Program: The Art and Technology of Lighting

This course will explore the use of exterior lighting to illuminate building facades, landscapes, pathways, plazas, and points of interest, like statues. Popular techniques (moonlighting, wall washing, grazing, etc.) will be defined and the performance of various lighting fixtures will be compared to help designers identify the fixtures best-suited for particular applications. Important considerations including: energy codes, dark sky criteria, and occupant safety will be addressed. The renovation of the exterior lighting at the Greater Columbus Convention Center, designed by Ardra Zinkon, will be profiled.

HSW Justification:
Exterior lighting can facilitate the enjoyment of an outdoor space and enhance the feeling of safety and security people experience in these areas, but the design of exterior lighting systems must accomplish more than bathing an area in illumination indiscriminately. Energy codes limit the amount of energy that the lighting system can consume and define lighting controls requirements to minimize energy waste. In addition, the Model Lighting Ordinance (MLO), developed by the International Dark Sky Association (IDA) and the Illuminating Engineering Society (IES), provides guidance on ways to reduce light pollution and glare that can be created by outdoor lighting. This course will provide designers with tips on how to create exterior lighting solutions that satisfy energy codes and dark sky criteria, while providing ample illumination to create beautiful and inviting outdoor spaces.

Learning Objective 1:
Create exterior lighting designs that provide the recommended levels of illumination for highlighting facades, supporting wayfinding, and accenting features of the outdoor space, while satisfying code-mandated energy use and controls requirements as well as dark sky criteria.

This course will cover introductory level descriptions of various sectional door styles and how they impact energy efficiency, maximize ambient light, add to design aesthetics, and protect the health and safety of building occupants. Additionally, applicable varieties of industrial doors will also be included.

Modern open spaces create a unique set of challenges when it comes to acoustics, particularly because many new buildings are designed with open plans and open plenums. Fortunately, there are innovative acoustic systems on the market that are designed to integrate with open plenums that can help to overcome these challenges. This course will discuss customizable acoustical solutions for open plenum design, including baffles, beams, clouds, and acoustical wall panels, which are available in a variety of materials like metal, wood, fiberglass, and felt. The course will explore the importance of acoustical design and how these open plenum ceiling systems can transform a space aesthetically while maximizing acoustics.

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.

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.

As architects and clients alike demand the creation of what’s next, design teams rely on new product systems and solutions to help them push the boundaries of form and function. This article profiles a few solutions that enable architects to create distinct building envelopes that don’t sacrifice on the efficient performance or sustainable design considerations that also occupy prominent spots on almost every client’s wish list.

HSW Justification:
This article explores solutions that enable architects to deliver a desired aesthetic that also performs efficiently and offers sustainable design benefits. For example, thermal barriers in the aluminum framing that hold the glazing in place allows architects to complete historic renovation projects that exceed thermal performance targets, without compromising the integrity of the historical aesthetic. Composite metal panel systems that support very unique applications and creative demands from design teams can also offer top-tier performance in terms of fire-, water-, and impact-resistance. Extruded aluminum trim beautifully meshes different types of exterior cladding, while helping the envelope to better manage moisture.

Learning Objective 1:
Explain how incorporating thermal barriers into the aluminum framing in the fenestration of the Crosstown Concourse helped the project become the world’s largest LEED Platinum historic rehabilitation project, while maintaining the integrity of its historic aesthetic.

Learning Objective 2:
Specify a composite metal panel system that offers the resistance to fire, water, and impact best-suited to the needs of a particular project.

Learning Objective 3:
List the aesthetic and sustainability-related benefits of specifying extruded aluminum trim on an exterior cladding.

Learning Objective 4:
Describe how the different finishes of precast concrete used in the façade of the Ale Asylum were reverse engineered to perfectly match the concept originally pitched and accepted by the city.

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.

Dynamic lighting, also known as tunable, color-changing, and circadian lighting, is being adopted and employed in current lighting designs.  There are many studies showing the benefits of dynamic lighting in built environments.  Early adopters have seeded the market and several lighting manufacturers now employ some level of Dynamic Lighting. This course is intended to explore what  Dynamic Lighting is, how it works in commercial luminaires, how to control it, and where the lighting community is being directed by standards, regulation, and voice of the customer. 

At the end of this course, participants will learn:

1. Define elements of dynamic lighting.
2. Learn the uses of dynamic lighting.
3. See illustrations of how to control dynamic lighting.
4. Become aware of the regulations, standards, and customer requests that are driving adoption.

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.

Designing with Pre-Crimped Woven Wire Mesh is a streaming video course that explores interior and exterior applications and functions for woven metal mesh products in architectural design. The course examines key functions of these materials, details the manufacturing process, and outlines critical specification considerations to ensure beautiful and long lasting installations.