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.

Electric Vehicle Charging: Basics and Beyond ( ~ 1 hour, 15 minutes ) 

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The growth of EV (electric vehicle) adoption is accelerating and the behavior of EV drivers is increasing the demand for electric vehicle charging stations. This education course explains the different types of charging available and their suitable applications, and discusses the planning and installation considerations for electric vehicle supply equipment (EVSE).

Separating Cool Roofing Facts From Myths ( ~ 1 hour, 15 minutes ) 

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White roofs made of PVC (vinyl) can reflect three-quarters or more of the sun's rays and emit 70% or more of the solar radiation absorbed by the building envelope. Despite protecting and keeping buildings cool in all climates around the world for decades, misconceptions about the energy impact of cool roofs still exist. This course uses the fundamental science behind cool roofs to address alleged issues concerning the performance of cool roof products.

Biophilic Design & Rooftop Deck Systems: A Natural Connection ( ~ 1 hour ) 

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Incorporating nature into the built environment through biophilic design increases occupant well-being, productivity, and health and is an integral component of an ecologically healthy and sustainable community. Presented here is an overview of biophilic design, its relationship to sustainability, and its positive human, environmental, and economic outcomes. Case studies demonstrate how rooftop deck systems can contribute to biophilic and sustainable design objectives.

Creating Sustainable Roofs with Standing Seam Metal Roofing ( ~ 1 hour ) 

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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.

The Solar-Ready Roof: Optimize the Design ( ~ 1 hour ) 

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With the demand for sustainable power on the rise, building owners and homeowners alike are turning to solar power as a supplemental power generator. Choosing the right platform for the solar panels is a critical step in the design process and can have a significant impact on both initial and long-term costs. This course discusses the basics of photovoltaic systems, including the components and rooftop applications. Comparisons between traditional roofing and standing seam metal roofing platforms are examined, and the benefits of a nonpenetrating clamping system are discussed.

Ponts thermiques et solutions de rupture thermique ( ~ 1 hour, 15 minutes ) 

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Le besoin d’évaluer les ponts thermiques dans la conception et le rendement d’un bâtiment a gagné en importance en raison des exigences grandissantes en matière d’efficience énergétique des bâtiments. Ce cours sert d’introduction aux ponts thermiques, aux exigences du code de l’énergie et à l’usage de barrières thermiques conçues pour améliorer l’efficience énergétique de l’enveloppe du bâtiment.

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.

Sustainable Materials for the Bath ( ~ 1 hour ) 

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This presentation provides an overview of sustainable materials for the bath, including production, performance, maintenance, and frameworks for assessment, and focuses on recycled copper, sustainably made concrete, FSC®-certified bamboo, and reclaimed wood.

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.

The Design Possibilities of Palm ( ~ 1 hour ) 

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Palm is a plentiful but underused resource with many possibilities to enhance architectural design. This course describes the growth, harvesting, and rendering of palm, how it is manufactured into flooring, plywood, and paneling products, and what to consider when specifying and installing. A detailed look at the products available as well as project examples demonstrates how palm 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.

How Energy Codes Affect Plug Load and Lighting Controls ( ~ 1 hour, 15 minutes ) 

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Energy codes at the federal, state, and local levels increasingly focus on reducing energy consumption, saving consumers money, and reducing CO2 emissions. Whether new or recently updated, energy codes play an essential role in the buildings we design, build, and ultimately live, work, and play in. This course examines the lighting requirements and provisions of ASHRAE Standard 90.1-2019 and the 2021 International Energy Conservation Code ® , with a focus on plug and lighting control strategies for energy efficiency.

Water Savings with Every Flush: Improving Water Conservation in High Performance Buildings ( ~ 1 hour ) 

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Today—as climate change, population growth, and record droughts present an unprecedented strain on our water supply—conservation technology is building awareness to the importance of having the most water efficient fixtures in a home or business. This course recognizes the flush toilet as one of the biggest users of water and discusses how toilet design is pushing flush technology to develop ways for homes and commercial buildings to conserve water without sacrificing the performance of the toilet. Industry testing protocols and the water-saving capabilities of different technologies are evaluated.

