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.

Bamboo Rising: New and Sustainable Material Innovations for Architecture ( ~ 1 hour ) 

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This course examines bamboo as a sustainable construction material by focusing on its properties, environmental advantages, and innovative applications. Participants will explore responsible sourcing, manufacturing practices, and key certifications. The course also covers advanced products such as thermally modified and high-density bamboo. Professionals will gain the knowledge required to integrate bamboo into projects that align with performance and sustainability standards.

Rooftop Solar Photovoltaic Systems: The Good, the Bad, & the Ugly ( ~ 1 hour ) 

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A rooftop solar photovoltaic system offers myriad benefits to both building owners and the environment; to maximize the benefits, however, it is important to be aware of the potential causes and effects of problems with rooftop installations. This course presents the issues to consider to prevent damaging the roof, voiding the roofing warranty, and incurring additional costs. Solar system mounting options are explored in terms of how they can help eliminate concerns around rooftop installations.

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.

Design Fundamentals of Permeable Interlocking Concrete Pavements (PICP) ( ~ 1 hour ) 

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Stormwater management is a critical component in any municipality to retain and infiltrate increased runoff volumes and flow rates from developed land that creates increased impervious cover (roofs and pavements). The course discusses the hydrologic and structural design fundamentals of permeable interlocking concrete pavement (PICP) and why it is an excellent choice to help meet stormwater management goals. Discussions include the benefits of using PICP, components of PICP, design and construction considerations and how use of PICP can help earn LEED® credits.

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.

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.

ICF Block Systems for High-Performance Buildings ( ~ 1 hour ) 

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This course explores insulating concrete forms (ICFs) as part of a sustainable construction system by covering their benefits, applications, and design considerations. The course delves into the structural properties, energy efficiency, and environmental impact of ICFs. Also presented are best practices for integrating ICFs into various architectural projects and a concise overview of installation steps.

Designing for Sustainability: Synthetic Turf and the Triple Bottom Line ( ~ 30 minutes ) 

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As synthetic turf systems evolve as functional and aesthetic landscape solutions, conversations about sustainability, particularly environmental impacts, are essential. This course addresses the sustainability of synthetic turf from the triple-bottom-line perspective: profit, people, and planet. Also discussed is how synthetic turf can contribute to achieving certification in LEED® v4.1 Building Design and Construction, Sustainable SITES Initiative® v2, and the WELL Building Standard™ version 2.

Designing High-Performance Data Centers for Intelligent Buildings ( ~ 1 hour, 15 minutes ) 

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Today’s buildings are evolving from independently functioning structures to intelligent buildings that interact with occupants and surrounding buildings. This trend has impacted the design, operation, and maintenance of data centers around the globe due to the increased demand for data and digital communication and has resulted in more high-performance data centers. This presentation addresses the specific needs of data centers and presents high-performance design solutions that support sustainable design.

Vibration Isolation Solutions for Mechanical Systems ( ~ 1 hour ) 

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The operation of mechanical equipment generates vibration and noise, which, if left untreated, can damage the building structure and the equipment itself and be a source of discomfort for building occupants. This course examines HVAC equipment vibration and the specification of isolation solutions. It provides discussions on each of the ASHRAE isolator and base types and describes some acoustical floor treatments.

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.

Understanding and Implementing Universal Changing Tables in Architectural Design ( ~ 1 hour ) 

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This course reviews the evolution of accessible restrooms and the recent, sudden prominence of universal (or adult) changing tables. We’ll examine how new changes to both the International Building Code® and statewide legislation affect public restroom design, and the profound impact universal changing tables can have on the lives of people with disabilities and their caregivers.

Mastering Slate: Benefits, Options, & Strategies for Selection & Sourcing ( ~ 1 hour ) 

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Waterproof, fireproof, nonporous, and eco-friendly natural slate has great value as a building material, particularly given its ability to protect structures for generations. This course reviews the characteristics and properties of slate, presents some of the many design options, and provides guidance on sourcing and specification. The sustainability benefits of roofing slate are also discussed, from its extraction and low-impact processing to its strength and enduring properties in all weather conditions.

