Hypergolic Ignition of Ionic Liquids (Preprint)

Abstract

A class of room temperature ionic liquids (RTILs) that exhibit hypergolic activity towards strong nitric acid is reported. Fast ignition of dicyanamide ionic liquids when mixed with nitric acid is contrasted with the reactivity of the ionic liquid azides, which show high reactivity with nitric acid, but do not ignite. The reactivity of other potential salt fuels is assessed here. Rapid-scan, Fourier Transform infrared (FTIR) spectroscopy of the pre-ignition phase indicates the evolution of N2O from both the dicyanamide and azide RTILs. Evidence for the evolution of CO2 and isocyanic acid (HNCO) with similar temporal behavior to N2O from reaction of the dicyanamide ionic liquids with nitric acid is presented. Evolution of HN3 is detected from the azides. No evolution of HCN from the dicyanamide reactions was detected. From the FTIR observations, biuret reaction tests and initial ab initio calculations, a mechanism is proposed for the formation of N2O, CO2 and HNCO from the dicyanamide reactions during pre-ignition.

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Document Details

Document Type
Technical Report
Publication Date
Mar 27, 2008
Accession Number
ADA489584

Entities

People

  • Christopher J. Gallegos
  • Ghanshyam L Vaghjiani
  • Matthew F. Pastewait
  • Michael Rosander
  • Stefan Schneider
  • Steven D Chambreau
  • Tom W. Hawkins

Organizations

  • Air Force Research Laboratory

Tags

Communities of Interest

  • Weapons Technologies

DTIC Thesaurus Topics

  • Air Force Research Laboratories
  • Chemical Properties
  • Chemical Reaction Properties
  • Chemical Reactions
  • Chemical Synthesis
  • Chemistry
  • Combustion
  • First Principles Calculations
  • Fuels
  • Heat Of Formation
  • Hypergolic Ignition
  • Ignition
  • Ionic Liquids
  • Isocyanic Acid
  • Liquid Rocket Oxidizers
  • Nitric Acid
  • Rocket Oxidizers

Fields of Study

  • Chemistry

Readers

  • Combustion science or combustion engineering.
  • Quantum Chemistry