Achieving a Balance of Life Safety and Wellness
Designing buildings for life safety and wellness is getting easier.
...Read MoreThis is your go-to source for free AIA-approved continuing education for architects. Plus, almost all our courses are delivered in streaming HD video. Registration is fast and easy, just click on Login/Register above. Then, you can enroll in any of our courses found in any of our programs with a single click. Our courses meet or exceed NCARB's high standards for state board license renewal. AIA member? Your credit will be reported to AIA for you.
Designing buildings for life safety and wellness is getting easier.
...Read MoreThis 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.
...Read MoreThe building envelope separates the conditioned interior space from the environmental elements of the great outdoors, and this course explores a few solutions to equip the building envelope to defend the interior from nature's onslaughts, manage moisture, improve thermal performance, and admit daylight without glare.
HSW Justification:
Improper use of vapor barriers is one of the leading causes of moisture-related issues in buildings today. Those moisture related issues can include the growth of mold and mildew, which compromises the quality of the indoor environment and can even cause structural damage. Designing a proper air barrier system is crucial to moisture protection and protecting the thermal performance of the original design. This article provides best practices for designing an air barrier system that will function properly. We also discuss some solutions that can improve the functionality of the building envelope’s thermal performance. The course explores a translucent and an opaque solution that improve the thermal performance of the envelope, while offering additional benefits. Translucent wall panels allow diffuse, glare-free daylight into an interior, without compromising thermal efficiency at the opening and precast structural panels offer code-exceeding thermal performance and structural load-bearing capabilities.
Learning Objective 1:
Students will be able to explain why controlling air leakage in the building envelope is crucial to safeguarding the quality of the interior environment and protecting the energy efficiency of the building.
Learning Objective 2:
Students will learn to apply best practices to design an air barrier system that will effectively manage moisture intrusion and avoid moisture-related issues in the building envelope.
Learning Objective 3:
Students will be able to describe how translucent daylight panels allow daylight into the interior, mitigate glare and provide better thermal performance than many other glazing solutions.
Learning Objective 4:
Students will learn to use structural precast concrete panels to reduce the amount of perimeter steel needed on a project, while achieving and exceeding code-compliant thermal performance.
This course will explore the cutting-edge union of design and technology by delving into parametric design and its symbiosis with digital fabrication, and how the vision is best achieved via vertically-integrated, technology-forward product manufacturers. We will also discuss strategies for effective collaboration with these manufacturers throughout the architectural design process.
Learning Objective 1: Students will learn about the use of parametric design in architecture, including its definition, history and current state.
Learning Objective 2: Students will learn about the marriage between parametric design and digital fabrication.
Learning Objective 3: Students will understand why vertical integration is an important operating model for product manufacturers looking to leverage parametric design.
Learning Objective 4: Students will understand how to partner with vertical manufacturers throughout the architectural design process and learn the advantages of this digital collaborative approach.
...Read MoreSolar shading devices, while available in numerous weaves, textures, and colors, go beyond contributing to the aesthetics of a space. Specified correctly, solar shading devices can maximize daylighting benefits and contribute to occupant well-being, productivity, and engagement, while mitigating the detrimental effects of UV rays and glare.
Learning Objective 1:
Students will understand the benefits daylighting, including the psychological and physiological well-being of occupants, as well as its drawbacks, such as glare and solar heat gain
Learning Objective 2:
Students will become familiar with the types of solar shading fabrics available for use in commercial settings and their components, including operating systems, weave, color, and openness factor, and the ways in which these contribute to the control of daylighting.
Learning Objective 3:
Students will explore the benefits of solar shading devices that extend beyond light management, such as sound mitigation, sustainability, and antimicrobial properties.
Learning Objective 4:
Students will determine how to select the right fabric for an application, taking into account aesthetics and room conditions
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.
NFPA 70, the national electrical code details 2 different types of Emergency Lighting Control Devices—devices that guarantee that life safety lighting will be on at desired illumination levels in the event of an emergency. This course will help mitigate the confusion regarding the specification of these devices and understand their applications in the real world.
Prerequisite Knowledge: Knowledge of life safety systems, particularly a high-level understanding of the purpose of emergency lighting inverters and generators. In particular, ISO-1001/ISO-1002 would be a perfect lead into this course.
HSW Justification: This deals with life safety, the safe egress, and illumination of buildings in the event of an emergency.
Learning Objective 1: Understand the background technology where ALCR and BCELTS devices need to be deployed.
Learning Objective 2: Learn the difference between the technologies and reviews how they sit within one-line diagrams.
Learning Objective 3: Understand some of the real world tradeoffs between the device types as it relates to wiring, proximity and ease of testing.
Learning Objective 4: Understand the integration of lighting controls with the different types of ELCDs and review some tricks for how to reduce costs in systems.
...Read MoreHigh 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.
...Read MoreThis 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:
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.
...Read More