Tips for designing and building with bathroom pods

There are still hurdles to overcome, but prefabrication techniques are steadily becoming more viable and widespread, as Building Teams realize the potential for labor, schedule, and even cost savings.

In order to receive the full benefits of designing and building with prefabrication techniques, such as bathroom pods, AEC firms should eye projects with repetitive layouts—hotels, student residence halls, in-patient towers, etc. “The more repetition, the more value there is in prefabricating,” says Ray Rigsby, Project Executive with Gilbane Building Co. “Any facility type that has repetitive floor plans lends itself to prefabrication.”

Bathrooms are a particularly good fit for prefabricated construction. Commercial projects such as hotels and student housing typically require large numbers of bathroom units with little or no variation unit to unit. And because bathroom dimensions meet road trucking size limits, the finished product can be shipped to the project site without having to be broken down into multiple components and reassembled on the job site.

Bathroom pods have also emerged as a pro tem solution to the construction industry’s ongoing labor shortage. “As a country, we have 1.5 million fewer trades people today than we did in 2007, when we had a similar level of construction activity going on,” says Bill Seery, Managing Director, Oldcastle SurePods, a bathroom pod manufacturer. “This is a structural change in the U.S. construction industry that is never going to go away.”

Rigsby agrees with this sentiment and believes prefabrication provides an answer. “The construction workforce is getting older, there are fewer workers coming into the trades, and there is an overall push to reduce labor costs,” he says. “Prefabrication will be used to offset this trend and in markets that are saturated with work to help offset a lack of workers.”

Bathroom pods are moved into position at the Seattle Embassy Suites. Jeff Beck, Courtesy Oldcaste SurePods.

Maximizing the Power of Pods

In order to optimize bathroom pods for a given project, the pods need to be incorporated into the design process early—no later than design documents, says Seery. Determine the pod details early—“Reworking details defeats the purpose of prefabrication,” says Rigsby—and start planning with a solid understanding of what the final product will be.

Rigsby and Seery offer additional tips and advice based on their decade-plus career working with prefab construction methods:

All bathrooms should be the same size and shape. Any slight deviation, other than finishes, requires a new pod template.
Ensure pod sizes are reflected correctly in the framing details.
The pod supplier, architect, and contractor should perform a BIM conflict analysis to ensure there are no MEP clashes.
Factor in site storage options and installation paths for the pods during preconstruction planning. Consider issues related to access to each floor level to allow rigging of the pods.
Designers should consider the interface between the top of the pod and the ceiling structure to avoid any gaps or misalignment of utilities.
Make sure all necessary connection points are accessible from the outside.
Once installed, ensure the pod is squared and plumbed.

The more planning that goes into incorporating bathroom pods, the more beneficial they will be. Based on research and client feedback, Seery estimates that bathroom pods accelerate projects by roughly two months on average.

Rigsby says bathroom pods can also improve quality compared to traditional construction. “The quality control is better, and there are fewer varying conditions in the field and less day-to-day worker variation,” he says.

The 282-room hotel is scheduled to open this summer. Jeff Beck, courtesy Oldcaste SurePods.

evolution of the bathroom pod

A decade ago, bathroom pods were constructed with basically the same process as field-built bathrooms, just in a factory setting. Since that time, however, the process has been refined and streamlined.

“We now work natively in Revit for BIM, so we can provide pod models for the architect to drop directly into their building model,” says Seery. “Our Revit models translate directly into machine code for our production robots to produce many of our production pieces, which reduces labor and provides better overall tolerances and accuracy for the pods.”

The products used within the pods have also evolved and improved. SurePods, for example, has created a patent-pending, fully water- and crack-proof ceiling assembly that offers a five-year, no-crack warranty.

Increasingly sophisticated finishes and detailing have expanded the applications for bathroom pods, from suite apartments and dormitories to five-star hotels with complex, five-fixture setups.

“When we started in 2004, the technology to fully automate part of the design-to-manufacturing process did not exist,” says Seery, “nor did some of the more progressive materials we use today.”

The project’s developer estimates that the use of bathroom pods shaved two months off of the construction schedule. Jeff Beck, courtesy Oldcaste SurePods.

Architectural concrete as we know it today was invented in the 19th century. It reached new heights in the U.S. after World War II when mid-century modernism was in vogue, following in the footsteps of a European aesthetic that expressed structure and permanent surfaces through this exposed material. Concrete was treated as a monolithic miracle, waterproof and structurally and visually versatile.

Blast Hazard Mitigation: Building Openings for Greater Safety and Security

Advances and Challenges in Improving Indoor Air Quality HorizonTV

Coronavirus | Jan 20, 2022

Advances and challenges in improving indoor air quality in commercial buildings

Michael Dreidger, CEO of IAQ tech startup Airsset speaks with BD+C's John Caulfield about how building owners and property managers can improve their buildings' air quality.

3D Printing | Jan 12, 2022

Using 3D-printed molds to create unitized window forms

COOKFOX designer Pam Campbell and Gate Precast's Mo Wright discuss the use of 3D-printed molds from Oak Ridge National Lab to create unitized window panels for One South First, a residential-commercial high-rise in Brooklyn, N.Y.

Total steel project performance

This instructor-led video course discusses actual project scenarios where collaborative steel joist and deck design have reduced total-project costs. In an era when incomplete structural drawings are a growing concern for our industry, the course reveals hidden costs and risks that can be avoided.

Architects | Dec 20, 2021

Digital nomads are influencing design

As our spaces continue to adapt to our future needs, we’ll likely see more collaborative, communal zones where people can relax, shop, and work.

Urban Planning | Dec 15, 2021

EV is the bridge to transit’s AV revolution—and now is the time to start building it

Thinking holistically about a technology-enabled customer experience will make transit a mode of choice for more people.

Healthcare Facilities | Dec 15, 2021

MEP design considerations for rural hospitals

Rural hospitals present unique opportunities and challenges for healthcare facility operators. Oftentimes, the infrastructure and building systems have not been updated for years and require significant improvements in order to meet today’s modern medical demands. Additionally, as these smaller, more remote hospitals are acquired by larger regional and national healthcare systems, the first step by new ownership is often to update and rehabilitate the building. But how can this be done thoughtfully, economically, and efficiently in ways that allow the engineering and facility staff to adapt to the changes? And how can the updates accurately reflect the specific needs of rural communities and the afflictions with which these areas most commonly face?