Strategies for attainable housing design with modular construction

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Strategies for attainable housing design with modular construction

Urban, market-rate housing that lower-income workers can actually afford is one of our country’s biggest needs. For multifamily designers, this challenge presents several opportunities for creating housing that workers such as entry-level teachers can afford on their salaries.

Three promising strategies are modular construction, adaptive reuse, and micro-units.

Multifamily Modular Construction Criteria for ROI

This is one of the most exciting evolutions in housing. We have studied modular construction and prefabricated panels/assemblies for more than 20 years, integrating them into multifamily projects whenever viable. Our three criteria for assessing modular’s ROI viability for a project:

  1. Design Flexibility
  2. Project Location
  3. Scale

1. Design Flexibility

One misconception about modular construction is that design choices are made strictly by factory-affiliated designers so that the individual modules will fit on a flatbed for truck delivery. Within that restriction, we’ve found surprising latitude working with modular manufacturers to customize the design to fit the local context and job-site configuration. Modular manufacturers are generally open to design input on floorplans, materials, appliances, and more.

 Kansas City project’s elevation shows the cast-in-place concrete plinth under the pods
The Kansas City project’s elevation shows the cast-in-place concrete plinth under the pods, which are staggered for a Lego effect. Photo © El Dorado, Inc.

While initial design conversations often discuss downplaying and obscuring the process, we prefer to lean into modular’s building-block bones. As Lego fans, like many AEC professionals, we celebrate the stacked-and-stitched approach to these projects. Realization can include staggering certain modules to accentuate the individual pieces. Further, prefabricated exterior panels and assemblies elevate the assembly-line panache.

2. Project Location

The site has enormous impact on a project’s suitability for modular construction. So that delivery costs don’t negate modular’s advantages over traditional stick-built construction, the site should ideally be within a day’s drive of a suitable factory—generally 400 miles or less, pending topography, population density/traffic, weather, and other variables. Further, rectangular parcels, even narrow infill ones, are well suited to modular construction.

3. Scale

Size of the project is the third determining factor. Under present modular manufacturing capabilities, we feel that 350 apartment units is the upper limit for factory-built modules to be delivered on a financing-viable timeline. Manufacturing capacity should increase in the near future as capital investment accelerates both the number and plant sizes of factories throughout the country. Several states now offer economic stimulus programs that encourage modular manufacturing and project development.

Modular construction complex being put together by crane
This sequencing scenario features stepped modules to add motion and depth. Photo © El Dorado, Inc.

Housing Shortage Solutions with Modular and Prefab

We see modular as an emerging solution for the housing shortage in three primary areas:

Affordable Housing

Since these projects take considerably longer to navigate the layers of government regulations than market-rate projects, modular can save build time for smaller affordable housing projects. As modular manufacturing competition and capacities increase, build costs could conceivably be more advantageous than budgets for stick-built projects.

Missing Middle

Modular construction can accelerate development of market-responsive apartments. Compressing project timelines and saving costs will motivate developers to profitably do projects that rent to tenants earning entry-level wages. 

Student Housing

Colleges often have fewer entitlement restrictions than market-rate housing. Modular construction offers college administrators more options for efficiently expanding student housing. On-campus housing design influences enrollment decisions, and studies show that students who live on campus have higher GPAs and better mental health.

Modular Construction Advantages and Disadvantages

The modular construction process has several advantages:

Time

Traditionally, construction financing drives the project timeline. When all stakeholders are organized and aligned, modular can save significant time compared to traditional construction—we currently estimate about 30% faster. Inspections are expedited. Modular manufacturers build the pods to comply with relevant codes, and regular assembly-line inspections ensure compliance.

Scheduling and coordination among all stakeholders are crucial to project success. The ultimate goal is to schedule module delivery to begin as soon as the site is ready; storage costs for completed modules can undermine modular’s advantages. Preliminaries—where a modular-literate architect can be invaluable—include finalizing the design, working with the factory to include materials, and selecting FF&E readily available in the current supply chain. 

