![]() ![]() This process is experimental and the keywords may be updated as the learning algorithm improves. These keywords were added by machine and not by the authors. It is envisaged that the completed system will act as a prototype for use in the design office of the future. At the Hydraulics and Maritime Research Laboratory (HMRL) in Ireland such a system is being developed. This lack of knowledge can be addressed by developing an expert system that can store much of the information presently scattered in numerous design manuals and research papers. Very often the engineer is not aware of methods and techniques that could be of help in the design. What does exist is a multitude of empirical formulae and heuristic methods on which the engineer must base his design. Whereas such major structures as bridges and skyscrapers lend themselves easily to precise mathematical analysis the same cannot be applied to breakwaters. The design process for a breakwater is unlike that of almost all other civil engineering structures. Press | For questions, please contact SCAPE at. The project has also been covered widely in The New York Times Smithsonian Magazine The Associated Press Scientific American and many more publications. ![]() SCAPE Founding Principal Kate Orff joined Christiane Amanpour on CNN / PBS to discuss the project and urgency for funding natural infrastructure. Read the article, ‘Manufactured Nature,’ here. In 2021, s ociologist Eric Klinenberg covered the Living Breakwaters project and over a decade of SCAPE work for The New Yorker. Learn more | To learn more about Living Breakwaters, visit the NYS Office of Resilient Homes and Communities (RHC) website, where you can find monthly construction updates. ![]() As an outcome of this process, design team lead SCAPE and BOP developed an open-access Living Breakwaters Curriculum. The breakwaters will also be constructed with “reef ridges” and “reef streets” that provide diverse habitat space, with live oyster installation expected after completion.īeyond the physical breakwaters, the project aims to build social resilience in Tottenville through educational programs for local schools in partnership with the Billion Oyster Project (BOP), as well as years of engagement through the Citizens’ Advisory Committee (CAC), a coalition of local stakeholders. Informed by extensive hydrodynamic modeling, the breakwaters are also designed to slow and, eventually, reverse decades of beach erosion along the Tottenville shoreline. The breakwaters are designed to reduce the impact of climate-intensified weather events on the low-lying coastal community of Tottenville, which experienced some of the most damaging waves in the region and tragic loss of life during Superstorm Sandy. Department of Housing and Urban Development (HUD) after Superstorm Sandy. The Living Breakwaters concept was developed by a large, multi-disciplinary team led by SCAPE as part of a winning proposal for Rebuild By Design, the design competition launched by the U.S. The project consists primarily of 2,400 linear feet of near-shore breakwaters-partially submerged structures built of stone and ecologically-enhanced concrete units-that will break waves, reduce erosion of the beach along Conference House Park, and provide a range of habitat spaces for oysters, fin fish and other marine species. Widely considered a model for climate-adaptive green infrastructure, Living Breakwaters is a $107 million project with a layered approach to risk reduction-enhancing physical, ecological and social resilience along the South Shore of Staten Island. ![]()
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