Sound Transit U Link University of Washington Station in Seattle by LMN Architects

Article source: LMN Architects

More than a light rail station, Sound Transit’s University of Washington Station, designed by LMN Architects, adds multiple facets to the urban fabric at the intersection of Montlake Boulevard and Pacific Street.

Knitting together transportation modalities from bike to bus to pedestrians to trains, the multi-disciplinary design of the 156,000-square-foot station creates a unified mobility solution at a problematic street intersection, one of the busiest in Seattle, and provides a unique gateway to the UW campus through its above and below-grade experiences.

Image Courtesy © Kevin Scott

• Architects: LMN Architects
• Project: Sound Transit U Link University of Washington Station
• Location: Seattle, Washington, USA
• Photography: Kevin Scott
• Software used: Revit
  
• Owner: Sound Transit
• Prime Consultant: Northlink Transit Partners
• Structural-Station: KPFF Consulting Engineers
• Structural-Pedestrian Bridge: AECOM
• Civil-Grading, Utilities, Roadway: KPFF Consulting Engineers
• Civil-Site Drainage: AECOM

Image Courtesy © Kevin Scott

• Landscape Architect: Swift Company
• Station Mechanical/Electrical/Fire Protection: HNTB
• Mechanical/Emergency Ventilation System: AECOM
• Traffic Consultant: Grijalva Engineering
• Architectural Technical Facilities Coordination: Moniz Art & Architecture
• Waterproofing/Groundwater Management: Dr. G Sauer Corporation
• Vertical Transportation: Lerch Bates Inc.
• Acoustical Consultant: The Greenbusch Group
• Artist: Leo Saul Berk
• Lighting Design: Light Wire
• Survey: TrueNorth
• Systems Design: LTK Engineering Services
• Construction Management: START
• Contractor: Hoffman Construction Company
• Building Size: 157,856 gsf

Image Courtesy © Kevin Scott

Image Courtesy © Kevin Scott

The project includes a train platform 100 feet underground, accessed by escalators and elevators from a two-level glass entrance structure at grade. Along the way, users pass through a tall, vertical circulation chamber featuring “Subterraneum,” an art installation by Leo Saul Berk, who worked with LMN to blend architecture and sculpture in expressing the geological layers of soil surrounding the station walls.

The station’s new bicycle and pedestrian bridge — with stairs, escalators and ramps connecting both levels of the entrance structure — curves gently as it spans over Montlake Boulevard to land on the university campus.

Image Courtesy © Kevin Scott

Image Courtesy © Kevin Scott

Each element of the project is carefully considered as a component of a larger whole, set within a complex web of uses that encompasses the campus, the surrounding neighborhoods, and important university destinations such as Husky Stadium, Alaska Airlines Arena and the UW Medical Center.

“LMN’s work at the University of Washington Station beautifully and intricately navigates an almost unbelievably complex urban node,” says Rebecca Barnes, university architect and associate vice provost for campus and capital planning at the University of Washington. “The outcome is a great architectural and urban design achievement borne of many acts of imaginative and insightful civic leadership.”

Image Courtesy © Kevin Scott

Image Courtesy © Kevin Scott

Public space underground

Between the surface and the train platform 100 feet below, circulation paths follow an orchestrated sequence of moments, constantly orienting users to the station’s overall volume, structure and internal flow.

Visual connections between levels create a strong sense of place. The glass entrance structure frames views of the surrounding context, including Lake Washington and the Cascade Mountains. The transparency also serves as a light well, allowing daylight to reach down to the mezzanine level.

Colored ceramic wall tiles animate the mezzanine and ticket machine areas with energetic green motion lines. A green overhead service armature — integrating light fixtures and public-address speakers — provides clear wayfinding throughout the circulation path between surface and platform.

Each piece works together and builds up the climactic experience of “Subterraneum” in the central circulation chamber. Mechanical infrastructure is largely invisible from these public spaces.

Image Courtesy © Kevin Scott

Image Courtesy © Kevin Scott

Concealed behind the scenes, an emergency smoke ventilation system, track crossover area and associated maintenance spaces are nearly as large by volume as the circulation areas in the station’s below-grade footprint.

Two elliptical-shaped ventilation towers emerge above-grade, anchoring each end of the structure, and fade from view through the strategic use of perforated screens. The towers serve the emergency smoke ventilation system for the entire tunnel, along with fans at every station on the line that work in tandem to move air and smoke in the event of an emergency.

