Hazus Earthquake Model Technical Manual Page iv Nonstructural Damage – Acceleration-Sensitive Components .. A Hazus Flood Information Tool converts user-supplied inputs into the extent, depth and elevation of flooding for rivers and coasts River flood inputs are: ground elevations as a digital elevation model, flood elevations, and floodplain boundary Coastal flood inputs are: ground elevations as a digital elevation model, year flood polygons. FEMA: HAZUS-MH Riverine Flood Model Technical Manual. Washington, DC: O’Connor JE, Costa JE: Large Floods in the United States: Where They Happen and Why. Reston, VA: U.S. Department of Interior, National Research Council: The Impacts of Natural Disasters: A Framework for Loss Estimation.
The Hazus User Manuals support model functionality, while the Hazus Technical Manuals provide detailed information about how the models work and how to generate loss estimates. See all manuals. The Hazus User Manuals are designed to support model functionality, while the Hazus Technical Manuals provide detailed information about how the models work and how to generate loss estimates. You can find these resources for Earthquake, Hurricane, Flood, and Tsunami models, as well as additional Hazus manuals, below. “For application within the Flood Model, it has been assumed that below velocities of 2 feet per second, collapse potential is extremely low and damage is due to inundation only. Further, the “masonry and concrete bearing wall” model is applied to both the concrete and masonry Hazus building types.” page of flood technical manual.
Hazus is a regional multi-hazard loss estimation model that was developed by the is provided in Volume 1: Chapter 5 of the Hazus Flood Technical Manual. In the Hurricane Model, the user can use a Hazus-MH historic hurricane wind hazard, a manually inputted hurricane hazard, or an archived. In February , FEMA released the Hazus Inventory Technical Manual to document.
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