Researchers at the National Institute of Standards and Technology (NIST) have devised a new method of digitally simulating hurricanes in an effort to create more resilient buildings.
A recent study asserts that the simulations can accurately represent the trajectory and wind speeds of a collection of actual storms. The authors suggest that simulating numerous realistic hurricanes with the new approach can lead to improved guidelines for the design of buildings in hurricane-prone regions.
The technology makes it possible to observe hundreds of simulated hurricanes to see where they strike on the coast, and how intense they are. The simulated storms can be used to create data used in hurricane wind maps.
Advances in AI-based tools and years of recorded hurricane records have made it possible to produce more realistic hurricane wind maps in future years—particularly in areas that are not struck by many hurricanes.
Related Stories
75 Top Building Products | Nov 30, 2022
75 top building products for 2022
Each year, the Building Design+Construction editorial team evaluates the vast universe of new and updated products, materials, and systems for the U.S. building design and construction market. The best-of-the-best products make up our annual 75 Top Products report.
Seismic Design | Nov 16, 2022
SPC-4D: 7 reasons California hospital building owners should act now to meet seismic compliance
Seismic compliance with the applicable California building codes is onerous and disruptive for building owners, especially for a building in the heavily regulated sector of healthcare. Owners of older buildings that house acute care services have a big deadline on the horizon—Jan. 1, 2030, the cutoff date to upgrade their buildings to SPC-4D.
Energy-Efficient Design | Nov 14, 2022
How to achieve net zero energy in five steps
Martine Dion and Ethan Seaman share net zero energy best practices with owners and developers.
Resiliency | Nov 8, 2022
Oregon wildfire risk law prompts extensive backlash from property owners
A bipartisan bill aimed at protecting property owners from wildfires that was passed by the Oregon legislature has prompted a strong backlash.
Sponsored | Steel Buildings | Nov 7, 2022
Steel structures offer faster path to climate benefits
Faster delivery of buildings isn’t always associated with sustainability benefits or long-term value, but things are changing. An instructive case is in the development of steel structures that not only allow speedier erection times, but also can reduce embodied carbon and create durable, highly resilient building approaches.
Fire and Life Safety | Oct 4, 2022
Fire safety considerations for cantilevered buildings
Bold cantilevered designs are prevalent today, as developers and architects strive to maximize space, views, and natural light in buildings. Cantilevered structures, however, present a host of challenges for building teams, according to José R. Rivera, PE, Associate Principal and Director of Plumbing and Fire Protection with Lilker.
Resiliency | Sep 30, 2022
Designing buildings for wildfire defensibility
Wold Architects and Engineers' Senior Planner Ryan Downs, AIA, talks about how to make structures and communities more fire-resistant.
Building Team | Jun 13, 2022
Partnership rethinks emergency shelters to turn them into sustainable, resilient homes
Holcim and the Norman Foster Foundation have struck a partnership to rethink emergency shelters to turn them into sustainable and resilient homes.
Green Specifications | May 12, 2022
MG2’s Sustainable Materials Evaluation System
Learn how MG2’s Sustainable Materials Evaluation System helps clients, prospects, and staff choose the most environmentally feasible materials for their building projects. Candon Murphy, LEED GA, Assoc. IIDA, Design Lab Manager and Materials & Sustainability Specialist with MG2, speaks with BD+C Executive Editor Rob Cassidy.
Sponsored | BD+C University Course | May 10, 2022
Design guide for parapets: Safety, continuity, and the building code
This course covers design considerations for parapets. The modern parapet must provide fire protection, serve as a fall-protective guard, transition and protect the roof/facade interface, conceal rooftop equipment, and contribute to the aesthetic character of the building.