Ignition and Extinction of a Monopropellant Droplet in an Inert Atmosphere

Response curves of vaporization rate versus Damkohler number are examined in the limit of large activation energy, so as to determine their weak-and strong-decomposition branches. A recipe is given for locating the ignition point at the end of the former, when there is one; and an explicit formula i...

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Hauptverfasser:	Kapila,Ashwani K, Ludford,Geoffrey S S, Buckmaster,John D
Format:	Report
Sprache:	eng
Schlagworte:	Combustion and Ignition DECOMPOSITION DROPS EXTINGUISHING HEAT TRANSFER IGNITION MONOPROPELLANTS Physical Chemistry VAPORIZATION
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creator	Kapila,Ashwani K Ludford,Geoffrey S S Buckmaster,John D
description	Response curves of vaporization rate versus Damkohler number are examined in the limit of large activation energy, so as to determine their weak-and strong-decomposition branches. A recipe is given for locating the ignition point at the end of the former, when there is one; and an explicit formula is derived for the extinction or ignition/extinction point at the end of the latter, when there is one.
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subjects	Combustion and Ignition DECOMPOSITION DROPS EXTINGUISHING HEAT TRANSFER IGNITION MONOPROPELLANTS Physical Chemistry VAPORIZATION
title	Ignition and Extinction of a Monopropellant Droplet in an Inert Atmosphere
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