GBCI Information

The "GBCI CE" mark indicates that the course, as described in the application and materials submitted by the provider to USGBC, holds a General CE designation and meets the General CE conditions set out in the USGBC Education Partner Program course guidelines.

Displaying 51 - 75 of 224 results.

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


  • ( ~ 1 hour ) 

    Infrared patio heaters sustainably increase safety and comfort in outdoor entertaining areas. There are many variables in creating ambient warmth, and the effectiveness and cost of heating an outdoor space depend on the design of the selected heating option. This course looks at the available outdoor heating options and their sustainability profiles, focusing on the types, color choices, mounting methods, and control options of electric infrared heaters. It includes a review of the steps required to select the best solution.


  • ( ~ 1 hour ) 

    Energy creation, distribution, and consumption are all in a period of transition. Understanding this transition and its benefits is critical to sustainable transitional energy planning (STEP). This course reviews the nature of the transition, the forces driving it, emerging energy systems and sources, and international and national examples. It details the process required for STEP and provides a comprehensive overview of the many renewable energy options now viable for community energy systems. It concludes with a series of illustrated sample plans and projects.


  • ( ~ 1 hour ) 

    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.


  • ( ~ 1 hour ) 

    Now more than ever, architects and designers of commercial restroom facilities are responsible for meeting or exceeding guest and employee expectations for safety and cleanliness. Presented here are touchless fixtures for public restrooms, how restrooms affect sustainability goals, and the benefits of taking cost-saving measures.


  • ( ~ 1 hour ) 

    Thermal modification is a tried and tested process for increasing the durability of wood while maintaining a warm aesthetic in building design. This course examines all aspects of this sustainable wood product and how it can be incorporated into a variety of projects.


  • ( ~ 1 hour, 15 minutes ) 

    ICF construction is cost effective and sustainable, and is a superior way to build stronger, quieter, healthier, and more energy-efficient commercial structures. This course explores insulated concrete form (ICF) construction, describing the forms themselves and their construction, performance, and sustainable benefits. Also presented are design guidelines, the installation process, flooring systems, and commercial project applications.


  • ( ~ 1 hour ) 

    Interest in metal cladding is continually growing because of its sustainable features: durability, long life span, recyclability, and contribution to cool roofs. Manufacturers provide a wide range of panel profiles, materials, and colors to meet the increased demand. This course examines the performance characteristics and attributes of metal roofing and cladding, different aesthetic options, and best installation practices, as well as how they contribute to more energy-efficient buildings.


  • ( ~ 1 hour ) 

    Synthetic or artificial grass bears virtually no resemblance to its early version produced over fifty years ago. The current product is much more aesthetically pleasing, safer, softer, and durable, made with environmentally friendly materials, highly customizable to suit many indoor and outdoor uses, and recyclable and nonflammable. This course details the many sustainable attributes of this material; its benefits, construction, and certifications; and numerous sample installations.


  • ( ~ 1 hour ) 

    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.


  • ( ~ 1 hour ) 

    An energy recovery ventilator (ERV) system provides occupants with filtered, balanced, and tempered air within their living space. Airborne contaminants can be greatly reduced with ERV systems. This course provides knowledge about the need, use, design, and installation of ERVs in the modern dwelling unit and when retrofitting existing structures. The course also addresses the environmental advantages of sustainable and healthy solutions for indoor air quality.


  • ( ~ 1 hour, 30 minutes ) 

    Continuous insulation is part of building standards and state and energy codes due to its ability to reduce thermal bridging and the associated heat loss and energy consumption. This course looks at the use of polyisocyanurate as a continuous insulation in Type V and residential construction and its use as a multifunctional envelope component—air barrier, weather-resistive barrier, and vapor retarder—by reviewing code requirements for the building envelope.


  • ( ~ 1 hour, 15 minutes ) 

    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.


