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Search Publications by: Gregory T. Linteris (Fed)

Displaying 226 - 250 of 374

Suppression of Cup-Burner Flames Using Carbon Dioxide in Microgravity

April 1, 2004

Author(s)

V Katta, F Takahashi, Gregory T. Linteris

Carbon dioxide extinguishes flames through dilution process. The extinction characteristics of CO2 were previously studied using a cup-burner flame under normal-gravity conditions. As the diffusion flames behave differently in microgravity compared to

Limits to the Effectiveness of Metal-Containing Fire Suppressants. Final Technical Report (NISTIR 7177)

March 1, 2004

Author(s)

Gregory T. Linteris

This report reviews the literature on metal inhibition of flames and identifies metal species with potential as fire suppressant additives. To provide a basis for discussion, the detailed mechanism of inhibition of iron is reviewed, and the reasons for its

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

Scale Model Flames for Determining the Heat Release Rate from Burning Polymers

September 17, 2003

Author(s)

Gregory T. Linteris, I P. Rafferty

The utility of flame size for the assessment of the heat release rate of burning polymers has been studied. Six polymers were tested in the NIST cone calorimeter to determine their heat release rate, and their flame height, area, and volume. A reduced

Suppression of Cup-Burner Flames

September 17, 2003

Author(s)

F Takahashi, Gregory T. Linteris, V Katta

The unsteady suppression process of a laminar methane-air co-flow diffusion flame formed on a cup burner has been studied experimentally and numerically in normal earth gravity. The computation uses a time-dependent direct numerical simulation with

Experimental And Numerical Evaluation Of GaseousAgents For Suppressing Cup-Burner Flames In Low-Gravity

June 1, 2003

Author(s)

F Takahashi, Gregory T. Linteris, V Katta

Longer duration missions to the moon, to Mars, and on the International Space Station (ISS)increase the likelihood of accidental fires. NASA s fire safety program for human-crewed spaceflight is based largely on removing ignition sources and controlling

Simulation of Cup-Burner Flames in Microgravity

June 1, 2003

Author(s)

V Katta, F Takahashi, Gregory T. Linteris

The extinction process of cup-burner flames under normal-gravity conditions were previously studied. As the low-speed diffusion flames behave differently in microgravity compared to those on earth, it is important to understand the structureof cup-burner

Extinction Characteristics of Cup-Burner Flame in Microgravity

January 1, 2003

Author(s)

V Katta, F Takahashi, Gregory T. Linteris

Numerical Investigations of CO 2 as Fire Suppressing Agent

January 1, 2003

Author(s)

V Katta, F Takahashi, Gregory T. Linteris

Understanding suppression mechanisms of different fire-suppressing agents including CF 3Br (Halon 1301) and inert gases is useful for their efficient use and for developing new agents. Because of the similarities between unsteady jet diffusion flames

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

Inhibition of Premixed and Non-Premixed Flames With Fine Droplets of Water and Solutions

July 21, 2002

Author(s)

H K. Chelliah, A K. Lazzarini, P N. Wanigarathne, Gregory T. Linteris

Inhibition/extinction of premixed and non-premixed methane-air flames with fine-droplets of water and solutions containing several chemical agents are investigated experimentally. While solutions allow delivery of much higher concentrations of chemical

Gas-Phase Mechanisms of Fire Retardants

June 28, 2002

Author(s)

Gregory T. Linteris

Fire retardants are added to polymers to increase their ignition time and reduce their heat release rates when burning. They are often described as acting either in the condensed-phase or in the gas-phase, with an understanding that often, both modes can

Effective Non-Toxic Metallic Fire Suppressants. Final Report (NISTIR 6875)

May 1, 2002

Author(s)

Gregory T. Linteris, M D. Rumminger, Valeri I. Babushok, H K. Chelliah, T Lazzarini, P N. Wanigarathne

The purpose of the project was to: a.) identify which metal species would be effective flame inhibitors, and then b.) attempt to find non-toxic forms of the metal which could be used. Very early in the project, however, we determined that metal species-in