Introduction to Residential Ventilation ( ~ 1 hour ) 

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Meeting the ventilation requirements of ASHRAE 62.2 and maintaining an energy efficient home means balancing the need for fresh outdoor air and the energy needed to condition it. In this course we will examine the ventilation requirements in ASHRAE 62.2, discuss how they can be met, and look at some solutions for energy efficient ventilating.

Mitigating Human—Wildlife Conflicts Through Design: Wildlife-Resistant Waste Management and Food Storage Systems ( ~ 1 hour ) 

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As urban development encroaches upon natural habitats, human—wildlife conflicts, particularly those involving bears, have become more frequent and dangerous. This course will equip architects and designers with the knowledge and tools to mitigate bear—human conflicts through wildlife-resistant waste management and food storage systems. The course examines how bears become conditioned to human food and how this impacts humans, bears, and the environment. Learners will gain insights into how community strategies and innovative product designs can foster safer, more sustainable human—wildlife coexistence.

Healthier & More Sustainable Hydration with Bottle-Filling Stations ( ~ 1 hour ) 

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Adequate water consumption is essential to human health, and many turn to bottled water for convenience or out of concerns about the public drinking water supply. But bottled water presents its own water quality issues along with environmental impacts of disposable plastic bottles. This course explores bottle-filling stations that offer safer, convenient, sustainable hydration in a wide range of applications. Also reviewed are the features, benefits, and installation options of bottle-filling stations and how they contribute to drinking water requirements in the WELL Building Standard™ (WELL™) version 2.

Outthinking the Outdoors: Capitalizing on Customizable Retractable Roofs ( ~ 1 hour ) 

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Designers increasingly focus on creating environments that improve the health, welfare, and productivity of occupants. This includes providing the benefits of daylight, fresh air, and access to the outdoors. This course explores how retractable roofs can extend the use of outdoor spaces year-round by converting them to daylit indoor spaces seasonally or with sudden weather changes. It explains the economic benefits, structure, and operation of various retractable roof types and how they can be customized to suit multiple site sizes and types, including rooftops. The course concludes with a series of case studies.

Get the Daylight You Deserve ( ~ 1 hour ) 

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Daylight is an essential part of our health and well-being, but it needs management. Shading strives to maximize daylight without compromising building occupant comfort and well-being. This course explores the role daylight has within the built environment and its impact on occupants and energy usage, with a focus on how to better specify shadecloth based on factors such as project type, solar optical properties, shadecloth composition, and environmental factors.

Design Possibilities of High-Strength Fiber Cement ( ~ 1 hour ) 

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Since its introduction in the early 20th century, high-strength fiber cement has proven to be an affordable, sturdy construction material. Technological advances in recent years have increased its versatility in terms of color range and usage for ventilated rainscreen facades. This course examines what high-strength fiber cement is and how it can improve the structural sustainability of buildings and enhance creative freedom in design.

Contemporary Wood-Burning Fireplaces, Inserts, and Stoves ( ~ 1 hour ) 

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The fireplace has always been a focal point in any home, providing warmth and a place for friends and family to gather. Today’s wood-burning fireplaces, inserts, and stoves have become increasingly efficient and clean burning. This course examines using wood as a fuel source and discusses the many characteristics that can affect heat production, efficiency, and burn time. New burning technologies that meet EPA certification requirements for released particulate matter are summarized, as are design and installation specifications.

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.

Main Entrance Air Curtains: Improving Energy Efficiency, Health, & Comfort ( ~ 1 hour ) 

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Main entrance air curtains are used by architects and engineers in commercial, institutional, and industrial settings to both improve energy efficiency and protect occupant comfort and well-being. This course reviews the research that led to air curtains being approved as an alternative to vestibules in ASHRAE 90.1-2019 and other building codes, as well as how air curtains on main entries contribute to sustainability goals around energy conservation, public health, and indoor air quality.

Quartz Surfacing Uncovered: Sustainability, Safety, and Practical Applications ( ~ 1 hour ) 

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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.

How to Achieve Superior Building Envelope Performance in Rainscreen Wall Design ( ~ 1 hour, 30 minutes ) 

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The building envelope must withstand the effects of long-term exposure to the elements. This course explores rainscreen wall design and the control of hygrothermal loads. The traditional multicomponent backup wall assembly is compared with the single-component, insulated metal composite backup wall system, outlining key differences in design and construction and their overall effect on installation and performance.

Precast Concrete Stair Treads and Landings ( ~ 1 hour ) 

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Stairs are often a prominent feature or even the focal point of an architectural design project and play a vital role in creating an aesthetically pleasing interior atmosphere, or an exterior welcoming point to a residential, commercial, or industrial building. This course provides an overview of the many benefits of installing precast concrete stair treads and landings, how to detail and specify them, and how to address related building code, design, and construction requirements.

Intelligent Daylight Design for Glazing Systems ( ~ 1 hour ) 

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People spend more than 90% of their time indoors; incorporating sunrooms, conservatories, greenhouses, and/or other glass structures into homes or workplaces can be an effective way to reap the benefits of daylight. The positive impacts of incorporating more natural light into your lifestyle can be seen through energy savings, increase of productivity, and improvement of overall well-being. This presentation reviews strategies and design options to create unique overhead structures, standing structures, and vertical glazing systems that are energy efficient, comfortable, and functional.

