Other Fire Protection News
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During the experiments, The Daily Plant, a science show on the Discovery Network, came to the island to film. The segment provides an overview of the fire experiments that were conducted on the island.The segment can be viewed at the following link:http://watch.discoverychannel.ca/#clip784350
In 2008, NIST conducted a series of wind driven fire experiments with FDNY. The fire experiments took place in a 7 story building on Governors Island. As a result of those experiments, FDNY added several new tools to their fire fighting arsenal and modified their tactics for fires in "fire proof multiple dwelling units." For more information on those experiments and the impact of positive pressure ventilation fans to pressurize the stairs, wind control devices, and highrise nozzles see the wind driven fires section of this website: http://www.nist.gov/fire/wdf.cfm.
Exposure to high temperature environments, which firefighters can encounter during fires they are attempting to extinguish, can result in the thermal degradation or melting of a Self- Contained Breathing Apparatus (SCBA) facepiece lens, resulting in elimination of the protection meant for the user’s respiratory system and exposing the user to products of combustion and super heated air.
For details, see the report, Fire Exposures of Fire Fighter Self-Contained Breathing Apparatus Facepiece Lenses (NIST TN 1724, November 2011.)
Wind blowing into the broken window of a room on fire can turn a "routine room and contents fire" into a floor-to-ceiling firestorm. Historically, this has led to a significant number of firefighter fatalities and injuries, particularly in high-rise buildings where the fire must be fought from the interior of the structure.
On April 12, 2009, a fire in a one-story ranch home in Texas claimed the lives of two fire fighters. Sustained high winds occurred during the incident. The winds caused a rapid change in the dynamics of the fire after the failure of a large section of glass in the rear of the house.
Wind Driven Fire in Home, Texas, 2009. Aerial view of damage to the structure. Photo credit: Houston Fire Department.
NIST performed computer simulations of the fire using the Fire Dynamic Simulator (FDS) and Smokeview, a visualization tool, to provide insight on the fire development and thermal conditions that may have existed in the residence during the fire.
Based on the analysis of this fire incident and results from previous studies, adjusting fire fighting tactics to account for wind conditions in structural fire fighting is critical to enhancing the safety and the effectiveness of fire fighters. Previous studies demonstrated that applying water from the exterior, into the upwind side of the structure can have a significant impact on controlling the fire prior to beginning interior operations. It should be made clear that in a wind-driven fire, it is most important to use the wind to your advantage and attack the fire from the upwind side of the structure, especially if the upwind side is the burned side. Interior operations need to be aware of potentially rapidly changing conditions.
See full report, Simulation of the Dynamics of a Wind-Driven Fire in a Ranch-Style House – Texas (NIST TN 1729, January 2012.)
For more information, including simulation video, see the Wind Driven Fires page.
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Opening the door provided additional air to a smoldering living-room fire and caused the fire to increase in burning rate and flames to extend out the doorway, resulting in high temperatures and heat flows that melted a hole in the mask. Pressure sensor (brass fitting that was mounted on the face of the headform) is visible through the hole in the lens. Credit: NIST |
Fire fighters are exposed to highly variable environments including elevated temperatures and convective and radiant thermal flux, which can put a significant burden on personal protective equipment. Thermally degraded and melted self-contained breathing apparatus (SCBA) facepieces have been identified as a contributing factor in certain fire fighter fatalities and injuries in the United States. The SCBA facepiece lens is often considered the weakest component of a fire fighter's ensemble in high heat conditions.
NIST conducted experiments (with the support of the Chicago Fire Department, the Department of Homeland Security, and the U.S. Fire Administration) which demonstrated a range of realistic thermal exposures and environmental conditions that firefighters could be exposed to. The environments that caused the failures were identified in an attempt to characterize the thermal performance of SCBA facepieces.
For details, see the report, Fire Exposures of Fire Fighter Self-Contained Breathing Apparatus Facepiece Lenses (NIST TN 1724, November 2011.)
For more, see the Personal Protective Equipment page.