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Fire

Fire risk reduction

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Displaying 126 - 150 of 204

Investigation of Residential Cooking Fire Suppression Technologies

February 12, 2018

Author(s)

Anthony P. Hamins, Daniel Madrzykowski, Sung C. Kim, Jonathan Kent

A wide range of cooking fire experiments were conducted to examine the effectiveness of retrofit residential kitchen fire suppression systems. A series of experiments provided data on the hazard associated with cooking oil fires. Then, a series of real

National Fire Research Laboratory Commissioning Project: Testing Steel Beams under Localized Fire Exposure

February 5, 2018

Author(s)

Lisa Y. Choe, Selvarajah Ramesh, Matthew S. Hoehler, Mina S. Seif, John L. Gross, Chao Zhang, Matthew F. Bundy

Dimensional Analysis on Forest Fuel Bed Fire Spread

January 29, 2018

Author(s)

Jiann C. Yang

A dimensional analysis was performed to correlate the fuel bed fire spread data previously reported in the literature. Under wind condition, six pertinent dimensionless groups were identified, namely dimensionless fire spread rate, dimensionless fuel

Conceptual System for Evaluating the Impact on Residential Life Safety of New Fire Protection Technology

September 18, 2017

Author(s)

Paul A. Reneke, Morgan Bruns, Richard D. Peacock, Thomas G. Cleary, Chandler P. MacLaren

Using Photoelectric Smoke Detection to Warn of Pre-Ignition Conditions of Unattended Cooking Fires

May 1, 2017

Author(s)

Erik L. Johnsson, Mariusz Zarzecki, Thomas Cleary

A series of experiments was conducted to examine the potential to use kitchen-installed photoelectric smoke detection devices to warn of approaching ignition of food during unattended cooking. An electric range, range hood, and cabinets were installed in a

A Generalized Model of Flame to Surface Heat Feedback for Laminar Wall Flames

March 7, 2017

Author(s)

Isaac T. Leventon, Stanislav I. Stoliarov, Kevin T. Korver

In this work, experimental measurements of flame heat flux and sample mass loss rate are obtained as a flame spreads vertically upward over the surface of seven commonly used polymeric materials, two of which are glass reinforced composites. Using these

Wind Effects on Flame Spread and Ember Spotting Near a Structure

February 6, 2017

Author(s)

Kathryn M. Butler, Erik L. Johnsson, Marco G. Fernandez, Mariusz Zarzecki, Glenn P. Forney, Eric Auth

In wildland-urban interface (WUI) fires, combustible materials pose a potential threat to contiguous or nearby structures. Flame spread and firebrand spotting have been studied in a series of field experiments involving fences and mulch beds under a

Effects of Wind Speed and Angle on Fire Spread along Privacy Fences

July 25, 2016

Author(s)

Erik L. Johnsson, Alexander Maranghides

A series of experiments was conducted to examine fire spread along fences subjected to wind at various speeds and angles. Specifically, sections of western redcedar, California redwood, or vinyl privacy fences were ignited with a burner. Wind fields of 9 m

Temperature and Strain Measurements with Fiber Optic Sensors for Steel Beams Subjected to Fire

June 10, 2016

Author(s)

Yi Bao, Yizheng Chen, Matthew Hoehler, Christopher M. Smith, Matthew Bundy, Genda Chen

This paper presents measurements of high temperatures using a Brillouin scattering based fiber optic sensor and large strains using an extrinsic Fabry-Perot interferometric sensor for assessing the thermo-mechanical behaviors of simply supported steel

Movement on Stairs During Building Evacuations

June 8, 2016

Author(s)

Richard D. Peacock, Paul A. Reneke, Erica D. Kuligowski, Robert C. Hagwood

The time that it takes an occupant population to reach safety when descending a stair during building evacuations is typically estimated by measureable engineering variables such as stair geometry, speed, stair density, and pre-observation delay. In turn

CFAST  Consolidated Model of Fire Growth and Smoke Transport (Version 7) Volume 2: Users Guide

December 15, 2015

Author(s)

Richard D. Peacock, Paul A. Reneke, Glenn P. Forney

CFAST is a two-zone fire model capable of predicting the environment in a multi-compartment structure subjected to a fire. It calculates the time evolving distribution of smoke and gaseous combustion products as well as the temperature throughout a

Validation of Fire Models Applied to Nuclear Power Plant Safety

September 1, 2015

Author(s)

Kevin B. McGrattan, Richard D. Peacock, Kristopher J. Overholt

The paper highlights key components of a fire model validation study conducted by the U.S. Nuclear Regulatory Commission and the Electric Power Research Institute. These include the selection of fire phenomena of interest to nuclear power plant safety, the

International R&D Roadmap for Fire Resistance of Structures Summary of NIST/CIB Workshop

June 11, 2015

Author(s)

Jiann C. Yang, Matthew F. Bundy, John L. Gross, Anthony P. Hamins, Fahim Sadek, Anand Raghunathan

This report summarizes the results of the global meeting to develop the International R&D Roadmap for Fire Resistance of Structures (the Roadmap) held May 2122, 2014, in Gaithersburg, Maryland. The workshop was sponsored by the National Institute of