There is no denying that One World Trade Center (WTC), the 104-story tower now rising at the northern end of the Ground Zero site, is a tremendously ambitious commercial real estate venture. The building, owned by the Port Authority of New York and New Jersey with the developer Durst Organization holding a 10 percent stake, will contain 3.1 million square feet of office space when completed in late 2013. Below grade, connected to the WTC site’s vast underground transportation infrastructure, there will be 55,000 square feet of retail, and near the top, the tower will include a two-level observation deck and a restaurant. But when the designers of the $3.19 billion project describe the building, they generally focus first on its potential as a symbol: “It will serve as the marker of the 9/11 memorial on the skyline,” says David Childs, consulting design partner to Skidmore, Owings & Merrill (SOM).

This hybrid of a civic emblem and a speculative office building, which now has framing approaching the 80th floor, will have a stainless steel capped glass parapet whose edges mark 1,362 feet and 1,368 feet. The elevations are the heights of the original Yamasaki & Associates–designed Twin Towers completed in 1972. With the help of a spire that extends 408 feet above the parapet, One WTC will reach 1,776 feet — a height set in Studio Daniel Libeskind’s 2002 Ground Zero master plan, making it the tallest building in the Western Hemisphere.

The building should be immediately identifiable, and not only because of its height: The scheme has a simple, iconic form, much like that of the Washington Monument, says Childs. It includes an 84-story shaft rising from a base that, in plan, measures 187 feet tall and 200 feet wide. Above this almost cubic pedestal, which contains mechanical floors stacked on top of a 50-foot-tall lobby, One WTC’s corners are chamfered back, creating progressively smaller floor plates that gradually shift from a square above the podium to an octagon at midsection. At the top, it is once again square, but 150 feet on a side and rotated 45 degrees from the base.

Although the “twisting” of the floor plates produces a tapering tower with a complex geometry, it is a geometry that is much more straightforward than that of an earlier version designed by SOM in collaboration with Libeskind. Then referred to with the emotionally charged name the “Freedom Tower,” the building had a torqued cable-net exterior and an off-center spire intended to evoke the torch of the Statue of Liberty. This proposal was scuttled in 2005 and the site shifted, after New York City police objected to its proximity to the busy roadway at the western edge of Ground Zero. Both the abandoned scheme and the tower under construction were commissioned by developer Larry Silverstein, who ceded control of the project to the Port Authority in April 2006 (see time line).

Despite One WTC’s adjusted location, some still regard it as an obvious terrorist target. However, its designers point out that it will have enhanced security and life-safety systems, including a robust, reinforced concrete shear-wall core surrounded by a steel moment frame spanning 45 feet to perimeter columns. The building is part of a post–September 11 trend for New York City office towers to move away from all-steel structures toward composite systems. And although concrete shear-wall construction is just one way to design and harden a core, in the case of One WTC, the approach was deemed the most appropriate due to the tower’s height and slenderness, according to Ahmad Rahimian, CEO of WSP Cantor Seinuk, the project’s structural engineer. “For tall and supertall buildings, a reinforced concrete core provides excellent resistance to wind, earthquake, and gravitational loads by virtue of its mass, strength, stiffness, and fire-protection properties,” he says.

If the tower, with its composite structure, were under construction in another locale, pouring of the concrete core would likely have advanced ahead of the surrounding moment frame’s erection. But the sequence at One WTC is reversed, with steel work leading core construction by about 10 stories on any given day due to “union jurisdictional issues” peculiar to New York City, says Mel Ruffini, executive vice president at Tishman Construction. The company, part of AECOM, is the project’s construction manager.

Pouring of the slabs on the floors’ metal deck lags about eight levels behind the top of steel erection, with other trades following core forming, including application of cementitious fireproofing and curtain-wall installation.

When designing the structure, engineers took this sequence into account, incorporating a steel ring beam into the core. Although the surrounding steel superstructure ties into this beam, its primary purpose is to serve as anchorage for erection steel and for the self-climbing concrete formwork that contractors “jump” within the core void using hydraulic jacks. “We needed to consider both temporary and permanent conditions,” says Rahimian.

