Evaluation of the Effectiveness of a Metal Deactivator and Other Additives in Reducing Insolubles in Aviation Fuels

Three techniques integrated into a single instrumented platform allow simultaneous measurement in real time of particle-size growth rate, surface mass-deposition rate, and concentration of dissolved oxygen in thermally stressed jet fuel. Particle growth rate is studied using Photon Correlation Spectroscopy (PCS); surface mass-deposition rate is measured with a Quartz Crystal Microbalance (QCM); and dissolved-oxygen concentration is monitored by Pyrene Fluorescence Quenching (PFQ). The three techniques have been used simultaneously to study the behavior of a jet fuel undergoing thermal stressing and to evaluate the performance of an anti-oxidant, a dispersant, and a metal deactivator in another jet fuel.

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Techniques to Characterize the Thermal-Oxidation Stability of Jet Fuels and the Effects of Additives

Vilimpoc

Sarka

Weaver

et al. 1996

Volume 3: Coal, Biomass and Alternative Fuels; Combustion and Fuels; Oil and Gas Applications; Cycle Innovations

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Extended Liquid-Phase Oxidation of Aviation Fuels

Balster

Jones

1999

Volume 2: Coal, Biomass and Alternative Fuels; Combustion and Fuels; Oil and Gas Applications; Cycle Innovations

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Liquid-phase oxidation of two jet fuels classified as hydro-treated and straight-run (without dissolved metals) is studied at 185°C by measuring the depletion of dissolved oxygen in an isothermal, high-pressure flowing system. The goal is to simulate some of the effects of fuel recirculation by studying changes in oxidation that occur during the course of reaction. Recirculation of fuel is used in modem aircraft to optimize the ability of the fuel to dissipate heat from component systems. Following extended oxidation (prestressing), hydrotreated fuel oxidizes more rapidly than in its neat form resulting, in part, from formation of catalytic oxidation products such as hydroperoxides and depletion of synthetic primary antioxidants. In contrast, the straight-run fuel oxidizes more slowly following prestressing; this effect is ascribed to the formation of efficient secondary antioxidants and to depletion of radical initiators. Results are discussed in terms of changes in the distribution of primary and secondary antioxidants and their effect on subsequent oxidation and the thermal stability of recirculated fuel.

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Evaluation of the Effectiveness of a Metal Deactivator and Other Additives in Reducing Insolubles in Aviation Fuels

Cited by 2 publications

References 5 publications

Techniques to Characterize the Thermal-Oxidation Stability of Jet Fuels and the Effects of Additives

Techniques to Characterize the Thermal-Oxidation Stability of Jet Fuels and the Effects of Additives

Extended Liquid-Phase Oxidation of Aviation Fuels

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