Redwood Lumber: Attributes, Applications, & Environmental Benefits ( ~ 1 hour ) 

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Redwood offers warmth, character, durability, and strength in products from sustainably managed and harvested forests. This course provides insights into forestry practices and the environmental benefits of redwood lumber, and compares redwood with other common decking materials. Details are presented on how to differentiate and specify grades of redwood; finishing options and methods are also discussed. The course concludes with examples of applications that showcase the unique beauty and attributes of redwood.

Urban Shade Solutions: Advancing Comfort, Health, and Climate Resilience ( ~ 1 hour ) 

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This course explores the critical role of shade in urban design, public health, and climate resilience. It examines how natural, built, and combined shading systems reduce heat exposure, support thermal comfort, and enhance the usability of outdoor spaces. Through case studies, technical analysis, and planning frameworks, participants will learn how to evaluate shade needs, select appropriate solutions, and integrate shade into parks, plazas, transit stops, and other public environments.

Building the Perfect Envelope with Insulated Metal Panels ( ~ 1 hour ) 

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Understanding building physics is critical to proper building envelope design. Examined here are practical concepts for the building designer, including how cladding systems perform across different climate zones and applications. Environmental control layers and hygrothermal loads are reviewed, as is the concept of perfect/universal wall design. The course focuses on how single-component insulated metal panels (IMPs) function as a perfect/universal wall, simplifying wall system design and installation.

Architectural Acoustics for Today’s Buildings ( ~ 1 hour ) 

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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.

Introduction to High-Density Parking Systems ( ~ 1 hour ) 

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As urban areas become denser, land values increase, and the demand for space becomes more challenging, developers are seeking alternative, innovative approaches to parking cars that allow a project to proceed while meeting all parking and sustainability requirements. Automated parking systems, parking lifts, and multilevel car stackers provide multiple benefits for developments, car parking operations, and vehicle storage facilities. High-density parking systems can help to maximize ROI with a reduced parking footprint and better building flow; reduce construction costs and operational overheads; and improve safety, security, and sustainability. This course explains the types of high-density parking systems, their sustainable advantages, and design considerations.

Managing Water Efficiency with Dual-Flush Toilets ( ~ 1 hour ) 

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Efficient water use and conservation are key parts of sustainable development. Toilets account for the greatest water usage within a residential home (typically 30 percent). Dual-flush toilets are an option to reduce water usage by up to 20 percent while meeting the LEED® v4 Water Efficiency requirements. This toilet option can also be incorporated into accessible bathrooms and use touchless flush plates. The most attractive feature of the dual-flush toilet is that it does not require significant behavioral changes for benefits to be realized.

Roofs and Condensation: A Practical Approach for the Design Professional ( ~ 1 hour ) 

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With the advent of “cool” single-ply roofs featuring heat-reflective exterior surfaces and the use of mechanical attachment, new questions have emerged concerning the internal forces at play within the roofing system, especially in regard to vapor movement and the potential for moisture condensation within the roof. This course reviews the fundamentals of vapor movement in roofing systems, current roof condensation research and the tools available to assess roof condensation. It also provides the building design professional with strategies to deal effectively with moisture movement within the roofing system.

Lightweight, Long Lasting, & Low Cost: The Future of Terracotta Rainscreens ( ~ 1 hour ) 

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Terracotta rainscreen cladding systems enhance building envelope performance through improved moisture management, reflected in the WELL Building Standard™ version 2, as well as through energy efficiency, structural integrity, and durability. The course examines the manufacturing of terracotta cladding, highlighting responsible clay sourcing and postextraction site reclamation, and discusses performance, aesthetics, and sustainability benefits, including how terracotta cladding can contribute to meeting the requirements of LEED® v5 Building Design and Construction (BD+C): New Construction. Additional topics include system color, layout, and wall assembly options, best installation practices, and industry standards and tests.

An Overview of Architectural Hardware Standards & Product Certification ( ~ 1 hour ) 

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The Builders Hardware Manufacturers Association (BHMA®) is the only organization accredited by the American National ‎Standards Institute (ANSI) to develop and maintain builders hardware ‎standards with cycling, operational, strength, security, and finish test requirements. This course explores the performance standards and the certification program related to commercial architectural hardware.

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.

Heat Recovery Ventilation: Why Efficiency Matters ( ~ 1 hour ) 

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In the last couple of decades, houses have become progressively more airtight due to energy efficiency and cost concerns. While air infiltration and exfiltration rates have been significantly reduced, the need for an efficient ventilation system has become extremely important. This course evaluates different types of mechanical ventilation systems and discusses why heat recovery ventilation (HRV) and energy recovery ventilation (ERV) systems are characterized by a high level of energy efficiency and as an effective means for improving indoor air quality.

Noise Control Construction: Beyond STC and IIC ( ~ 1 hour ) 

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When designing noise control measures for a building, it is critical to look beyond the sound transmission class (STC) and impact insulation class (IIC) ratings in order to create an ideal environment that promotes occupant well-being, protects their hearing, and fulfills the project’s needs. This course provides an overview of noise control principles, construction composites, and design methodologies that reduce noise, with an emphasis on performance-oriented designs requiring third-party acoustical consultants.