Sustainable Design Courses

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Displaying 1 - 25 of 448 results.

FIRST [1-25] [26-50] [51-75] [76-100] [101-125] NEXT LAST

  • ( ~ 1 hour, 30 minutes ) 

    Permeable interlocking concrete pavement (PICP) has the ability to create solid, strong surfaces for pedestrians and a range of vehicular uses; it can help maintain a site’s existing natural hydrologic function and reduce the overall impact of development. This course discusses the components of a PICP system and how they work together to manage stormwater in a variety of applications. Also addressed are hydrological and structural factors to consider when designing with PICP and how PICP contributes to sustainable building goals and projects.

  • ( ~ 1 hour ) 

    This course provides a comprehensive overview of quartz surfacing as a sustainable material in contemporary design. It examines the environmental impact, safety standards, and wide-ranging applications of quartz surfacing. The course focuses on manufacturing processes, performance characteristics, and the material’s contribution to sustainability, equipping participants with the knowledge to effectively utilize quartz surfacing in residential and commercial projects.

  • ( ~ 1 hour ) 

    Drying hands thoroughly is crucial for maintaining hygiene levels, and when a hand dryer is too slow, the result is many people give up trying to dry their hands and leave the bathroom with wet or damp hands. Research has shown that damp hands can transmit up to 1,000x more bacteria than dry hands. This course discusses hand-drying concepts and the advantages of hand dryers with air knife technology. It also reviews the impact the choice of hand-drying equipment has on public health, occupant comfort, facility operations, and our environment.

  • ( ~ 1 hour ) 

    Roofing is one of the most common renovation projects on commercial buildings. Upgrading a roof assembly to meet current building standards provides an opportunity to save energy and maintain the necessary fire and structural performance. This course reviews the code requirements for commercial reroofing and discusses how reroofing can improve a building’s energy efficiency.

  • ( ~ 1 hour ) 

    Commercial restrooms are used in various settings, from office buildings to hospitals. This course discusses how commercial restroom design can meet the needs of all users through accessibility, universal design, and inclusive design. The public nature of restrooms requires excellent air quality, a trusted level of cleanliness, durability, and water conservation. The importance of fixtures with features including touchless technology, vandalism resistance, and water efficiency is also discussed.

  • ( ~ 1 hour ) 

    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.

  • ( ~ 1 hour ) 

    This course explores how modern pergola systems enhance outdoor environments by supporting health, safety, and sustainability goals. It reviews design parameters, material choices, environmental benefits, and testing requirements, including features applicable to the LEED® v5 Building Design and Construction rating system, the WELL™ Building Standard v2, and SITES® v2. Relevant case studies and project examples are also discussed.

  • ( ~ 1 hour ) 

    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.

  • ( ~ 15 minutes ) 

    Policies targeting the reduction of carbon emissions associated with building products require the disclosure of embodied carbon data to inform those policies and verify whether reduction targets or incentive requirements have been met. This course aims to provide a guide to collecting high-quality embodied carbon data.

  • ( ~ 1 hour ) 

    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.

  • ( ~ 1 hour ) 

    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.

  • ( ~ 1 hour ) 

    Currently, buildings are the single biggest contributor to GHG emissions, accounting for roughly half of all energy consumption in the U.S. and globally. It is crucial to reduce this level of consumption by including high-performance envelope strategies such as shading systems in all new building designs. In this course, we look at shading systems, examine shading and design strategies, and learn tips for successful selection and design.

  • ( ~ 1 hour ) 

    Provides an overview of the noise issues associated with floor/ceiling assemblies of multifamily dwellings, as well as the factors that affect acoustical performance. Also presented is a review of the acoustical solutions that are available with a focus on sound mats with poured underlayment (SMPU) systems.

  • ( ~ 1 hour ) 

    In the post-COVID work environment, businesses and designers are attempting to leverage daylight to the benefit of employees, students, patients, and caregivers alike. Automated shading enhances all manner of built environments by controlling and managing natural light to benefit mental health, productivity, and the bottom line. This course explores how using Power over Ethernet (PoE) based automated shading solutions supports smart buildings and enhances the well-being of occupants, regardless of building type or use. Also addressed is how automated shading can contribute toward the credit requirements of the LEED® v5 Building Design and Construction and Interior Design and Construction rating systems and the WELL Building Standard™ v2.

