High rise fires are not new to us. In fact, we have seen an increase in fire incidents in Asia, Europe, and the Middle East in the last 5-10 years that have amplified awareness on fire safety performance of taller structures. High rise buildings present a greater risk with an increased number of occupants that have a limited means of escape in the event of a fire. That is why the time element for containing a fire is so critical. Also, as we have seen in actual fires, vertical fire spread at the exterior façade can rapidly overwhelm fire fighters means of interceding the fire from ground level. As the fire accelerates and upward spread progresses, it often reaches a height beyond the reach of fire services water streams. That is why containing a fire and preventing it from spreading vertically is so critical for both occupant and first responder safety.

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. 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.

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.

This session will present how IoT lighting can be a fundamental platform for smart environments.  Well planned building integration allows a flexible, scalable lighting system to collect the data that ultimately brings more value to the building owner.

At the end of this course, participants will learn:

1. Define IDA, light pollution, and related terms
2. Identify the impacts of light pollution
3. Demonstrate the difference between IDA and non-IDA lighting
4. Assess the process of establishing IDA certification

Architecture tells us a great deal about society. In fact, glass and glazing are used to blur the lines between inside and out, helping elevate performance and the experiences of people. Yet while humans can use environmental cues to identify glass as a barrier, there is growing realization that birds cannot. The solution is bird-friendly glass that delivers on performance, energy efficiency and the needs of people. This course from Guardian Glass is intended to provide the basis for a better understanding of how to recognize issues affecting the bird population while learning about best practices and design fundamentals for smarter, safer buildings.

Program: Landscape Environmental Design

This course will describe the replica Green Wall Trend, that is the use of biomimicry in artificial plants in interior and exterior green wall systems. The trend toward biomimicry is driven by low cost, low maintenance, very high quality plant substitutes, and no water, light, power or HVAC resource requirements. Yet, Replica installations provide the same aesthetic and evoke the same desirable biophilic responses as live plants.

HSW Justification:
Replica Green Walls have all the biophilic benefits of green walls, such as promoting healing, reducing anxiety, and attenuating noise. Replica green wall spaces are especially conducive to gathering and can foster community, encourage group meeting and communication, and promote human interaction. In addition, they have added sustainability benefits by eliminating regular maintenance, the need for water for irrigation, or the need for electrical energy for light, or the need for electrical and/or natural gas for heating or cooling.

Learning Objective 1:
Students will be able to define a Replica Green Wall and describe its benefits and advantages

Learning Objective 2:
Students will be able to identify and describe the quality indicators in a green wall, including the types of systems available, the types of foliage available, and the areas of research and development underway.

Learning Objective 3:
Students will be able to describe appropriate applications for a replica green wall.

Learning Objective 4:
Students will be able to list in detail the various methods of installation.

Note: The Continuing Architect is permitting the brand name of this product to be mentioned because it was the only product of its type and is patent pending.

Inverters are a modern, simple way to achieve an emergency lighting solution while minimizing maintenance costs and utilizing existing architectural fixtures for emergency purposes. This course will give the student the skills they require to design and specify inverter-based emergency lighting systems.

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.

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 review the importance of acoustics in architecture, discuss the fundamental principles of sound management, explore how to design interior spaces to maximize occupants’ comfort, and review emerging tools to solve for both sound and lighting. It will also focus on the standards that govern acoustic requirements for diverse applications.