Tom Crane Photography, Inc.
ON THE COVER: The newest suspension bridge to cross the Tacoma Narrows, in Washington State, is situated just 55 m from the existing crossing, which was constructed in 1950. The new bridge features an 854 m main span, 154 m tall reinforced-concrete towers, and a deck designed so that a second, lower level can be added to accommodate increases in traffic or light-rail. (Photograph © 2008 The Associated Press)
Features
The design of the new Tacoma Narrows Bridge, in Washington State, benefits not only from the knowledge that has been gained about the aerodynamics of suspension bridges in the years since the first suspension bridge across the narrows collapsed—in 1940 just four months after its opening—but also from the design/build delivery method, which enabled the design team to incorporate innovations in an efficient and cost-effective manner that might not have been possible otherwise.
By Markus Wernli, Ph.D., P.E., and Preston S. Springston
To reduce the costs associated with waterfront construction and maintenance, the U.S. Navy has developed an alternative pier—the modular hybrid pier (MHP)—that features a double-deck floating concrete structure. The MHP consists of a series of uniform modules constructed of advanced materials and developed in accordance with the principles of sustainable design.
By Jeff L. Brown
Updating Virginia’s capitol building to meet the needs of a 21st-century government while preserving the historic structure for future generations required a delicate balancing act. The project succeeded not only in renovating and restoring Thomas Jefferson’s original building but also in adding a spacious underground visitors’ center.
By Thomas E. Vik, P.E., BCEE, and Mark Surwillo
Faced with population growth, increasingly large wet-weather flows, and stricter permit limits on ammonia nitrogen, a Wisconsin wastewater treatment facility adopted ballasted sedimentation for primary treatment and peak flows followed by biological aerated filtration for secondary treatment. Believed to be the first of its kind in the United States, this high-rate configuration requires a fraction of the space that would have been taken up by conventional treatment systems and is expected to handily meet all permit requirements.
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