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5 New Year’s Resolutions for a High-Performance Year

We took some common New Year resolutions and put our SWA spin on them. This year, make resolutions to improve the built environment in 2020!

 

  1. Go on a (Carbon) Diet – diets are difficult, but as with all things, moderation is key. Reducing operational carbon use with super-efficient buildings is only part of the equation. We also need to understand the full Life Cycle of carbon use including building materials and products. Fortunately tools such as EC3 are making these analyses easier to understand; and products, including lower carbon insulation options and lower carbon concrete, are becoming readily available.
  2. Quit Smoking – enforcing no smoking policies is one of the best strategies to improve the health of all building occupants. If you do allow smoking, make sure you develop a good fresh air strategy and compartmentalize your units with a good air barrier. And check out more of our strategies for healthy indoor environments.
  3. Save More Money – lighting provides a significant area for savings. Sure, LEDs are great, but efficient design also means considering lighting power density (LPD). High efficiency fixtures placed in high concentrations still use a lot of energy and can result in over-lit spaces, which drive up upfront and operating costs. Lower your bills and the harsh glare with a smart lighting design.
  4. Travel More – seek out hotels and restaurants that people of all abilities can navigate with ease. Access Earth is an app that tracks the accessibility of public spaces worldwide to help take the guesswork out of accessible accommodations in new locations.
  5. Learn a New Skill or Hobby – looking to expand your horizons? Check out SWA Careers and join our team of change-makers to help develop and implement innovative solutions to improve the built environment.

 

 

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Tech Notes: Accessible Parking in Precast Garages

exterior of parking garageWhen designing accessible parking spaces, it is important to remember that the slope of the ground surface for the entire parking space and adjacent access aisle must not exceed 2% in any direction. We frequently see noncompliant slopes at accessible spaces, especially when the ground surface is asphalt or permeable pavers.  The slope along the perimeter of spaces at curbs or gutters is frequently more than 2% at up to 5%, which requires careful detailing and planning on the part of the architect, civil engineer, and on site contractors to ensure that a compliant slope is achieved at the accessible parking spaces. At parking structures and precast garage systems, we have found that important details and coordination needed to achieve compliant ground surface slopes are often overlooked.

 

design plan drawing

Ground surface slopes at walls or parapets often exceed 2%, (blue highlight) resulting in noncompliant slopes at the heads of accessible parking spaces.

In parking structures, it is common for an area along the perimeter of the slab (adjacent to walls or parapets) to slope in excess of 2% for drainage purposes. In some cases, this slope is embedded into the precast system. As a result, accessible parking spaces must be located away from the sloped edges during the initial design phase.

In other cases, noncompliance results from the application of a cast in place (CIP) wash applied to the top of the precast slab. In the detail shown below, note the slope condition at the CIP topping. The wash is often indicated only in section details on the precast drawing set, making it easy to miss if designers are not specifically looking for how these details affect accessible parking spaces. The entire project team involved in the design and/or construction of the garage must be made aware of where accessible parking spaces are located and understand the specific slope requirements to ensure that details are properly coordinated.

design details drawing

The cast in place topping results in a slope of more than 2% at 8.33% at the head of the accessible parking space.

Once the garage is constructed, it is nearly impossible and very costly to fix noncompliant slopes at the head of accessible parking spaces. In some garages, we have been able to solve the problem by shifting the striping at accessible parking spaces. This results in the steeply sloped ground surface being located fully outside of the parking space and access aisle. The problem is that this solution is dependent upon whether the spaces can be shifted without compromising the minimum required width of the drive aisle or obstructing access to other parking spaces.

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Environments for Aging: Designing Better Senior Housing

entry way of conference with attendees walking in

The 2019 Environments for Aging Conference took place last month in Salt Lake City, UT.