  • ( ~ 1 hour ) 

    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.

  • ( ~ 1 hour ) 

    Noise pollution is excessive environmental noise that disrupts the activity or balance of human life. As urban environments have become increasingly dense, the noise problem has magnified, negatively impacting mental and physical health. Sound is everywhere, but it can be controlled with architectural solutions. This course provides a refresher on the basic science of acoustics and how sound interacts with our surroundings. From there, the course explores various architectural solutions, the technology behind them, and how they are successfully integrated into buildings to reduce noise. Discussion of installation applications addresses sound control options for retrofits and new construction.

  • ( ~ 1 hour, 15 minutes ) 

    Increased energy efficiency in both new and existing construction continues to be a large factor behind the design decisions we make and the materials we choose to integrate into our buildings. Concrete masonry construction can provide a wide range of benefits. This course illustrates how building envelopes constructed with concrete masonry create high-performance buildings that can exceed energy code requirements.

  • ( ~ 1 hour ) 

    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.

  • ( ~ 1 hour ) 

    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.

  • ( ~ 1 hour ) 

    At their root, metal roofs and walls made from steel, copper, zinc, or aluminum have a lower environmental impact because of their ability to be recycled and reused. This course focuses on the green aspects of standing seam metal roofs, and in particular, their cool roof characteristics. Also addressed are the implications of heat islands, what constitutes construction of cool roofs/walls and how they work, some rules of thumb for understanding cool metal roofing, roof slope impacts on performance, and codes, ratings, and standards that apply to designing cool roofs/walls.

  • ( ~ 1 hour ) 

    Rubber has been recycled for over a century and has been utilized in recycled rubber flooring (RRF) for more than 70 years, demonstrating its proven durability, resilience, and design flexibility. This course examines RRF as a sustainable material solution and its role in enhancing the performance of the built environment. Additionally, the course explains the rubber recycling and RRF manufacturing processes, along with the best practices for specification and installation. Also included is an overview of how RRF can contribute to credit requirements in the LEED® v5 Building Design and Construction (BD+C) and Interior Design and Construction (ID+C) rating systems and the WELL™ Building Standard v2.

  • ( ~ 1 hour, 15 minutes ) 

    Architects and designers have many options for specifying site furniture products for their projects. Selecting materials and finishes is an integral part of this process, yet making material selections has become more and more complex. The course examines conditions and constraints of outdoor environments; evaluates materials commonly used in outdoor applications; discusses using green building standards and rating systems, and the role of suppliers as resources for material selection; and provides examples of products that adhere to a higher environmental standard.

  • ( ~ 1 hour, 15 minutes ) 

    Concrete is one of the most widely used building materials throughout the world, and as such, it is in everyone’s best interest to consider more sustainable options. This course provides an overview of the properties of slag cement. Discussion topics include benefits, effects on plastics and hardened concrete, environmental profile including life cycle analysis (LCA) and environmental product declarations (EPDs), and various slag cement applications.

  • ( ~ 1 hour ) 

    The availability of parking and the time it takes to park a vehicle are major challenges when designing a new development. Parking garages typically require big volumes and are not efficient with land use. Automated parking can practically reduce parking space, while providing the same (sometimes more) number of parking stalls as a conventional garage. It also improves the user experience, providing a valet parking experience, just without the valet.

  • ( ~ 1 hour ) 

    With the increasing prominence of glass in new buildings and retrofits, the use of window film can raise the style, performance, and safety of today’s building projects. This course examines the use of various types of window film (decorative, solar control, and safety/security) and their role in improving occupant comfort and safety, lowering energy costs, and enhancing privacy.

Displaying 1 - 25 of 448 results.

FIRST [1-25] [26-50] [51-75] [76-100] [101-125] NEXT LAST