  • ( ~ 1 hour ) 

    What is wastewater energy recovery and how does it apply to the future of energy efficiency and decarbonization? In this course, we will explore how this previously overlooked source of energy loss from buildings can be utilized to endlessly recover and recycle energy within projects ranging from individual multifamily residential buildings to commercial and industrial applications and even to district energy networks. Wastewater heat recovery and transfer technologies used in small- and large-scale applications are also discussed, with case studies showcasing the practical applications and garnered benefits.


  • ( ~ 1 hour ) 

    It is an expectation that today’s buildings have to be more than just aesthetically pleasing: they have to provide measurable environmental benefits. This course outlines how insulated concrete forms (ICFs) help meet sustainable design objectives and examines the advantages that ICFs and ICF technology have over conventional construction materials for building envelopes in all building types.


  • ( ~ 1 hour ) 

    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.


  • ( ~ 1 hour, 15 minutes ) 

    There are a multitude of building envelope products used and a variety of methods taken for achieving energy and building code requirements. Understanding the different roles a product plays in the envelope simplifies its design. In this course, we take a look at the code requirements for buildings classified as IBC Types I–IV, paths to achieving compliance, and the number of roles polyisocyanurate insulation plays in meeting these requirements.


  • ( ~ 1 hour ) 

    Sustainable building envelopes demand high performance from and proper installation of continuous insulation and air, water, and vapor control layers. What happens when thousands of holes are made in these materials as they are installed with blind fasteners, one layer on top of another by different subcontractors? Sequencing issues can generally not be avoided; instead, this course focuses on self-sealing fasteners as a solution to avoid damage and thermal bridging in insulation and control layers. Various fasteners and anchors are described, and recommendations are presented for how to specify and what testing data to look for.


  • ( ~ 1 hour ) 

    In the fight against climate change, efforts intensify against the planet’s number one enemy—carbon dioxide. The building industry will play a significant role in these efforts. Embodied carbon—the global greenhouse gas emissions generated from sourcing raw material and processing, manufacturing, transporting, and installing building materials—will be the target over the next decade. This course will define embodied carbon, its impact on greenhouse gas emissions, the construction industry's impact, and the methods and tools that building designers can employ to limit embodied carbon.


  • ( ~ 1 hour ) 

    Implementing daylight in buildings reduces artificial lighting energy, costs, and CO2 emissions and improves the welfare and performance of occupants. This course examines the benefits of daylight and explains how tubular daylighting devices (TDDs) can efficiently and effectively supply it in an energy-efficient manner, how they optimize all levels of daylight, and how they avoid issues such as glare and heat gain associated with windows and conventional skylights. Applicable credits and features in LEED® v4.1 Building Design and Construction, Interior Design and Construction, and Operations and Maintenance and the WELL Building Standard™ version 2 are noted. The course concludes with several sample commercial installations.


  • ( ~ 1 hour ) 

    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.


  • ( ~ 1 hour ) 

    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.


  • ( ~ 1 hour, 15 minutes ) 

    The need to evaluate thermal bridging in a building’s design and performance has become more prevalent because of the increasing requirements for more energy-efficient buildings. This course provides an introduction to thermal bridging, energy code requirements, and the use of thermal break solutions designed to improve energy efficiency in the building envelope.


  • ( ~ 1 hour ) 

    Lack of secure bicycle parking and storage is one of the top barriers to increased bicycle ridership. However, there is much more to selecting functional and appropriate bike storage than installing a few racks at the building sidewalk. This course examines best practices for bicycle racks and shelters for indoor and outdoor bicycle parking and storage, including typical municipal guidelines and regulations, incentives, guidance on shelters, and rack planning and design.


  • ( ~ 1 hour ) 

    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.


  • ( ~ 1 hour ) 

    Other coastal softwood species can be used in many of the same applications as western red cedar, including yellow cedar, western hemlock, and Douglas fir. Their performance characteristics vary, giving each species its specific use for structural or appearance applications. This course reviews each softwood species and discusses the importance of sustainably managed forests in curbing climate change.

Displaying 51 - 75 of 224 results.

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