Characterization of Fluorohydrogenated Ionic Liquids for Use in the Ion Electrospray Propulsion System

Abstract

This thesis investigates the use of two fluorohydrogenated ionic liquids as propellants for the ion Electrospray Propulsion System developed at MIT, 1-ethyl-3-methylimidazolium fluorohydrogenate and trimethylsulfonium fluorohydrogenate. It was found that these ionic liquids undergo a crystallization-like transformation when exposed to vacuum for several hours. Mixtures with a vacuum stable ionic liquid (1-ethyl-3-methylimidazolium trifluoro(trifluoro methyl)borate) were made to study the onset of this transformation and to obtain liquid mixtures from which stable electrospray emission could be obtained. Mixtures containing 10 , 25 , or 50 by mass of one of the fluorohydrogenated ionic liquids are then investigated using time of flight mass spectrometry to determine the beam compositions. All six mixtures operate in the pure ionic regime. Of the six mixtures, the mixture of 25 trimethlysulfonium fluorohydrogenate is the best candidate for use as propellant in the ion Electrospray Propulsion System, because it produces current 4.8 times higher than pure 1-ethyl-3-ethylimidazolium trifluoro(trifluoro methyl)borate, and the beam is composed entirely of monomers. Additionally, at voltages used for the ion Electrospray Propulsion System, the 25 trimethlysulfonium fluorohydrogenate mixture has an increase in specific impulse up to 2,000 s over pure 1-ethyl-3-methylimidazolium trifluoro (trifluoro methyl)borate. In the appendix, an application of the ion Electrospray Propulsion System is investigated, namely the new WaferSat femtosatellite being developed at MIT Lincoln Laboratory. Motion simulations give preliminary insights into how WaferSats will move in orbit.

Document Details

Document Type

Technical Report

Publication Date

May 24, 2018

Accession Number

AD1087834

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