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Fire

Materials flammability

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Displaying 251 - 266 of 266

SUSTAINABLE FLAME RETARDANT NANOCOMPOSITES

March 17, 2009

Author(s)

Jeffrey W. Gilman

This paper examines the current state of research into sustainable flame retardants with the work on nanocomposites highlighted. The motivations to move away from halogen-based flame retardants are discussed and a number of life-cycle-assessments are

Prediction of the Burning Rate of Non-Charring Polymers

January 1, 2009

Author(s)

Stanislav Stoliarov, Sean Crowley, R Lyon, Gregory T. Linteris

This study demonstrates that a numerical pyrolysis model called ThermaKin, which was developed by SRA International, Inc. and the Federal Aviation Administration, can be used to predict and extrapolate the results of gasification and cone calorimetry

Fire Effluent, People, and Standards: Standardization Philosophy for the Effects of Fire Effluent on Human Tenability ON HUMAN TENABILITY

November 11, 2008

Author(s)

Richard G. Gann

It has been known for decades that people die from inhaling fire gases and that visible smoke presents challenges to people trying to escape from fires in homes, transportation vehicles, and commercial buildings. Within the current decade, there has been

USE OF COMBUSTION EFFLUENT DATA IN TENABILITY ASSESSMENT

November 11, 2008

Author(s)

Richard G. Gann

Typical prescriptive and performance-based assessments of life safety in building fires do not explicitly consider the contributions of the toxic potency of combustion gases, smoke obscuration, or the thermal and radiative environment. This paper

Some Difficult Problems in the Modeling of Fire Spread

July 16, 2006

Author(s)

Kathryn M. Butler, Thomas J. Ohlemiller

A fire and the objects involved in the fire form a highly complex dynamic system. Important processes occur over a wide range of spatial and temporal scales, from the microscales of thermodynamics and chemical kinetics, through the mesoscales of heat

Extinguishment of Cup-Burner Flames in Low Gravity

January 1, 2005

Author(s)

F Takahashi, Gregory T. Linteris, V Katta

The effects of oxidizer stream velocity and oxygen concentration, as well as gravity and pressure, on the extinguishment limits of laminar co-flow diffusion flames of methane, formed in a cup-burner apparatus, have been studied experimentally and

Supression Characteristics of Cup-Burner Flames in Low Gravity

January 1, 2004

Author(s)

F Takahashi, Gregory T. Linteris, V Katta

The structure and suppression of laminar methane air co-flow diffusion flames formed on a cup burner have been studied experimentally and numerically using physically acting fire-extinguishing agents (CO2, N2, He, and Ar) in normal earth (1g) and zero

Extinction of Cup-Burner Diffusion Flames by Catalytic and Inert Inhibitors

December 1, 2002

Author(s)

Gregory T. Linteris

The first tests of super-effective flame inhibitors blended with CO2 have been performed in methane-air co-flow diffusion flames. Although the organometallic agents used are typically one or two orders of magnitude more effective inhibitors than CF3Br when

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