Zinc Building Envelopes: Sustainable Architectural Metal ( ~ 1 hour ) 

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The beautiful gray patina of zinc architectural metal has graced the rooftops of buildings in Europe for hundreds of years. This course examines the sustainable characteristics of zinc as a roofing material, including its 100% recyclability, zero VOC requirement, and low embodied energy production process. The life cycle analysis of zinc is examined, as is zinc’s long-term service life. Various types of roof and wall applications are also discussed.

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.

Spray Polyurethane Foam (SPF) Applications and Safety ( ~ 1 hour ) 

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This course aims to educate learners about the chemistry of spray-applied polyurethane foam (SPF), its various applications in the construction industry, safe handling and installation, and its contribution to sustainable design. The advantages of using SPF are highlighted in terms of its benefits to energy conservation and fire safety. Its role as a high-performance air barrier that satisfies code and LEED® criteria and complies with various standards is also discussed.

The Role of Automated Window Coverings in LEED® v4.1 & WELL v2™ Certification ( ~ 1 hour ) 

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Green building rating system crosswalks are tools that identify where systems are equivalent or aligned, providing a streamlined approach that can help projects achieve dual certifications. This course provides an overview of the crosswalks related to automated window shades and daylight control in LEED® v4.1 Building Design and Construction (BD+C): New Construction and Core and Shell, LEED v4.1 Interior Design and Construction (ID+C): Commercial Interiors, and the WELL Building Standard™ version 2. Also discussed are trade-offs between project parameters and rating system requirements that designers and architects must consider. 

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.

Designing for Room Acoustics: Principles & Myths ( ~ 1 hour ) 

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Properly selected acoustical solutions are necessary to provide acoustical comfort and performance for a range of applications. This course reviews acoustic theory and design methodology to facilitate the design and specification process. A particular emphasis is placed on performance-oriented designs and strategies for different project types.

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.

Structural HDPE Plastic Lumber: Applications, Performance, & Environmental Advantages ( ~ 1 hour ) 

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Structural HDPE plastic lumber offers strength, durability, and design versatility and is a sustainable alternative to traditional building materials. This course examines the types of structural HDPE plastic lumber and their manufacturing processes and provides technical information on performance attributes, suitable applications, installation considerations, and design guidelines. Comparisons are made to wood and wood-plastic composite lumber. Also presented is how recycled HDPE plastic lumber may help meet credit requirements in the Sustainable SITES Initiative® (SITES® v2) and LEED® v4.1 Building Design and Construction (BD+C) and Residential BD+C rating systems. Case studies demonstrate the exemplary performance of structural HDPE plastic lumber in aggressive environmental conditions.

Sustainability & Rooftop Deck Systems: A Green Connection ( ~ 1 hour ) 

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Rooftop deck systems offer the design flexibility to create adaptable, sustainable outdoor spaces that provide myriad environmental, social, economic, and aesthetic benefits. This course presents the three pillars of sustainability and how building products, materials, and systems can contribute to sustainable design. It outlines forest management objectives and practices and the responsible sourcing of wood for rooftop deck tiles. Case studies exemplify how rooftop deck systems can contribute to sustainable design objectives.

Installing Fenestration in Exterior Insulated Walls ( ~ 1 hour ) 

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Fenestration openings are a critical component of a building envelope, especially in present-day sustainable, energy-efficient buildings. Building envelopes play an important role in controlling the movement of heat, bulk water, and water vapor. Designing fenestration openings for buildings that use continuous exterior insulation has a significant role in reducing thermal bridging and thus conserving energy. This course reviews the impact of exterior insulation on fenestration installation design. The course also explores solutions for a wide variety of wall system variations.

High-Performance Waterproof Wall Panel Systems for Interiors ( ~ 1 hour ) 

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High-performance waterproof panels are engineered to mitigate moisture damage in areas where water is ever present while offering easy installation and lasting beauty. This course reviews the importance of moisture management in wet applications and examines the performance attributes of waterproof panels that make them a complete wall solution.

Cellulose Fiber: Enhancing Sustainability in Concrete ( ~ 1 hour ) 

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Natural fibers have been used for over 2,000 years as a method to strengthen building materials. Cellulose fiber provides an excellent alternative to traditional secondary reinforcement, reducing plastic shrinkage cracks and improving durability, impact resistance, shatter resistance, and freeze/thaw resistance without compromising the appearance or finishability of a concrete surface. This course covers the evolution of fiber, its benefits, and why it is a sustainable material.