Sustainable, Strong, & Safe:A Guide to Aluminum Industrial-Strength Ladders ( ~ 1 hour ) 

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Industrial-strength ladders must provide functional safety for users in varied and demanding building environments. Aluminum ladders are up to the challenge of virtually any application thanks to aluminum’s high strength-to-weight ratio, durability, and corrosion resistance. This course reviews ladder types and safety considerations and discusses how the sustainability benefits of aluminum along with its other attributes make it an ideal material for heavy-duty ladders.

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 Touchless Solutions for Proper Hand Hygiene in Commercial Restrooms ( ~ 1 hour ) 

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Designing restrooms to allow for and maximize proper hygiene is important in reducing the spread of germs. This course discusses the elements of hygienic restroom design and how reducing required touchpoints helps to increase safety and cleanliness. The key steps in proper hand hygiene are also discussed. The course then focuses on hand dryers and considers their impact on hand hygiene and sustainability. The future of commercial restroom design is then explored.

Contemporary Electric Heating Benefits ( ~ 1 hour ) 

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Electric heating systems have been in use for over a century, and in that period, they have significantly advanced in terms of their efficiency, cost effectiveness, safety, versatility, and appearance. Recently, electricity production itself has become more and more environmentally friendly and economically viable. This course explores how the wide range of contemporary electric heating options can efficiently and economically address virtually every heating need in every building type and thus capitalize on the steadily increasing benefits of electricity to create the most environmentally responsible and economically viable heating solutions.

Sustainable Cladding Solutions for Innovative Architecture ( ~ 1 hour ) 

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Innovative and sustainable, powder-coated/sublimated extruded aluminum products are ideal for exterior, interior, and high-traffic architectural applications. Reviewed in this course is an overview of the properties and finishing processes of this material along with discussions of its applications, design criteria, and testing standards.

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.  

High-Performance Coatings and Exterior Restorations ( ~ 1 hour ) 

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High-performance coatings are a necessity when it comes to protecting building exteriors and restoring them after harsh weathering and UV degradation; the right coatings prolong a building exterior’s life span and divert materials from landfills. New PVDF coating systems provide superior protection while satisfying aesthetic and environmental considerations. Their various characteristics and benefits are explored, and application methods are discussed.

Improving Soundscapes in Educational Spaces with PET Felt ( ~ 1 hour, 15 minutes ) 

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Undesirable acoustics in educational spaces have long been considered averse to our goals to effectively teach, create, collaborate, listen, and learn. Now, in the wake of implementing pandemic protocols, our acoustic comfort in these spaces is greatly challenged. This course examines the impacts of poor soundscapes in educational facilities and introduces innovative solutions for improving acoustics in these areas while keeping us comfortable and safe from exposure to emerging viruses.

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.

Concrete-Faced Continuous Insulation Systems ( ~ 1 hour ) 

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Concrete-faced insulated products are composite prefinished panels that are used to construct walls and roofing assemblies to maximize the energy efficiency, durability, and performance of a building envelope. This course discusses the design criteria used in designing energy-efficient buildings using concrete-faced continuous insulation systems for low-slope roofing, walls, and foundations. The functional and physical features of protective membrane roof (PMR) systems, concrete-faced insulated panels for walls and foundations, and concrete structural insulated panels (CSIPs) are evaluated.

Closing the Loop on Office Furniture ( ~ 1 hour ) 

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The office furniture industry is an ever-changing marketplace and this changeability has produced huge amounts of unwanted furniture. Remanufacturing addresses the waste, cost, and storage that comes with replacing office furniture. This course looks at trends in the office furniture industry, the environmental impacts created by legacy furniture, and a review of the environmental and economic benefits of remanufactured furniture as an alternative to scrapping, downcycling, or discarding to landfill.