Hear from the Buro Happold team on the engineering behind Pittsburgh International Airport’s new landside terminal.
When Pittsburgh International Airport opened its new landside terminal in November 2025, it wasn’t just a ribbon‑cutting – it was a reset. The project replaced a 30‑year‑old layout designed for a hub airline that no longer exists, transforming the airport into a streamlined, Pittsburgh‑first operation built around the people who actually use it.
Image: Ema Peter.
The Terminal Modernization Program (TMP) did more than link a new 800,000 ft² landside terminal directly to the existing concourses. It rethought a half‑mile disconnect between tickets and gates, retired the underground tram called the Automatic People Mover (APM), and re‑established clarity, comfort, and efficiency as the organizing principles of the passenger journey.
For Buro Happold, the challenge was both technical and cultural: engineer a right‑sized terminal that would feel effortless to travelers while quietly delivering resilience, efficiency, and long-term operability. In this Q&A, the team walks through the decisions behind the systems – from displacement ventilation to microgrid integration – and the choreography required to modernize an airport without ever shutting it down.
Meet the engineering team behind the new terminal
Jeremy SnyderUS Aviation Director
Matt HochbergerAssociate Principal, Project Lead
Joseph GausAssociate Principal, Overview and Impact
Mike WeleskiAssociate Principal, Program and MEP/Plumbing
John ShawAssociate Principal | Mechanical
Yelena NelsonSenior Mechanical Engineer, design and impact
Jeremy HallAssociate, Electrical/Microgrid
Rachel WeaverElectrical Engineer
A building shaped by use, not nostalgia
The old Pittsburgh terminal felt stuck in the early 1990s: a mall‑like landside building, security, and then a tram ride to a distant airside concourse. It was a spatial diagram designed for connections, not for the 98% of travelers who now begin or end their journeys in Pittsburgh. The new plan positions the landside terminal directly against the airside concourses. “The split made a stressful trip more stressful,” said Joe Gaus, associate principal. “Now the sequence is straightforward: check in, central screening, and a short connector – no train, fewer unknowns.” The modernization project reversed the logic. Ticketing, screening, and arrivals were consolidated into a single hall linked directly to the gates, cutting time and uncertainty while opening up generous meet‑and‑greet spaces for a city that prefers to walk inside to welcome family and friends.
The architecture – led by Gensler and HDR, in association with luis vidal + architects – doesn’t hide its regional references: an undulating roof suggestive of rolling hills; columns branching like trees; fiber‑optic “stars” that glance off glass at night. What it does hide, by design, is the machinery of comfort. “You see the nature,” Gaus says, “and only when you look closer do you realize the technology is doing the work in the background.”
Image: Ema Peter.
Integrating today with yesterday – while never closing
Modernizing a live airport is not a matter of swapping parts. The new terminal was built “separate ‑through‑construction,” as Yelena Nelson, senior mechanical engineer, describes it, to preserve operations until the moment of carefully sequenced tie‑in. That meant temporary routes, scaffolding, and wayfinding choreographies that changed as the building neared the old concourse. “The challenge wasn’t wiring old equipment to new,” Nelson says. “It was delivering next to a live airport without breaking its rhythm.”
Phasing became the delivery mechanism: one package for everything underground – utilities, stormwater, and the remnants of the train infrastructure – and another for everything above. The connector bridge formed a new passage aligning the security exit with the existing concourse. “LED walls, the bridge motif – it’s a reveal that feels like Pittsburgh,” says Mike Weleski, who led portions of the MEP and site integration. “All while the airport kept moving.”
Image: Ema Peter.
Behind the scenes, the team wrote a white paper for the airport authority on its building management system. Do they double down on the incumbent platform or open the market to competition? Matt Hochberger, the project lead, explains the calculus: keep the operator workflows and alarm philosophies that staff know, but design the new terminal’s BMS to interoperate – not lock in. The owner chose open bid, preserving flexibility without sacrificing a seamless handoff to facilities. It’s the kind of decision passengers never feel, but operators make every day.
Power that protects operations
Pittsburgh International Airport is powered by a 23‑megawatt microgrid – a blend of on‑site natural gas generation and solar – capable of operating independently from the regional grid. The new terminal had to integrate seamlessly into that system. “We tied in at medium voltage with new 3.5 kV switchboards, then stepped down to 480V for the building,” says Jeremy Hall, associate electrical engineer. That strategy allowed the team to shrink the diesel generator to life‑safety loads – emergency lighting, egress, fire/life safety – and to rely on the microgrid’s redundancy for optional standby, cutting emissions and fuel risk.