Public art

At the heart of the station experience, the escalators and glass elevator pass through a 55-foot-high central chamber, one of the tallest interior volumes in the city.

Working with artist Leo Saul Berk, a UW graduate known for exploring subterranean themes in mixed-media sculpture and installations, “Subterraneum” blends sculpture and architecture in exploring the opportunities of the underground condition. Backlit, perforated metal panels clad the chamber walls, displaying luminous patterns representing geological layers, while suffusing the space with ambient light. The vertical angle of the chamber walls changes along the long axis, creating a twisting volume that offers varying views of the artwork from different vantage points throughout the station.

Image Courtesy © Kevin Scott

Image Courtesy © Kevin Scott

Four escalators and two glass elevator columns spill through this soaring space, providing a dynamic experience of the art while riding up or down. Various vantage points at the mezzanine and at the bottom of the chamber offer a chance to take in the views, while observing people coming and going to the train platform.

Bridge design

The 400-foot-long bike and pedestrian bridge over Montlake Boulevard pushes the limits of the use of post-tensioned concrete in structural engineering. The bridge is a collaborative effort between Sound Transit and the University of Washington, with architects, landscape architects, structural engineers and contractors on each side taking part in its design and execution.

Image Courtesy © Kevin Scott

Image Courtesy © Kevin Scott

In elevation, the thinness and narrowness of the bridge section made possible by post-tensioning allows a gentle arch for bicycles and pedestrians, while still leaving roadway clearance for buses. Two compound curves create separate lanes for bikes and pedestrians within a 32-foot width, with the two lanes splitting apart at each end.

Where the bridge meets the above-grade station entrance, pedestrians can enter the station directly on the upper level by elevator or escalator, or use a grand staircase to access the station’s exterior plaza shared with Husky Stadium.

The bicycle lane continues separately in a gradual ramp to the street level, completing a long-desired connection between the Burke-Gilman Trail and the state Route 520 floating bridge.

Image Courtesy © Kevin Scott

Image Courtesy © Kevin Scott

Public mixing zone

UW Station and its associated public spaces connect a complex of major campus elements and urban pathways, making a civic-centered contribution to the importance of rail transit to the campus community. In addition to transit commuters, the station brings together thousands more bicycles and pedestrians, together forming a critical new component of Seattle’s transportation network.

The architectural design goal for the station was to create an inspiring public mixing zone that celebrates multiple transportation modes with a many-layered sense of movement and place.

Image Courtesy © Kevin Scott

Image Courtesy © Kevin Scott

“Subterraneum” artist collaboration

The art panels are aluminum, and mated with a blue polycarbonate panel that is adhered to the back. The polycarbonate includes a light diffusing additive to maximize diffused light across the panels, which is cast primarily by strategically placed flood lights and some infill LED strip lighting. With a few exceptions on the mezzanine level, most of the fixtures are concealed in back-of-house voids or above the ceiling.

The chamber is sheathed in 907 aluminum panels, of which 553 are perforated.  Each perforated panel is unique and fabricated for its specific location. The module is designed as a nominal, four-foot-by-four-foot grid, but because the panels are placed on angled walls, most are actually parallelograms. The panels were finished with an orbital sander and then protected with a clear, matte finish powder coat.

Image Courtesy © Kevin Scott

Image Courtesy © LMN Architects

The panels are installed on a series of vertical steel ribs along the chamber with horizontal purlins providing intermediate support.  Once the steel framework was set, the fabricator was provided laser as-builts for use in producing the panel layout. The architects (LMN) worked with the fabricator and installer (Krueger) to verify the panel layout, and once the panel layouts were approved, they were digitally provided to the artist to transfer his patterns to the panels. Each panel was then digitally sent back as an individual file for fabrication with the pre-established coding. Autocad.dxf output was the chosen platform for managing the digital transfer, as it was compatible between the fabrication/cutting processes and Rhino, which utilized by the artist.

The Chamber was a truly collaborative effort between the artist, architect, GC/CM, and the sub-contractor, working through all the challenges toward the final installation.

Image Courtesy © LMN Architects

Image Courtesy © LMN Architects

Tags: USA, Washington

Categories: Metro Station, Railway Station, Revit, Transport Center

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