Top-Down Design for Green Streets ( ~ 1 hour ) 

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Trees are essential for the health of the urban environment, mitigating the heat island effect, cleaning the air, reducing stormwater runoff, and improving residents’ health and well-being. But cities are often inhospitable to trees, where their growth may be stunted or their roots may damage surrounding infrastructure. This course explores ways to design successful projects incorporating green infrastructure by understanding the principles behind tree growth, proper type and amount of soil, water management, and the role of soil vault systems in helping urban trees thrive.

Sustainable Design Using Highly Insulated Diffused Natural Daylight ( ~ 1 hour, 15 minutes ) 

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The diffuse light-transmitting and composite technology of translucent structural sandwich panels has increasingly caught the imagination of architects and designers because it is possible to maximize wall or roof daylighting while minimizing energy loss, with consequent savings in the running costs of heating, air conditioning, and artificial lighting. This course explores the fundamental connection between light and health by examining how translucent structural sandwich panels deliver glare-free, diffuse daylight deeper and more evenly into spaces with maximum thermal efficiency.

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.

Eastern White Pine: Sustainable Versatility ( ~ 1 hour ) 

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Through sustainable management, the forests of New England have had a remarkable comeback since the 1830s, with eastern white pine being the most represented softwood in these forests. This light, yet strong wood species has been used for generations and today, meets the requirements of a renewable and sustainable building material. This course reviews eastern white pine’s contribution to sustainability, its grading rules, wood products, and many applications.

Wood-Patterned Aluminum Products: Innovative Design Solutions ( ~ 1 hour ) 

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Leading aluminum extrusion manufacturers have established a variety of methods pertaining to material grade, surface protection, and component solutions to maximize the benefits of aluminum to suit a wide variety of applications. These advancements in technology have led to the development of sustainable wood-patterned aluminum products designed for exterior and interior applications. This course focuses on how these products can be used as a beautiful, high-performance, durable alternative for real wood in a range of applications, including screens, facades, decking, fencing, gates, cladding, and more.

Designing with Purpose: Multifunction Taps for Cleaner, Greener Living and Working ( ~ 1 hour ) 

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This course explores how multifunction tap systems combine a selection of filtered boiling, chilled, and sparkling water within a single, energy-efficient fixture. Learners will examine how this innovative solution supports healthier, more sustainable living and working environments and review real-world commercial and residential applications, highlighting the tap’s aesthetic versatility and impact in modern, design-conscious settings. 

Current Approaches to Sustainable Community Planning, Part 2 ( ~ 1 hour, 30 minutes ) 

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The principles, tools, and techniques for sustainable community planning (SCP) outlined in Part 1 of this course have evolved into various approaches to the actual implementation of SCP around the world. These approaches have been developed in response to local context and in communities ranging in size and form from large cities to small ecovillages and housing clusters. Part 2 of this course describes a number of these approaches for both land and water and also suggests a means of integrating them into a single, comprehensive planning model. The course concludes with case studies of a range of built sustainable community examples and planning exercises and includes some of the lessons learned.

Daylight and Window Management with Automated Controls ( ~ 1 hour ) 

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Automated-shading systems are designed to maximize natural daylight, increase building energy efficiency, and ensure occupants have a comfortable environment with views to the outside. This course will explain how an automated shading system predicts, monitors, and responds to the daily microclimate surrounding a building to effectively manage daylight, solar-heat gain, occupant comfort levels, and energy use demands.

Customization, Flexibility, and Sustainability with Vertical Opening Solutions ( ~ 1 hour ) 

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Vertical-lift doors and windows enhance the functionality and convenience of many types of spaces, and when offered with an array of innovative customization options, the result is a unique, aesthetically pleasing opening that can transform any residential or commercial design. This course reviews the types of openings and lifting systems, safety features, and design options. Also addressed are the sustainability benefits that can contribute toward credit fulfillment in the LEED® v4.1 Building Design and Construction and Interior Design and Construction rating systems, as well as in the WELL Building Standard™ v2.

An Introduction to Architectural Aluminum Products ( ~ 1 hour ) 

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As the architectural industry shifts toward more sustainable, low-maintenance materials, aluminum has emerged as a preferred choice for its eco-friendly properties, design versatility, and long-lasting performance. This course explores its manufacturing and installation processes, durable finishes, and wide-ranging applications, including cladding, soffits, battens, fencing, gates, screens, and pergolas. Discover how aluminum helps architects elevate design while meeting sustainability goals, particularly those of the LEED® v4.1 Building Design and Construction green building rating system.

Sustainable Curb Appeal ( ~ 1 hour ) 

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The materials we use have a significant impact on the environment, our communities, and our health. Consequently, material transparency—wherein manufacturers disclose vital sustainability information about their products—is an increasingly necessary element of modern life. This course examines the tools and resources that are available for both manufacturers and the A&D community that effectively communicate transparency information and optimization of building products. Also reviewed are the benefits of the new-generation insulated metal panels (IMPs) designed to achieve a trusted range of health and wellness certifications.