Pittsburgh International Airport was once a hub for US Airways. Image: Gensler + HDR in association with luis vidal + architects.
Where the power system provides resilience, the controls framework ensures efficiency. The design incorporates daylight‑responsive dimming, occupancy and vacancy controls, and a full LED specification that cuts lighting power density to roughly 30 percent below ASHRAE code. The result is an automated, low‑waste operation that performs without demanding attention. It’s engineering that works in the background – constantly optimizing, rarely seen.
Comfort engineered into the background
If the project has a signature technical move, it’s displacement ventilation. In halls of this scale – soaring ceilings, long sightlines, and air volumes that would typically demand brute‑force conditioning – Buro Happold rethought the physics. Instead of pushing large quantities of air from high above, the team supplied conditioned air low and slow, allowing natural stratification to lift heat and contaminants clear of the occupied zone.
“The airflow isn’t felt – no drafts,” Hochberger says. “You’re calmer in the place people are usually most anxious: baggage claim.”
Image: Ema Peter.
Those lofty ceilings, a defining architectural element of the new hall, were made possible precisely because the engineering retreated from them. By delivering air at the floor and letting the upper volume act as a quiet thermal buffer, the team avoided cluttering the roofline with the typical web of ducts, grilles, and mechanical hardware. The height could read as pure architecture – light, airy, unbroken.
Function followed form: diffusers are integrated into benches, walls, and carousel surrounds, preserving valuable floor‑to‑floor height and keeping the focus on the sweep of the roof instead of the machinery behind it. “We worked carefully with the design team to hide the big openings,” Nelson adds. The result is a space that feels open and intuitive, while the engineering works invisibly in the background to keep it comfortable at every scale.
Image: Ema Peter.
Modeling as risk management
The integration platform for all of this was BIM. “We modeled space by space with exact elevations,” says Rachel Weaver, an electrical engineer who helped with BIM coordination. The point wasn’t just clash detection; it was construction intent. Electrical conduits and feeders were pre‑cut from the model to minimize waste. On the plumbing side, the team used Revit to thread storm piping through the undulating structure – a challenge made more urgent when the plumbing group proposed a stormwater reuse system that hadn’t been in the initial brief. “You have a roof this large,” Weleski says. “Why not capture and treat a portion for the landscape terraces and reduce domestic water demand?” The owner agreed.
Image: Ema Peter.
A local project with global reach
The talent bench shifted as the program matured: early concept work drew on Buro Happold’s global aviation experience, then moved through New York and Pittsburgh for design and construction administration. What never shifted was proximity.
“We were on site weekly,” Gaus says. “Half the time it was faster to drive to the airport than to the office.” Problems that might have lingered on emails resolved in thirty‑minute hallway meetings or impromptu field walks with the contractor and architect.
Jeremy Snyder is direct about why that mattered: “It’s the airport’s building. They have to operate it. We moved efficiently and treated the owner as part of the team making decisions on design.”
Image: Ema Peter.
What people will notice – and what they won’t
Travelers will recognize the ‘Pittsburgh-ness’ of the new hall immediately: the lift of the roofline, the light from all sides, the constellations overhead. They’ll also notice what’s missing. The tram is gone; the walk is shorter; the signage reads clearly. Much of what makes that possible is deliberately invisible – air delivered where people are; power and data routed where they need to be; sensors adjusting light to the day – so the building can do more with less.
For the engineers who lived with it for years, the pride is more granular. “We had to keep a complex campus breathing while we changed a lung,” Hochberger says, smiling at the metaphor. Weleski calls it a legacy project. “You don’t build a new airport here every decade,” he says. “I came to work on this. I can’t wait to fly out of it.”
In the end, the terminal modernization reflects the spirit of the city it serves: a clarity of purpose, an economy of means, and an insistence on doing the hardest work out of view so the experience feels effortless. It is, as the team repeatedly noted, an airport for Pittsburgh, by Pittsburgh – engineered to carry the region forward.
Image: Wendell Weithers
For us, the measure of success wasn’t just opening a new terminal – it was giving Pittsburgh an airport that feels effortless to use and resilient to operate. When engineering disappears into the experience, that’s when we know we’ve done our job.”
— Jeremy Snyder, US Aviation Director