As recently as 2008, Duke University’s East Campus steam plant was an overgrown ruin. The former coal-burning plant had been shuttered for more than 30 years, it was covered in vines, and its roof had turned into a forest. Plant roots tore away at the 80-year-old brick façade, in some cases boring right through the 30-inch-thick walls, cracking them and shifting them out of plane and causing massive damage.
Despite these problems, the university saw value in repurposing the historic facility, and in June 2008, an $18.9 million sustainable renovation began that transformed the 6,341-sf building into a modern, efficient natural gas-burning steam facility. Duke engaged the Building Team of SmithGroup (architect), RMF Engineering (MEP), and Balfour Beatty (GC) to tackle the project, which is seeking LEED Gold.
The plant’s defunct coal-burning equipment was replaced by 15 energy-efficient Miura boilers, specifically chosen because their modular nature allowed them to be squeezed into the existing space better than traditional fire-tube and water-tube boilers. Even so, the Building Team had to construct a mezzanine to allow the new boilers to be stacked vertically. The Miura boilers produce steam much faster than traditional boilers, with a cold-to-steaming rate of less than five minutes, which reduces energy loss associated with startup, purge, and warm-up cycles. The boilers also have a factory-installed feedwater economizer that minimizes waste heat through the flue gas, increasing boiler efficiency by about 5%.
To further increase efficiency, the Building Team incorporated a blowdown heat recovery system that aids water savings by eliminating use of cooling water to temper the blowdown before it enters the sewer system. The coal-to-gas conversion helped Duke reduce its coal consumption by 70%. The facility itself operates 33% more efficiently than a baseline building.
As for the crumbling plant itself, the Building Team took on the restoration of the 1928 facility, which was designed by Horace Trumbauer, the architect behind numerous buildings on the Duke University campus.
Damage caused by years of neglect was remedied by rebuilding areas where masonry couldn’t be repaired, then cleaning and repointing brick that could be saved. A new cast-in-place roof deck was installed, along with a high-albedo, single-ply roof membrane. The building’s existing steel windows could not be salvaged, so they were replaced with new steel units that matched the profile of the originals. Low-e glazing was used on windows in the plant’s conditioned spaces; these same spaces were also insulated for greater efficiency. An old railroad trestle, which at one time brought coal cars up to the roof of the steam plant, was restored and the existing rooftop steel coal shed was rebuilt with corrugated fiberglass panels; now the coal shed glows at night.
In total, the Building Team was able to reuse 90% of the existing facility and diverted 85% of construction waste from landfills, a strong indication of the Building Team’s concerted effort to reuse or repurpose as much existing material as possible. For example, the original coal chutes were reused as part of the plant’s ventilation system; an old deaerator tank was put to use as a rainwater storage tank (rainwater is used within the plant to flush toilets); and old valves and wood floor decking were used to build benches for the terrace. Items that weren’t reused were donated to campus and community arts groups.
The project’s imaginative reuse of old elements and the careful addition of new ones caught the attention of our Reconstruction Awards judges. “It’s so carefully thought out,” said Walker Johnson, principal of Chicago-based Johnson Lasky Architects and honorary chair of the awards panel. “It’s absolutely one of the most unique projects,” said Darlene Ebel, Director of Facility Information Management at the University of Illinois at Chicago.
Summing up the judges’ reaction, George Tuhowski, Director of Sustainability for Leopardo Construction, Hoffman Estates, Ill., said: “They maintained a university icon. It’s functional, but it’s also a showpiece.” BD+C
PROJECT SUMMARY
Building Team
Submitting firm: SmithGroup (architect)
Owner: Duke University
CM: Balfour Beatty
MEP: RMF Engineering
General Information
Size: 6,341 gsf
Construction cost: $18.91 million
Construction time: June 2008 to July 2010
Delivery method: CM at risk
Related Stories
Healthcare Facilities | Jun 18, 2024
A healthcare simulation technology consultant can save time, money, and headaches
As the demand for skilled healthcare professionals continues to rise, healthcare simulation is playing an increasingly vital role in the skill development, compliance, and continuing education of the clinical workforce.
Mass Timber | Jun 17, 2024
British Columbia hospital features mass timber community hall
The Cowichan District Hospital Replacement Project in Duncan, British Columbia, features an expansive community hall featuring mass timber construction. The hall, designed to promote social interaction and connection to give patients, families, and staff a warm and welcoming environment, connects a Diagnostic and Treatment (“D&T”) Block and Inpatient Tower.
Concrete Technology | Jun 17, 2024
MIT researchers are working on a way to use concrete as an electric battery
Researchers at MIT have developed a concrete mixture that can store electrical energy. The researchers say the mixture of water, cement, and carbon black could be used for building foundations and street paving.
Codes and Standards | Jun 17, 2024
Federal government releases national definition of a zero emissions building
The U.S. Department of Energy has released a new national definition of a zero emissions building. The definition is intended to provide industry guidance to support new and existing commercial and residential buildings to move towards zero emissions across the entire building sector, DOE says.
Multifamily Housing | Jun 14, 2024
AEC inspections are the key to financially viable office to residential adaptive reuse projects
About a year ago our industry was abuzz with an idea that seemed like a one-shot miracle cure for both the shockingly high rate of office vacancies and the worsening housing shortage. The seemingly simple idea of converting empty office buildings to multifamily residential seemed like an easy and elegant solution. However, in the intervening months we’ve seen only a handful of these conversions, despite near universal enthusiasm for the concept.
Healthcare Facilities | Jun 13, 2024
Top 10 trends in the hospital facilities market
BD+C evaluated more than a dozen of the nation's most prominent hospital construction projects to identify trends that are driving hospital design and construction in the $67 billion healthcare sector. Here’s what we found.
Adaptive Reuse | Jun 13, 2024
4 ways to transform old buildings into modern assets
As cities grow, their office inventories remain largely stagnant. Yet despite changes to the market—including the impact of hybrid work—opportunities still exist. Enter: “Midlife Metamorphosis.”
Affordable Housing | Jun 12, 2024
Studio Libeskind designs 190 affordable housing apartments for seniors
In Brooklyn, New York, the recently opened Atrium at Sumner offers 132,418 sf of affordable housing for seniors. The $132 million project includes 190 apartments—132 of them available to senior households earning below or at 50% of the area median income and 57 units available to formerly homeless seniors.
Mass Timber | Jun 10, 2024
5 hidden benefits of mass timber design
Mass timber is a materials and design approach that holds immense potential to transform the future of the commercial building industry, as well as our environment.
Lighting | Jun 10, 2024
LEDs were nearly half of the installed base of lighting products in the U.S. in 2020
Federal government research shows a huge leap in the penetration of LEDs in the lighting market from 2010 to 2020. In 2010 and 2015, LED installations represented 1% and 8% of overall lighting inventory, respectively.
