely durable, recyclable, and reusable. It allows for extraordinary design versatility, so it can meet both aesthetic and functional requirements. This course looks at the design elements, components, and construction techniques that characterize sustainable masonry cavity wall building envelopes.

Reclaiming Historic Brick & Stone for Modern Applications ( ~ 1 hour ) 

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Identifying, salvaging, and reusing stone and brick is a multifaceted strategy that benefits the environment, economy, and society. It represents a practical and visionary approach to building and design that respects the past, enhances the present, and prepares for a more sustainable future. This course reviews the impact of stone and brick reclamation by examining case studies focusing on modern American architecture and interior and exterior design. The course discusses how material repurposing benefits a society increasingly concerned about environmental sustainability.

Thermally Modified Wood: Durability, Sustainability, and Current Trends ( ~ 1 hour ) 

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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.  

Global Trends in Commercial Restroom Design: Enhancing Sustainability, User Experience, & Health ( ~ 1 hour ) 

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This course examines the evolving expectations for hygiene, sustainability, and cost efficiency in commercial restroom design. Drawing on insights from a global postpandemic survey, it explores how shifting perceptions are influencing design priorities and industry standards. Learners will gain a deeper understanding of strategies and products that promote safety, occupant health, and wellness while achieving measurable environmental, cost, and time savings, and how integrating innovative solutions may help meet credit requirements in the LEED® v5 Building Design and Construction and Interior Design and Construction rating systems and the WELL Building Standard™ version 2. Lastly, real-world project examples illustrate how these considerations can be effectively integrated to enhance performance, sustainability achievements, and user experience in modern commercial restrooms.

Architectural Metal Panels & Rainscreen Systems: Attachment Planes, Testing, & Design Options ( ~ 1 hour ) 

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Properly designed and installed rainscreen systems help optimize building envelope performance. This course reviews rainscreen system types, testing, and components, with special attention given to attachment plane considerations that ensure durability and thermal efficiency. Also reviewed are the potential contributions of rainscreen systems to the LEED® v5 Building Design and Construction and Interior Design and Construction rating systems and the WELL Building Standard™ version 2. The wide array of metal panel design options presented here demonstrates the potential to create unique and striking aesthetics across a range of applications.

Integrating Air Curtains for Energy Efficiency, Indoor Air Quality, and Occupant Safety ( ~ 1 hour, 30 minutes ) 

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Air curtain units (ACUs) provide a controlled airstream across a door or opening, creating a seamless barrier between two distinct spaces while enabling smooth, uninterrupted traffic flow. Air curtains fulfill numerous purposes and provide building owners with significant energy savings. This course examines how air curtains work and how they reduce whole-building energy consumption and contribute to occupant wellness and safety. The role of air curtains in limiting the infiltration of insects, pathogens, and outside pollutants while maintaining thermal comfort and good indoor air quality is explained. ACU selection and installation considerations are also discussed.

Improving Façade Designs by Comparing Automated vs. Manual Solar Shading ( ~ 1 hour ) 

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Natural light is important in everyday life, with positive effects on one's health, well-being, and productivity. This course provides an understanding of how automated high-performance shades can provide more natural light. Current market drivers and their effects on a building's value are also discussed. The course explores how to increase visual and thermal comfort by automating the balance of natural and artificial light and outlines the role of high-performance shades in meeting sustainability standards. This course also discusses the influence of automated façades on a building’s performance.

Biophilic Design: Contributions to Green Building Certifications ( ~ 1 hour ) 

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Biophilic design is a methodology for designing buildings and landscapes that improve human health and well-being while fostering a deeper appreciation for the natural world. This course provides an overview of biophilic design and its frameworks and how it can help projects earn certification through LEED® v4.1 Building Design and Construction (BD+C): New Construction, WELL Building Standard™ version 2, Sustainable SITES Initiative® v2, and the Living Building Challenge (LBC).

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.

Booming Bamboo: The (Re)discovery of a Sustainable Material with Endless Possibilities ( ~ 1 hour ) 

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The growing global population is creating an increased demand for resources. As a result, there is a need to replace fossil-based, nonrenewable building materials with more bio-based materials, such as bamboo. This course describes the properties of bamboo that make it a more sustainable choice, including its fast growth and CO2 saving and storing potential. It also discusses how active bamboo reforestation and the use of durable bamboo products can lead to CO2 reduction across many industries.

The Importance of Acoustics in Healthcare ( ~ 1 hour ) 

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Beneficial acoustic environments are especially important in healthcare facilities as inappropriate acoustics can be damaging to patients and stressful and tiring to staff. Because a beneficial acoustic environment plays an important role in supporting health, safety, and well-being for all occupants, acoustic issues are now a key component of healthcare design guidelines. This course explores the impacts of acoustics on healthcare, outlines the relevant acoustic standards and guidelines, and describes the methods by which designers can address the issues and improve healthcare facility conditions for patients, families, and healthcare workers.

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.

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.

Universal & Sustainable: Green Hand Drying for All Abilities ( ~ 1 hour ) 

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“Sustainable” design isn’t just “environmental.” It’s design that works for and contributes to the health and welfare of all individuals as well as the planet, now and in the future. This course looks at hand dryers as part of sustainably designed restrooms and discusses how air knife hand dryers benefit the environment through energy efficiency, resource conservation, and waste reduction, and benefit all members of society by meeting ADA requirements and Universal Design principles.

Quiet by Design: Acoustic Strategies for Pickleball & Other Sport Courts ( ~ 1 hour ) 

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Architectural acoustic design focuses on managing airborne and impact sound within indoor and outdoor spaces. This course addresses the acoustic challenges associated with outdoor recreational spaces, focusing on the surge in pickleball popularity. Participants will learn the fundamentals of sound propagation in open-air environments and explore how modern acoustic products can reduce unwanted noise while maintaining functionality and the design intent. Acoustic solutions for indoor spaces requiring noise reduction are also covered, as well as the role of acoustic barriers in meeting the requirements of the LEED® v5 Building Design and Construction and Interior Design and Construction rating systems and the WELL Building Standard™ v2.

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.

Entrance Flooring Systems: Design with the Elements in Mind ( ~ 1 hour ) 

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The purpose of this course is to provide an introduction to the use of entrance floor systems in commercial buildings in order to promote a safe and clean environment. The course explains the codes, regulations, and guidelines specifically related to entrance flooring systems for high-traffic entrances in healthcare, education, transportation, corporate, and other commercial settings.

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.

Light-Manipulating Glass: Innovative & Sustainable Architectural Solutions ( ~ 1 hour ) 

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Light-manipulating glass products transport, redirect, refract, and reflect light to create architectural spaces that engage occupants with the unexpected interplay of light and shadow. This course explores these durable, functional products and their many options for customization. Also reviewed is how glass panels 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.