This article explores some of the latest products and solutions improving the air quality, thermal comfort, electric light, and daylight control that can be incorporated into a project. Each improves the wellness of the people in the built environment.

Learning Objective 1: Explain how air circulation improves thermal comfort and alertness.

Learning Objective 2: Describe the ways that increasing the presence of plants and greenery on a project have been shown to clean the air, reduce urban heat island effect, and positively affect the health and wellbeing of people in the built environment.

Learning Objective 3: Summarize how circadian LED lighting technology delivers health benefits—improving overall sleep quality, daytime productivity, and feelings of wellbeing—that modern architectural lighting lacks.

Learning Objective 4: Discuss how using an underfloor air distribution system (UFAD) improves indoor air quality.

Learning Objective 5: Identify the latest advancements in smart window technology that allows these solutions to control glare and solar heat gains, while maintaining views to the outdoors.

Designing with green roofs affords design professionals opportunities to plan projects with exciting new elements, added value, and significant, tangible benefits, thereby enhancing the built environment with newly-created landscapes. This course examines green roof systems, including the types, benefits, components, and related standards. It also reviews a number of installations that demonstrate these principles.

This course explores the impact of the COVID-19 pandemic on design and construction decisions, particularly focusing on operable glass walls in interior and exterior applications, primarily in the hospitality industry. Students will gain familiarity with terminology, capabilities, and uses of operable glass walls, with an emphasis on addressing health concerns post-pandemic through responsive design. The course highlights how operable glass walls contribute to improving the health, safety, and well-being of building occupants while also providing psychological benefits by creating comfortable environments. Practical design concepts applicable to various commercial projects will be covered, with direct access to manufacturer resources for further assistance.

Learning Objective 1: You will be able to identify and recognize the significance of the health concerns related to the COVID-19 pandemic as they relate to building design and product selection.

Learning Objective 2: You will learn how to assess the safety aspects of incorporating design and product selections that protect buildings, occupants, and owners from harm and damage, particularly in light of unexpected violence and vandalism.

Learning Objective 3: You will be able to explain the welfare aspects of design and product selection that enable equitable access to all, can elevate the human experience with daylight and outdoor access, and benefit the environment through sustainable building design.

Learning Objective 4: You will be able to determine ways to incorporate the design principles as presented into different building types and applications.

The building envelope has a lot of different jobs to do—from insulating the building so that it can be efficiently heated and cooled to providing air and water barriers that keep harmful moisture at bay, as well as providing the aesthetic face of the project. High performance building envelopes do all of those things extremely well. This article explores some of the latest high-performance solutions that can be used to create those high-performance envelopes.

HSW Justification:
A high-performance building envelope is necessary to create a building that is efficient and healthy. This article takes a look at how different components in the building envelope perform—giving architects the information they need to choose high-performance components that will produce a high-performing envelope.

Learning Objective 1:
Compare different types of continuous insulation in terms of the thermal performance they offer and the way they behave when exposed to water and fire.

Learning Objective 2:
Describe how insulated metal panels (IMPs) can be used on the envelope to improve building performance, create efficient and healthy interiors, and enhance design flexibility.

Learning Objective 3:
Explain how PET bottles can be upcycled into insulation creating a new product that contains recycled material and improves thermal performance of the building envelope.

Learning Objective 4:
Describe the ways that architectural metal wall systems enable architects to push the creative boundaries of their designs.

The WELL Light concept promotes exposure to light and aims to create lighting environments that are optimal for visual, mental and biological health. This session explores the elements that make up the WELL Lighting concept and provides insights and recommendations for designing to these standards.

This course will introduce you to the custom balanced door. You will learn about the system components and the differences between a Balanced door and a conventional hinged or pivoted swing door. Then we'll take a closer look at how a balanced door works in an installation. Finally you'll learn about the specific engineering requirements needed to accommodate balanced doors.

