Green Building Certification Inc.

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.

Click to Learn More About GBCI

Displaying 1 - 25 of 269 results.

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

  • ( ~ 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 ) 

    Trees are essential for the health of the urban environment, mitigating the heat island effect, cleaning the air, reducing stormwater runoff, and improving residents’ health and well-being. But cities are often inhospitable to trees, where their growth may be stunted or their roots may damage surrounding infrastructure. This course explores ways to design successful projects incorporating green infrastructure by understanding the principles behind tree growth, proper type and amount of soil, water management, and the role of soil vault systems in helping urban trees thrive.

  • ( ~ 1 hour ) 

    This course provides an overview of types of hybrid vinyl flooring and how they contribute to long-term value through reduced maintenance needs, verified indoor air quality performance, and responsible material sourcing. It examines manufacturing processes, product content, and material transparency that influence consistency, durability, and environmental impact. These attributes can support credit achievement in green building programs such as the LEED® v5 Building Design and Construction and Interior Design and Construction rating systems and the WELL Building Standard™ version 2 by addressing low-emitting materials, responsible manufacturing, and product transparency.

  • ( ~ 1 hour ) 

    This course explores the impact of construction materials and manufacturer transparency on health and environmental sustainability. It emphasizes the architect’s role in influencing these outcomes through product specification. Health product declarations (HPDs), environmental product declarations (EPDs), and life-cycle assessments (LCAs) are examined for their contributions to informed decision-making and alignment with green building frameworks such as the LEED® v5 Building Design and Construction and Interior Design and Construction rating systems and the WELL™ Building Standard v2. A prefabricated fireproofing product serves as a real-world case study in documentation.

  • ( ~ 1 hour ) 

    This course introduces acetylated wood as a sustainable building material, exploring its origin, modification process, and environmental benefits. Participants will learn how acetylation enhances wood durability, stability, and resistance to decay—extending its service life and reducing maintenance. The course highlights how acetylated wood supports green building goals through renewable sourcing and nontoxic treatment and may help meet credit requirements in the LEED® v5 Building Design and Construction and Interior Design and Construction rating systems, the WELL Building Standard™ version 2, and the Sustainable SITES Initiative® v2. Real-world case studies demonstrate its use in architectural and preservation projects, offering practical insights into sustainable design applications.

  • ( ~ 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 ) 

    No discussion about a material’s sustainability is complete unless it addresses embodied carbon, the carbon dioxide (CO₂) emissions associated with the material over its cradle-to-grave life cycle. Changes made to spray polyurethane foam (SPF) insulation formulations address the impacts of embodied carbon. This course explores the evolution and environmental impacts of SPF blowing agents, the performance benefits of SPF, physical property testing and certifications, and SPF’s potential LEED® v4 contributions. Case studies make evident the performance value of SPF.

  • ( ~ 1 hour ) 

    Exterior shading devices offer a number of advantages that contribute to a more sustainable building, including minimizing cooling costs, reducing peak electricity demand, and controlling glare. These benefits result in greater occupant comfort and improved productivity. This course provides a review of exterior aluminum shading device systems, including the components, finishes, and design and engineering considerations, as well as a discussion of how shading strategies contribute to LEED® certification.

  • ( ~ 1 hour ) 

    Architects and other design professionals have a critical role to play in reducing global greenhouse gas emissions through building design and product selection. The urgent need to reduce both operational and embodied carbon means that building designers must be familiar with transparency documents that facilitate low-carbon product selection. In this course, we review the types of carbon of concern, transparency documents that provide critical information, and tools for sourcing embodied carbon information. We also look at the contribution of insulated metal panels to both low embodied and low operational carbon buildings.

  • ( ~ 1 hour ) 

    Birds are an important part of ecosystems, performing many essential ecological functions. Unfortunately, millions of birds are killed every year due to collisions. This course discusses how architects can include bird-safe glass design strategies in their projects to significantly reduce the number of bird collisions and positively impact the environment and biodiversity. It also examines how bird-safe glass may help projects satisfy credit requirements in the LEED® v5 Building Design and Construction rating system.

  • ( ~ 1 hour ) 

    The planet is currently in a water scarcity crisis, which is significantly affected by toilet water usage. This course examines the current plumbing codes, standards, and regulations that address toilet water usage, the need for and benefits of going beyond current standards, and the goals of a variety of beyond-the-code voluntary standards and rating systems, such as LEED v4 BD+C and ICC 700 National Green Building Standard®. It explains the various types of low-flow and ultra-low-flow toilets, their pros and cons, and their selection criteria. It concludes with a sampling of successful cost- and water-saving installations.

  • ( ~ 1 hour ) 

    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.