Maximizing Envelope Performance with IMP-Integrated Components ( ~ 1 hour ) 

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The facade is one of the most significant contributors to the energy consumption and comfort parameters of any building. This course explores high-performance building envelopes and the use of advanced insulated metal panel systems featuring integrated daylighting and ventilation components that combine to provide weathertightness and maximum thermal performance.

Architectural Resin Solutions for Light, Color, & Pattern ( ~ 1 hour ) 

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Architectural resin panels are engineered to suit the demands of a wide array of interior and exterior applications and offer almost unlimited combinations of color, pattern, and design. This course presents the features and options that allow resin panels to meet design requirements for both function and beauty and discusses how resin panels may play a role in projects seeking LEED® v4 BD+C, ID+C, and O+M; Living Building ChallengeSM v3.1; or WELL Building Standard® v1 certification.

Sustainable Design With Recycled Rubber Surfaces ( ~ 1 hour ) 

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Recycled rubber flooring is an environmentally responsible material that outlasts many types of traditional commercial flooring products when exposed to normal foot traffic stress. Interior and exterior recycled rubber surfacing products are explored in terms of their sustainable design benefits and applications. The program includes discussions on rubber manufacturing, postconsumer tires, and green building certification systems.

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.

High Efficiency and Low Carbon with IMPs ( ~ 1 hour ) 

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Architects and other design professionals have a critical role to play in reducing global greenhouse gas emissions through building design and product selection. The urgent need to reduce both operational and embodied carbon means that building designers must be familiar with transparency documents that facilitate low-carbon product selection. In this course, we review the types of carbon of concern, transparency documents that provide critical information, and tools for sourcing embodied carbon information. We also look at the contribution of insulated metal panels to both low embodied and low operational carbon buildings.

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.

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.

Touch-Free, Hygienic, and Sustainable Hand-Drying Solutions for Commercial Restrooms ( ~ 1 hour, 15 minutes ) 

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According to the U.S. Centers for Disease Control and Prevention (CDC), handwashing is one of the best and easiest ways to prevent the spread of germs. However, drying hands is just as important as washing them. This course introduces the reader to the main features of air knife hand dryers and discusses how their technical components, such as high-efficiency particulate (HEPA) filtration, touch-free operation, and fast dry times, contribute to their hygienic performance.

Acoustics and Noise Control in Building Design ( ~ 1 hour ) 

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In designing successful interior building spaces that positively impact their occupants, it is critical to have knowledge of the principles of acoustics and noise control and link them to design methodology. This course explores these principles, with a special emphasis on common building types where acoustics and noise control are often required and noise can have detrimental effects on users, such as athletic facilities and performance spaces.

Natural Beauty: Design with Biophilic Principles to Promote Occupant Well-Being ( ~ 1 hour, 15 minutes ) 

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One of the most important concepts behind biophilia is the “urge to affiliate with other forms of life” (E.O. Wilson). Humans are connected to nature, inspired by nature, and desire to be harmonized with nature. This course discusses the main principles of biophilic design and explains how a connection with nature benefits human well-being, increases classroom performance, and reduces stress. Multiple case studies demonstrating the positive benefits of daylight and views on building occupants are discussed, and applications of biophilic design are examined.

Transitioning to a Clean Energy Future: Part 1 ( ~ 1 hour ) 

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Energy creation, distribution, and consumption are all in a period of transition. Understanding this transition and its various aspects is critical to sustainable transitional energy planning (STEP). This course delves into the reasoning behind the STEP approach and its contributions to creating resilient communities and explores available exhaustible and renewable energy resources and innovations in the energy sector that can be leveraged by STEP.

The Solar Roof-Plus-Storage Ecosystem ( ~ 1 hour, 15 minutes ) 

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Residential solar power generates clean energy, reduces carbon footprint, protects against rising electricity rates, and protects property from outages, but it is only effective during daylight hours. Adding battery storage to a solar system—called solar plus storage—removes this limitation and moves a home closer to energy independence. In this course, we will review the components of a solar-plus-storage system, including selection considerations for residential rooftop solar and DC-coupled solar batteries. The course also reviews the extended system of monitoring and DC charging.

Structural Laminated Decking ( ~ 1 hour ) 

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Structural laminated decking allows the beauty of the wood structure to be exposed, creating a unique architectural experience for its occupants. Aesthetics, strength, and durability are combined in one engineered product. Structural laminated wood decking is an environmentally sustainable and cost-effective alternative to solid timber and other roof systems. This course discusses the characteristics of laminated wood decking and reviews recommended design, specification, and installation practices.

Designing Buildings for Heat Resilience & Energy Efficiency ( ~ 1 hour ) 

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Urban warming negatively impacts human health and quality of life, energy use, air quality, social equity, and economic prosperity. This course describes how solar reflective cool roof and wall materials help protect individuals and communities from the impacts of extreme heat and discusses the factors that influence energy savings and performance. The course also notes various climate resilience initiatives, green building programs, and energy codes that require or promote the use of cool roofs or walls and concludes by explaining the important role of third-party product ratings and the educational resources available online.