Construction

Site construction is dramatically simplified. Once the pods arrive at the build-ready site, the modules are placed and connected. Change orders and subcontractors are minimized. Further, module assembly requires smaller crews. This is a huge advantage under the current labor shortage, and smaller crews equate to fewer workers’ comp claims. We’ve found that working with a builder who’s previously done modular projects eliminates what can be a considerable learning curve.

Options for modular construction design of a multifamily building
Three different circulation patterns were explored in this modular project. The “Double L” configuration with staggered modules accentuates the building-block construction. Photo © El Dorado, Inc.

Quality

Automated manufacturing minimizes human error. Quality control is also higher in a factory than on a job site. Even better, each module is wrapped in insulation. This improves thermal performance and sound absorption over traditional construction. One-inch airspace between assembled modules further elevates R-value and increases sound isolation.

Sustainability

Because factory assembly is tightly controlled, materials can be accurately ordered for each project. This minimizes build waste to about 3% for what amounts to approximately 70% of the project’s overall construction. Landfill waste is significantly reduced.

There is one main challenge:

Financing

Financing must be front loaded. In the pro forma, developers must account for large spikes in deposits to the modular manufacturer for ordering materials, finishes, and appliances as a precursor to setting up the assembly line. Lenders can be an obstacle here, as most are accustomed to smaller deposits spread out during the process for stick-built construction. Once banks understand and embrace modular’s shorter loan durations, they will be more enthusiastic. In effect, the overall project timeline is recalibrated, yet is still driven by the construction loan.

Adaptive Reuse, Micro-Units for Residential Conversions

With demand for commercial office space plummeting since the pandemic, landlords are desperate to increase occupancy of existing—and sometimes brand-new—buildings. Residential conversions are a popular topic among politicians. We assess conversion viability on three factors:

  1. Floor plate
  2. Condition of the existing mechanical system
  3. Building envelope

Rectangular floor plates lend themselves to apartment configuration. Odd-shaped buildings do not convert into expected apartment configurations. However, a few oddly shaped spaces can be more viable as community amenities.

In some buildings, updating and upgrading MEP systems for beyond workday demands can be cost-prohibitive. Similarly, the existing envelope can increase MEP load. Lack of operable windows is one example common in buildings from the 1970s.

Micro-unit apartment design using modular construction
Flexible design elements demonstrate how a 320-sf micro-unit studio can be reconfigured with features such as a stowable desk and Murphy bed. Photo courtesy Helix Architecture + Design

A recent project that combines adaptive reuse of an office building is Midland Lofts in downtown Kansas City. Developer Cordish Company challenged us to transform a long-vacant 1926 Historic Register-listed building whose previous tenants include AMC Theater’s corporate offices into attainable apartments. Cordish identified a local need for monthly rents beginning at about $700 and will select a deserving city employee to receive a year’s free rent at Midland Lofts.

Our initial design fit 117 apartments. Upon further review, we squeezed in 139 units, with studios ranging between about 320 and 470 sf. Odd-shaped niches house amenity spaces, such as a music room/studio and yoga area. Additional communal amenities of a commercial kitchen and co-working lounge supplement the micro-unit apartments. Design inspiration came from the historic Midland Theater, still thriving in the non-tower portion of the building.

Multifamily’s future is encouraging. Micro-unit apartments and modular construction are two design solutions aimed at improving affordability and sustainability.

Micro-unit interior featuring a desk, compact appliances, and overhead storage
Compact appliances and overhead storage are two ways to maximize space in micro apartments. Photo © Cordish Company, courtesy Helix Architecture + Design

 

A lighter color palette increases openness in micro studio units of less than 500 square feet.
A lighter color palette increases openness in micro studio units of less than 500 sf. Movable barriers help combine or separate sleeping and living spaces. Photo courtesy Helix Architecture + Design

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