Traffic project wins award for watershed-based approach
When it opened in 1961, the original Woodrow Wilson Bridge was designed to accommodate 75,000 trips per day. By the end of its life it was carrying nearly 200,000 trips and was classified as functionally obsolete. The new Woodrow Wilson Bridge project replaced nearly 12% of the Capital Beltway and created four new interchanges, resolving one of the worst bottlenecks on the East Coast while at the same time implementing numerous projects and programs to protect the local environment...
• Woodrow Wilson Bridge Project named 2008 Outstanding Civil Engineering Achievement by American Society of Civil Engineers
RESTON, VA, April 30, 2008 -- When it opened in 1961, the original Woodrow Wilson Bridge was designed to accommodate 75,000 trips per day. By the end of its life it was carrying nearly 200,000 trips and was classified as functionally obsolete. The new Woodrow Wilson Bridge project replaced nearly 12 percent of the Capital Beltway (Interstate 495/95) and created four new interchanges, resolving one of the worst bottlenecks on the East Coast while at the same time implementing numerous projects and programs to protect the local environment. In recognition of the project's success, the Woodrow Wilson Bridge project has been honored with the American Society of Civil Engineers' (ASCE) 2008 Outstanding Civil Engineering Achievement (OCEA) Award.
Presented this evening at the ninth annual Outstanding Projects and Leaders (OPAL) Awards Gala at the Hyatt Regency Crystal City in Arlington, Va., the OCEA award recognizes the project's significant contributions to both the civil engineering profession and the local community.
"For years, Washingtonians and visitors have faced some of the worst traffic on the East Coast," said ASCE President David G. Mongan, P.E., F.ASCE. "The dedication and innovation of the Woodrow Wilson Bridge project team produced a bridge that both eased traffic congestion and implemented techniques to protect the environment during and after construction."
Due to soil conditions, arches similar to other monumental bridges in the nation's capital could not be constructed at this location. Instead, the new bridge features an innovative solution, V-pier structures, to support variable- depth plate girder spans, creating the arch appearance without the large horizontal thrusts of conventional arches. Innovative application of segmental construction methods accommodated both balanced cantilever and out-of- balance construction techniques for the precast, post-tensioned V-piers.
During construction, the old bridge was used as a trestle to build the inner loop span-saving six acres of dredging and preserving fragile underwater vegetation.
Upon experiencing a fish kill from large-diameter pile driving near the navigation channel, the project team experimented with different ways to protect the fish by infusing air bubbles around the pile to cushion the shock, which eliminated impacts to the fish population. And, working with the Maryland Department of Natural Resources, the project team used inert debris from the old bridge to create new fish reefs in the Chesapeake Bay. A total of 60,000 tons of debris was also deposited in five open-water reefs, making the effort the largest enhancement to artificial reefs in Maryland waters in 20 years.
The project included an environmental mitigation program, which used a holistic and water-shed based approach to link local and regional environmental needs. The program-the first of its kind attempted in an urban setting-restored 26 miles of historic spawning habitat by removing or modifying 23 man-made barriers to fish passage in five major streams located in the D.C. area. The design focused on two solutions that mimic natural stream channels: the riffle grade control structure and flow constrictor/step pool. Most sites, now in their second or third year of monitoring, are exceeding expectations and fish are passing upstream through the new structures for the first time in decades. Additional environmental mitigation efforts included park land improvements, reforestation, wetland creation, fishery restocking, submerged aquatic vegetation planting and replacement of an abandoned landfill along the Anacostia River with more than 23 acres of tidal wetlands.
Selected from a group of 26 entries, the merit finalists for the 2008 OCEA Award include the Arsenic Crisis in the Indian Subcontinent: Sustainable Engineering Solution in West Bengal, India; the Mission Valley East Light Rail Transit project in San Diego; the Pasadena City Hall Seismic Upgrade and Rehabilitation in Pasadena, Calif.; and the new Tacoma Narrows Bridge in Tacoma, Wash.
Established in 1960 by ASCE, the OCEA program recognizes projects on the basis of their contribution to the well-being of people and communities, resourcefulness in planning and design challenges, and innovation in materials and techniques. The 2008 finalists are outstanding examples of how civil engineering can contribute to a community's economic success, improve residents' quality of life and protect public safety. Previous winners have included the Golden Gate Bridge Seismic Retrofit in San Francisco, the Cape Hatteras lighthouse relocation and the Saluda Dam Remediation project in Columbia, S.C.
For more information on the awards program, please contact Joan Buhrman at firstname.lastname@example.org or (703) 295-6406.
Founded in 1852, the American Society of Civil Engineers (ASCE) represents more than 140,000 civil engineers worldwide and is America's oldest national engineering society.