Electro-Optical Techniques for Diesel Engine Research

Abstract

The results of research to determine the feasibility of applying electro-optical diagnostic techniques to the study of combustion phenomena in diesel engines is described and evaluated. The techniques that were investigated included: high-speed laser-augmented photography, holography, fringe techniques (laser anemometry and particle sizing), mass spectroscopy, and resonance absorption. A conventional Army TACOM diesel engine and a Turner engine were modified to acquire optical access by installing quartz windows in the combustion chamber. Droplet formation, breakup, combustion, and flow phenomena were observed in the combustion chamber in three dimensions using holographic techniques, whereas conventional high-speed photography provided only information in a plane. It was established that two-dimensional velocity measurements can readily be made in the combustion chamber but that additional development is required on the prototype particle-sizing instrument. The formation of certain hydorcarbones was observed in real time using resonance absorption techniques with a narrow-line, tunable helium-neon laser. Species determination, including total temperature, was realized with the application of mass spectroscopy.

Document Details

Document Type

Technical Report

Publication Date

May 01, 1977

Accession Number

ADA039357

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