Last month, I had the opportunity to attend the Environments for Aging conference in Salt Lake City. Hundreds of professionals involved in the complex world of senior living gathered to learn from each other and to explore products and services that are designed for the senior population. It was not surprising to see the level of interest in the event; according to the US Census Bureau, 20 percent of the current US population will be 65 or older by 2029. The Baby Boomer generation, which accounts for the majority of that 20 percent, is moving into their 70s and are beginning to consider how and where they want to age. Some Boomers prefer to remain in their current homes in the communities that they helped build. Others want to move into smaller homes or prefer to transition to senior living communities. Many of these senior living communities are popping up both in suburbia and active urban centers in response to the current trend in senior housing preferences.

There are many senior housing typologies: among the most common are independent living, assisted living, and dementia care. Each type of living arrangement has specific needs that must be addressed from a design perspective.

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Trends in Healthcare: Nurse Call Devices

“Trends in Healthcare” is a recurring series that focuses on exciting new designs and technologies we’re seeing in healthcare projects and provides best practices on how to ensure that these latest trends are accessible to persons with disabilities. We build on the wealth of knowledge we gain from working with healthcare design teams, construction crews, and practitioners to provide practical solutions for achieving accessible healthcare environments.


According to the U.S. Centers for Disease Control and Prevention (CDC), falls account for 3 million injuries treated in emergency rooms, 800,000 hospitalizations, and 28,000 deaths each year in the U.S. One in five falls cause serious injuries such as concussions/traumatic brain injuries and hip fractures. Not only is this a public health concern, it is extremely costly. According to the CDC, medical costs directly related to injuries resulting from falls totaled more than $50 billion in 2015.[1] Within hospitals and long-term care facilities, effective implementation of interventions and design strategies to reduce patient falls are key to increased patient safety and decreased medical costs. However, it may not be possible to eliminate patient falls altogether, so features like a properly installed nurse call system can be life changing.[2]

Accessible Nurse Call Stations

Most state and local standards and regulations require nurse call devices in each public toilet room and within inpatient bath, toilet, and shower rooms.[3,4] Where provided in spaces required to be accessible, the nurse call device must also be accessible. An accessible nurse call device is one that meets the following requirements: (more…)

Tech Notes: Meeting the Accessibility Criteria for Horizontal Exit Doors

Getting out of a building during a smoke or fire event can be traumatic for anyone. But, just imagine how traumatic it can be for a person who uses an assistive device, such as a wheelchair? If proper maneuvering clearance is not provided at doorways, then a person can become trapped.

Building code requirements for accessible means of egress have been developed to ensure that people with disabilities can exit buildings safely in the event of a fire. These requirements, found in chapter 10 of the International Building Code (IBC), establish proper maneuvering clearances at certain doors to safeguard against the potential for entrapment. Horizontal exit doors are an example of such doors.

Horizontal Exit Doors

horizontal exitWe’ve all seen them; in a hospital corridor, at the school cafeteria, or near the elevator lobby in a high-rise apartment building. They are doors that are held open most commonly by magnetic locks, which are connected to the building’s fire alarm system. When the building’s fire alarm is triggered, the magnetic hold-open device releases, and the doors close to contain smoke and flames.

 

The 2015 IBC defines a horizontal exit as:

“An exit component consisting of fire-resistance-rated construction and opening protectives intended to compartmentalize portions of a building thereby creating refuge areas that afford safety from the fire and smoke from the area of fire origin.”

 

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‘All-Access’ with Peter Stratton

There are approximately 57 million Americans living with disabilities in the United States; worldwide, people with disabilities make up 15% of our population. Given this information, we must do our part to ensure that people with disabilities have equal access to opportunities afforded to everyone – starting with equal access to buildings.

This week’s guest is a long-time accessibility expert who serves as the Managing Director of SWA’s Accessibility Services, Peter Stratton. Peter begins the episode with an overview of the existing accessibility requirements in the U.S. and highlights additional measures that should be taken to ensure inclusiveness for all. Join us to learn how we can foster a more accessible built environment through careful design and planning.  (more…)

Trends in Healthcare: Patient Check-in Kiosks

“Trends in Healthcare” is a recurring series that focuses on exciting new designs and technologies we’re seeing in healthcare projects and provides best practices on how to ensure that these latest trends are accessible to persons with disabilities. We build on the wealth of knowledge we gain from working with healthcare design teams, construction crews, and practitioners to provide practical solutions for achieving accessible healthcare environments.

