Thursday, December 26, 2019
The Floating City
The Floating City The Floating City The Floating CityMany scientists believe that climate change is making flooding more frequent and severe. Over the last 36 years, 26 flooding events in the U.S. have totaled over $110 billion in damages.The National Oceanic and Atmospheric Administration recently noted that sea levels are rising along parts of the Florida coast by more than a third of an inch every yeara satz of one foot every 36 years. Others scientists estimate that sea levels could rise by six feet or more by 2100, flooding coastal communities around the world.Many government/municipal responses to flooding are predictably reactive retreat, return, and rebuild, only to await the next flooding disaster, perhaps protected with added infrastructure, such as dikes or retractable barriers.But what if a community could ride out a flood with ease, and not suffer any damage from the event? Architect Greg Henderson is convinced this is possible, especially if the community is already flo ating.Henderson is founder Arx Pax, a California-based firm that develops resilient construction technologies. Inspired by the state of Washingtons Route 520 floating bridge, Henderson designed an innovative building system that floats on precast concrete pontoons in just a few feet of water. The SAFE Foundation system can support homes, taller commercial buildings, and roads that cover an area of several city blocks, or larger. The community simply rises on top of floodwaters and returns to normal ground level, intact and unharmed, when the waters recede.How a city could be built on water. Image ArxPaxHow It WorksFirst, a shallow, permeable depression (containment vessel) is excavated that is ten feet deep and hydraulically connected to a nearby river or bay, or is simply filled with ground water. The containment vessel is lined with permeable, precast concrete blocks to preserve permeability. For example, if the water table is five feet below the surface, groundwater will naturall y fill the first five feet of the containment vessel. A nearby sump pumps water into the containment vessel until the desired depth of eight or nine feet has been reached.Depending on natural fluctuations of the water table, the rate of inflow from the sump can be adjusted accordingly to maintain the correct depth, says Henderson.Next, a floating concrete foundation slightly smaller than the containment vessel is built on top of the water. Precast concrete pontoons 8 feet x 10 feet x 20 feet in size are assembled into groups, locked together with bolts, and tensioned to make a broad, stable platform. The pontoons are made from low-permeability, 7,500-psiconcrete. The completed platform floats on the surface of the containment vessel.The platform is kept in place with a system of cables anchored to the opposite sides of the containment vessel. The cables keep the platform in the same x-y or horizontal position. However, there is enough slack in the cable to allow for vertical rise an d fall of the platform.For example, a 230-foot long cable will allow a 10-foot rise and fall, says Henderson. A five-foot extension in anchor cable length can accommodate about 40 feet vertical displacement in an extreme flood event.Residential and mixed-use commercial buildings, complete with roads, landscaping, and utilities, are then built on the platform. For added security, the superstructure is designed to use anchor bolts and hold-downs on the platform. These share the same structural grid to allow for ease of construction and the use of prefabricated buildings.If a flood occurs, the community simply rises. If an earthquake strikes, because the floating community is decoupled from the earth, the buildings are unaffected by the violent shaking of the earth below. Seismic fuses provide five-foot extensions to the cables to allow for lateral movement of the containment vessel around the construction platform during an earthquake.First Pilot ScheduledRight now Hendersons first pi lot projecta 1.5-acre mixed-use designwill get started in a flood plain area in the San Francisco westindischer lorbeer area in about one year, followed by a two-year construction period. Meanwhile, he has begun outreach with the Federal Emergency Management Agency (FEMA) and other organizations and communities to change their reactive rebuild and retreat mindset. He is also considering a pilot project withthe Republic of Kiribati, a small island nation in the Pacific Ocean that floods every year.Henderson expects the SAFE Foundation system to last at least 100 years.Were helping developers, architects, aid organizations, and governments rethink how they can build, rather than just react, to disasters, says Henderson. We are looking for strategic partners around the world who share our vision so we can value engineer this system and get it out into the world for the people who need it.Mark Crawford is an independent writer. For Further DiscussionWere helping developers, architects, aid organizations, and governments rethink how they can build, rather than just react, to disasters.Greg Henderson, ArxPax
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