Surrounding the moment frame, cladding operations are well under way, with installation of the curtain wall’s low-iron insulated glazing units (IGUs) already extending from the top of the cubic podium past the 50th floor. The IGUs are 5 feet wide and 13 feet 4 inches tall — the largest production IGUs available. They have thicker than typical outer lites (3⁄8-inch thick versus the more standard 1⁄4 inches) and laminated inner lites whose thickness varies depending on location (some are thicker than others due to security concerns). Although the IGUs are heavier than standard units, which complicates installation, the panels’ size allows them to span the full floor-to-floor height without intermediate mullions or spandrels. The thickness of the outer lites, along with inner lites’ lamination, should also prevent “oil canning,” or pillowing of the glass panels, says SOM managing director Kenneth Lewis. The goal is to create a “uniform and crystalline” surface — or one that appears to be “shaved and carved,” adds Childs, again alluding to the form of the Washington Monument.

At the ground, each side of the building will have a cable-net-supported glazed portal, 60 feet tall, although the lobby will be otherwise surrounded in concrete. The architects had planned to camouflage the podium with tempered and laminated prismatic glass panels that would reflect, refract, and transmit light, in order to “establish a relationship with the water cascading in the memorial pools,” says Childs. However, after discovering that tempering caused the panels to bow, interfering with the laminating process, the project team devised another solution. The alternate, which sources describe as glass fins projecting from the facade at various angles, is now in the bidding phase but has yet to be finalized.

Many of the life-safety strategies being implemented at One WTC were pioneered at 7 WTC — the 52-story office building that sits just beyond the edge of the Ground Zero site, catercorner to One WTC. Completed in 2006, by an almost identical design and construction team — including SOM, WSP Cantor Seinuk, and Tishman — it has features that exceed the requirements of the New York City Building Code, which are also included in the newer tower. For example, air intakes are located well above grade, which make it difficult to introduce biological or chemical contaminants into the ventilation system. Both towers also have widened egress stairwells for emergency evacuation with doors positioned so that anyone entering easily merges with the flow of exiting people. In addition, the stair landings have designated “areas of refuge” where occupants who are unable to descend on their own can wait for assistance.

The tower’s life-safety features new to New York City skyscraper design include a stair for use only by first responders and a “fireman’s lift” — an elevator used as a service elevator during the building’s day-to-day operations but equipped with water-resistant controls and a second door that opens onto a pressurized, dedicated fireman’s lobby. The other service elevators have water-resistant controls as well, and are contained within a smoke-resistant enclosure, allowing first responders to press them into service if needed.

Tenants have begun to make commitments for space in the building. In May, the Port Authority finalized a deal with magazine publisher Condé Nast for one million square feet on 21 floors. (Last year, the Chinese real estate company Vantone signed a lease for 200,000 square feet on floors 64 though 69.) It’s not clear whether the appeal is in the attractive lease terms, the advanced security features, or the finally visible iconic geometry of the structure. Whatever the lure, New York’s tallest skyscraper is beginning to fill up, a sign of upturn for downtown.

