Hidden features future-proof science complex

The University of Connecticut’s Gant Science Complex has undergone many transformations to let this building remain vibrant and competitive more than 50 years after its inception.

By Salas O'Brien March 18, 2022
Courtesy: Salas O'Brien

While one might assume University of Connecticut’s Gant Science Complex is a brand-new STEM building, the building, which has housed UConn’s science programs since the early 1970s, has undergone a remarkable transformation. What was a tired brick-clad workhorse will soon be a vibrant center for science teaching and research.

Along with its notably modern design and new collaboration spaces, there are more than a few unseen features that have given the building its new life. As can often be the case when it comes to the mechanical, electrical, and plumbing engineering components of such a comprehensive renovation, the best work often goes unnoticed, a sure sign of the project’s success and long-term viability.

Courtesy: Salas O'Brien

Courtesy: Salas O’Brien

Built in the mid-1970s, the 285,000-square-foot Gant Science Complex was home to departments of environmental and evolutionary biology, physiology and neurobiology, and physics for several decades. The renovation of this campus landmark is part of Next Generation Connecticut, the 2013 initiative to expand educational opportunities, research, and innovation in the STEM disciplines at UConn. Providing MEP, fire protection, and technology design, as well as site/civil engineering consulting to Goody Clancy, principal architect, and Mitchell Giurgola Architects, associate architect, our new team members at BVH Integrated Services were part of the crew selected by UConn in 2015 to help achieve these goals.

Renovations began in the summer of 2017. Because the building needed to stay in use, we kept two-thirds of the complex operational at all times. Though this presented some unique challenges, it also gave the design team the opportunity to collaborate with professors on prototyping new classrooms to support new pedagogy and test their effectiveness over the span of a full semester. The prototypes proved very successful in helping the team arrive at optimal classroom standards. This required more robust MEP utilities support, including distributing electrical, technology, and plumbing underfloor to each collaboration table, which required coordination with the furniture vendor to conceal and provide proper access to utilities.

Meanwhile, the university’s data center, which is housed on the main floor of the building and serves as a critical nerve center for the whole of campus, had to remain undisturbed and online throughout. We designed all new services out to the site, separate from the existing locations. This allowed us to back feed the existing data center, taking only redundant portions off-line at a time and allowing for fully continuous operations. Additionally, we developed a separate step-by-step MEP drawing set dedicated specifically to the data center conversion process, giving the contractor a detailed plan for carrying out this complex execution and ensuring a seamless transition with no disruptions.

Courtesy: Salas O'Brien

Courtesy: Salas O’Brien

MEP systems played an integral role in helping the building achieve its LEED Gold target. HVAC measures included energy recovery heat pipes for lab exhaust air, utilizing AirCuity to reduce air change rates for labs during and after occupancy, and increasing ductwork size. Electrical use was further reduced by specifying low wattage lighting that is several steps below the energy code and managed by control systems that track occupancy data and greatly improve energy efficiency. The data center was converted from DX to chilled water, which not only saved on energy but added redundancy and reliability to the system. Along with these energy improvements, the systems are also flexible so the building can adapt to accommodate central system growth and new uses over time.

When students return this fall, the project will be well on its way to its new life as a light-filled building featuring modern collaboration and meeting spaces, research labs, classrooms, and offices. Underpinning them all are the systems that provide operational and energy efficiencies and allow the building to adapt through time. Staying hidden never looked so good.


This article originally appeared on Salas O’Brien’s website. Salas O’Brien is a CFE Media content partner.

Original content can be found at salasobrien.com.


Author Bio: For more than 40 years, Salas O’Brien has been at the forefront of designing buildings that are healthy, sustainable, and cost-efficient.