HSW Justification:
Balanced doors are safer than conventional doors because they require a smaller interference zone on the sidewalk. Also, they open with ease which benefits smaller people, weak or disabled persons, and the elderly. The majority of this course deals with those benefits and with the mechanical features of the door that make these health and safety benefits possible.

Learning Objective 1:
Understand the differences between the balanced door and a conventional hinged or pivoted swing door

Learning Objective 2:
Know specific requirements for ADA handicap guidelines LO 5: Understand how the balanced door interfaces with power operation LO 6: Understand specific engineering requirements to accommodate balanced doors

Learning Objective 3:
Understand what components make up a typical balanced door system

Learning Objective 4:
Know how the design concept works in an actual installation

Addressing student behaviors, improving the learning environment, and enhancing the sustainability of educational buildings with design.

Learning Objective 1: After reading this article, you should be able to: describe how the inclusive restroom design concept addresses the bad behaviors plaguing bathroom spaces and improves student safety

Learning Objective 2: After reading this article, you should be able to: summarize the ways that acoustical surfaces, lighting, and HVAC systems are being used to improve the comfort of the learning environment, helping students perform better in class.

Learning Objective 3: After reading this article, you should be able to: identify various solutions that can be incorporated to heighten security throughout a school.

Learning Objective 4: After reading this article, you should be able to: explain some of the sustainability strategies making schools more environmentally friendly.

Program: Architecture, Design, and Building Science

The purpose of this presentation is to give you a clear understanding of the features and benefits of textured metals and discover how to best specify stainless steel and metal alloys in your projects. The first part of our talk will introduce the ecological and economic properties of textured stainless steel as well as educate you on the composition of metals and alloys. The second portion of this presentation will illustrate the process of texturing metals and their applications, as well as how to specify them. The session will also review projects that use textured metals - with beautiful results.

HSW Justification:
Most of this course is dedicated to explaining the aesthetic, ecological and economic advantages of textured metals. Most often, the metal used in stainless steel, which is very long-lived, valuable and 100 percent recyclable. The case studies focus on many beautiful installations that enhance the lives of occupants and visitors through the art and craftsmanship of the installations.

Learning Objective 1:
Students will understand ecological, economic, health and safety benefits of utilizing metals that can be deep textured.

Learning Objective 2:
Students will explore current applications that employ deep textured metals because of their ecological benefits, enhanced performance, and aesthetic attributes.

Learning Objective 3:
Students will learn compositions of metals that can be deep textured, how each performs under varying environmental constraints, and how to safely and economically specify deep textured metals.

Learning Objective 4:
Students will discover end user benefits of deep texturing metals, including performance enhancement, material usage reduction and longer product lifecycles.

This course will describe the aesthetic and biophilic benefits, as well as the objective sustainability standards achieved by innovative metal wall materials that mimic wood. The course will describe how the materials provide both physical and emotional comfort to occupants, protection from harsh weather, and the community benefits of sustainable construction. A variety of applications are also detailed in case studies of actual projects.

Learning Objective 1:
The student will understand how and why the use of materials that mimic but outperform natural materials is highly desirable.

Learning Objective 2:
The student will be able to explain the technologies applied to materials and methods of construction that mimic wood in order to improve sustainability and resist environmental attack.

Learning Objective 3:
The student will recognize the favorability of these materials and methods of construction through a recitation of their achievements in testing and evaluation, how they meet construction standards, and what contributions they make to LEED v4.

Learning Objective 4:
The student will become familiar with a variety of existing projects that demonstrate successful adoption of these products and methods.

This course will discuss light pollution and its relation to the International Dark-Sky Association. After taking this course, individuals will know the impacts of light pollution as well as the difference between IDA and non-IDA lighting.

At the end of this course, participants will learn:

1. To define IDA, light pollution, and related terms
2. To identify the impacts of light pollution
3. To demonstrate the difference between IDA and non-IDA lighting
4. To assess the process of establishing IDA certification