  • ( ~ 1 hour ) 

    Biophilic design is a methodology for designing buildings and landscapes that improve human health and well-being while fostering a deeper appreciation for the natural world. This course provides an overview of biophilic design and its frameworks and how it can help projects earn certification through LEED® v4.1 Building Design and Construction (BD+C): New Construction, WELL Building Standard™ version 2, Sustainable SITES Initiative® v2, and the Living Building Challenge (LBC).

  • ( ~ 1 hour, 15 minutes ) 

    The hospitality industry thrives on positive customer experiences. These experiences are often shared on social media, and reviews of a restaurant or hotel now commonly include the acoustical aspects of the experiences. Hospitality venues must be constructed to the highest standards in order to achieve the necessary level of customer satisfaction; this includes providing a positive acoustic environment for a wide range of situations. In addition to reviewing the basics of sound, sound movement, and sound measurement, this course details the comprehensive range of applications available to the designer to block unwanted noises, control the acoustics in large venues, and provide complete privacy where it is needed while improving the aesthetic appeal of each space as a result.

  • ( ~ 1 hour ) 

    As noted in the first two parts of this course, water-related issues arising from growing, concentrating, and shifting populations, new weather patterns, the increasing frequency and ferocity of storm events, disappearing water supplies, and rising costs have become increasingly important in community planning. This portion of the course outlines many of the evolving, resilient, and environmentally responsible management strategies that communities worldwide are adopting in response to these issues. The descriptions are accompanied by several case studies of resilient water plans and projects.

  • ( ~ 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 ) 

    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 ) 

    Architectural acoustic design focuses on managing airborne and impact sound within indoor and outdoor spaces. This course addresses the acoustic challenges associated with outdoor recreational spaces, focusing on the surge in pickleball popularity. Participants will learn the fundamentals of sound propagation in open-air environments and explore how modern acoustic products can reduce unwanted noise while maintaining functionality and the design intent. Acoustic solutions for indoor spaces requiring noise reduction are also covered, as well as the role of acoustic barriers in meeting the requirements of the LEED® v5 Building Design and Construction and Interior Design and Construction rating systems and the WELL Building Standard™ v2.

  • ( ~ 1 hour ) 

    Low Impact Development (LID) has several advantages over traditional stormwater management approaches. Since impervious pavement is the main source of stormwater runoff, LID strategies recommend permeable paving for hard surfaces. The course discusses LID, its goals and principles, and how they are achieved. It provides an overview of permeable pavements, and more particularly, plastic permeable grid paver systems and how they support LID goals.

  • ( ~ 1 hour ) 

    Explore how environmental noise impacts public health and community well-being, and review effective noise-mitigation strategies using recycled-material barrier systems. This course discusses how sound behaves in the built environment and how recycled-plastic noise walls reduce carbon emissions, divert waste from landfills, and contribute to sustainability outcomes recognized by LEED® v5 Building Design and Construction (BD+C), SITES® v2, and broader infrastructure sustainability frameworks such as Envision®.

  • ( ~ 1 hour ) 

    In today’s building designs, considering the environmental impact of construction projects is of utmost importance. As a result, factors such as durability, installation speed, cost reduction, and long-term value have become crucial aspects of building designs. This course addresses these concerns in the context of nonresidential building renovations, focusing specifically on using state-of-the-art acoustical ceiling coatings as an alternative to removal and replacement with new materials. The course also examines how acoustical ceiling coatings may apply to several credits and features in the LEED® v4.1 Building Design and Construction rating system and the WELL Building Standard™ version 2.

  • ( ~ 1 hour ) 

    The building envelope is the physical separator between the conditioned and unconditioned environment of a building and provides resistance to air, water, heat, light, and noise transfer. As a thermal barrier, spray polyurethane foam (SPF) offers numerous opportunities to contribute to building envelope performance and indoor air quality in several project types. This course presents the sustainable aspects of SPF, SPF fire and strength testing, and the benefits of SPF in below- and above-grade and rooftop applications.

  • ( ~ 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, 15 minutes ) 

    Vacuum insulation panels (VIPs) offer higher thermal resistance per unit thickness than traditional insulation materials. This means a building envelope can meet the effective R-values for enclosures required by the energy codes without having to increase the thickness of the walls, roof, or floors. This course discusses how VIPs work, why they are effective, and the impact the properties of the materials used to construct a VIP can have on its performance. VIP installations and the latest developments in VIP technology are reviewed to illustrate the advantages of using VIPs as thermal insulation in the design of energy-efficient buildings.

  • ( ~ 1 hour ) 

    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.

Displaying 1 - 25 of 269 results.

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