Mechanism of Induction System Deposit Formation U. S. Army Fuels and Lubricants Research Laboratory, Southwest Research Institute

Format:

Conference/Event

Author/Creator:

Dimitroff, E., author.

Conference Name:

National Fuels and Lubricants and Transportation Meetings (1966-11-01 : Houston, Texas, United States)

Language:

English

Physical Description:

1 online resource

Place of Publication:

Warrendale, PA SAE International 1966

Summary:

Basic information on gasolines which cause damaging induction system (intake port and valve) deposits in ground vehicle engines was obtained. Several fuels of known depositing tendencies were charcoal filtered and the absorbant extracted with chloroform and acetone. The adsorbant was then eluted with isopropyl alcohol in a silica gel column to obtain a concentrate. This concentrate was further subdivided in a column of magnesium silicate by a repeated elution sequence using n-pentane and methanol, obtaining a 97% all inclusive induction system deposit extract -- representing about 10-500 ppm of the fuel. The results were confirmed by both bench and engine tests. An identification of these induction system deposit precursors was made by means of elemental, nuclear magnetic resonance, infrared and mass spectral analyses.The induction system deposit precursors were found to consist primarily of long chain oxygen and nitrogen containing compounds such as amides and carboxylic acids. Representative samples of these compounds were purchased or synthesized and their induction system deposit tendencies determined. Electron spin resonance experiments were conducted which showed that the conversion of the induction system deposit precursors to induction system deposits is a free radical reaction. The induction system deposits were analyzed, and their chemical composition determined. Finally, the mechanism of induction system deposit formation in terms of its chemistry was formulated

Notes:

Vendor supplied data

Publisher Number:

660784

Access Restriction:

Restricted for use by site license