People Architect: Skidmore, Owings & Merrill LLP 14 Wall Street, New York, NY 10005 T: 212-298-7300  F: 212-298-9500 www.som.com Owner/Developer/Ground Lessor:  1World Trade Center LLC (a wholly owned corporation by the Port Authority of New York and New Jersey) Christopher Ward, Executive Director Steven Plate, Director, World Trade Center Construction Development Advisor The Durst Organization Inc. Douglas Durst, Chairman Jonathan (Jody) Durst, President Original Developer World Trade Center Properties, LLC Silverstein Properties, Inc. David Childs, FAIA, Consulting Design Partner T.J. Gottesdiener, FAIA, Managing Partner Kenneth A. Lewis, RA, Managing Director Nicholas Holt, AIA, LEED AP, Technical Director Nicole Dosso, AIA, LEED AP, Senior Technical Architect Mihai Cracuin, AIA, Senior Designer Julie Hiromoto, AIA, LEED AP, Project Manager Donald Marmen, AIA, Exterior Enclosure SOM Team Herbert Lynn Gary Hansen Rashid Saxton Olivia Holub Matthieu Klein Wendy Lam Anastasia Shimchick Colin Koop Frank Mahan Christoph Timm Christian Kotzamanis Benjamin Reich Andrea Wong Jonathan Dans Alex Patterson Christopher Olsen Reiner Bagnato Angelo Arzano Carl Galioto Jeffrey Holmes Nizam Kizilsencer Neil Katz Louis Lee Dan Weaver Raymond Hidalgo Anna Pieczara-Blanchfield Jeremy Singer Sophia Cha Balestri Michael Kim Sang-Won Lee Russell Kim Sejung Katherine Park Irene Vogt Teresa Zix Kathryn Van Nelson Bill Wunder Richard Tyler David Rodriguez Sheryl Oring Alfred Huang Manolo Figueroa Soerynn Kim Amy Zi Mai Ajmal Aqtash James Cifuentes Sung Ik Cho Tom Chalmers Balsam El-Ariss Joerg Flachowsky Aarij Hashimi Gene Pyo Dena Quaddumi Wilson Chao Sarah Ann Ocampo Jaewoong Yi Babak Ghezelayagh Shridhuli Solanki Felix Scull Michelle Falce Andrew Donaldson David Yanks Richard Goodstein Julia Ellinwood Mark Peterson Matthew Stephenson Brent Fleming Steven Abel Owen Detlor Monica Coghlan Lucia Bartholomew Makida John-Baptiste Leo Molino Diana Rodriguez Virginia Sanchez Engineer(s): Structural Engineers: WSP Cantor Seinuk Group Structural Engineers:  Schlaich Bergermann und Partner GbR (spire/cable net wall) MEP Engineer: Jaros Baum & Bolles, Inc. Civil and Transportation Engineer: Philip Habib & Associates Geotechnical Engineer: Mueser Rutledge Consulting Engineers Consultant(s): Landscape: Peter Walker and Partners Lighting: Claude R. Engle, Lighting Consultant Scott Matthews: Brandston Partnership Inc. (Podium) Acoustical: Cerami & Associates Other: Collaborating artist: Kenneth Snelson (spire) Sustainability consultants: Viridian, and Steven Kepler & Associates, Jaros Baum & Bolles, Inc. Security: Ducibella, Venter & Santore and Weidlinger Associates Vertical Transportation: Jaros Baum & Bolles, Inc. Wind Tunnel Testing: Rowan Williams Davies & Irwin Inc. Exhibition and Observation Deck: Ralph Applebaum and Associates Signage: Pentagram Protective Design Engineer: Weidlinger Associates Digital Visualization: dbox Studio, SWIM, Qubdesign, aexen, Seventh Art Group, by-encore Models: Radii, Saleh and Dirani, Bill Wunder Model Photography: Jock Pottle/ESTO General contractor: Construction Manager: Tishman Construction Corporation Photographer: James Ewing Renderer(s): for overall aerial hero rendering: © SOM/dbox for lobby renderings: SOM | © Seventh Art Group CAD system, project management, or other software used:  Revit, AutoCAD, Autodesk Constructware; Rhino; 3D-Max. Gross square footage: 3,500,000 square feet Total construction cost: $3.19 billion Completion date: 3RD QT 2013

Products Structural system Steel supplier: Banker Steel; ArcelorMittal Steel fabricator: DCM USA Erectors Inc. Custom concrete mix: Eastern Concrete Materials Inc. Exterior cladding Curtain wall: Benson Industries LLC, Stainless Steel Corners: Pohl Exterior wall sealant: Dow Corning Glazing Glazing units: Viracon, Inc. Glass: Guardian Interior finishes Special interior finishes unique to this project: Lobby Stone: Savema (Larissa White Marble), Cold Spring Granite (Mesabi Black Granite) Installer Port Morris Tile and Marble Corporation Lighting Beacon Light: Syncrolite (fabricators) Conveyance Elevators/Escalators: ThyssenKrupp Elevator (speed: 2,000 fpm, fastest in North America) Elevator Cabs: National Elevator Security Turnstiles: Kouba Systems Other unique products that contribute to sustainability: Fuel Cells: UTC Power – A United Technologies Company             Safety The building incorporates advanced life-safety systems that exceed the requirements of the New York City Building Code and will lead the way in developing new high-rise building standards. In addition to structural redundancy and cementitious fireproofing that is dense and highly adhesive, the building includes biological and chemical filters in the air supply system. To allow for optimum egress and firefighting capacity, extra-wide pressurized stairs, multiple backup systems for emergency lighting, and concrete protection for all sprinklers and emergency risers are being provided, in addition to interconnected redundant exits, additional stair exit locations at all adjacent streets, and direct exits to the street from tower stairs. This building is designed to facilitate emergency response with enhanced communication systems, together with a dedicated stair for use by firefighters.  These are used in conjunction with enhanced elevators, housed in a protected central building core, that serve every floor of the building. In addition, protected tenant collection points are located on each floor.