And now for our first installment…Patient Check-in Kiosks!


Check-in kiosks are becoming prevalent in state-of-the-art healthcare facilities. Where provided, at least one of each type of kiosk must be accessible.

Imagine that you are walking into the waiting room of your doctor’s office for your annual checkup. The waiting room is overflowing with people and the receptionists are answering phone calls, entering information into the computer, and taking care of the long line of patients ahead of you. That’s when, out of the corner of your eye, you see several touch screens located on a nearby counter. You’ve grown accustomed to self check-in kiosks at airports and theaters, but not at your doctor’s office. Eager to skip the long line, you make your way toward the digital devices. Hooray! Patient check-in kiosks have arrived!

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Designing for All: What the Cooper Hewitt’s Access+Ability Exhibition can teach us about Accessible Design

SWA’s Accessibility Consulting Team at the Cooper Hewitt Museum’s Access+Ability Exhibition

SWA’s Accessibility Consulting Team recently had the opportunity to tour the Cooper Hewitt Museum’s Access+Ability exhibition, where the theme of inclusive and accessible design is displayed and celebrated. The exhibit narrates a history of design with disabilities in mind, focusing on the “surge of design with and by people with a wide range of physical, cognitive, and sensory abilities.” As we moved through the exhibit, I found it fascinating to see how products or designs that were initially intended to address a need brought on by a disability (like email or text messaging) have now been adapted into everyday modern conveniences. It’s interesting to bring this idea back to our work as accessibility consultants – often, if designers are willing to incorporate inclusive or universal design principles, it is possible for accessible features to blend seamlessly into the overall design intent, providing an environment that can be easily and equally used by everyone, with or without a disability.

Here are some thoughts on the exhibition from other members of our Accessibility Consulting Team…

 

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Sustainable Spaces for Seniors

Panelists and organizers at the “Sustainable Spaces for Seniors: Design for Aging and the Environment” event at Hafele’s NYC Showroom

On May 1st, 2018, Steven Winter, founder and chairman of Steven Winter Associates (SWA), and Harold Bravo, Accessibility Consulting Director at SWA, moderated an event at the Hafele Showroom to discuss senior housing in New York City and its relation to accessible and sustainable design. The event was organized jointly by the AIANY Design for Aging Committee (DFA) and the AIANY Committee on the Environment (COTE).

A panel of experts presented perspectives from architecture, real estate development, and municipal government, and discussed the challenges of designing sustainable, comfortable, accessible, and healthy buildings for the aging population in New York City. The panel included Kleo J. King (Deputy and General Counsel, Mayor’s Office for People with Disabilities), Isaac Henderson (Development Director, L+M Development Partners), Jack Esterson (Design Partner, Think! Architecture+Design), and Rich Rosen, AIA, LEED AP (Principal, Perkins Eastman).

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Tech Notes: Accessible Design Solutions for Protruding Objects

Limits of Protruding Objects
[US Access Board]

When most people think about accessible design, the first thing that comes to mind is designing for people in wheelchairs. However, there’s a lot more to it than that. Requirements in federal, state, and local accessibility laws and codes account for a wide range of disabilities, including vision impairments. One of the most important design considerations for people with vision impairments is eliminating projections into the circulation path. Objects projecting from walls or other fixed elements can pose a hazard if they do not meet certain requirements. Any object that extends more than 4 inches into the circulation path between 27 and 80 inches above the finished floor is considered a protruding object and must be protected by a fixed cane detectable barrier installed below the object.

There are many ways to provide adequate protection at protruding objects and our accessibility consultants are always keeping an eye out for accessible design solutions that look like they were an intentional part of the design, rather than an afterthought. Here are just a few of the more successful and aesthetically pleasing examples of cane detectable barriers that we have come across…

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