High speed OH PLIF applied to multiphase combustion (Review)


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Multiphase reactive systems can exhibit highly dynamic combustion phenomena that could be better understood by using recently developed high-repetition-rate optical diagnostic and imaging approaches. Here, we present an overview of recent activities using high-speed (5 kHz) OH planar laser-induced fluorescence to visualize and make measurements in several multiphase reactive systems. This technique is used to visualize the dynamically changing OH concentration in the gas phase near the surface of solids, liquids, and gels. In addition to gas-phase OH imaging, condensed phases of various solid propellants, gels, and liquids are found to fluoresce when exposed to the laser radiation centered at 283.2 nm. Simultaneous imaging of condensed phases and gasphase OH radical fluorescence has proven to be particularly useful for various measurements, and several examples are presented.

作者简介

T. Hedman

School of Mechanical Engineering

编辑信件的主要联系方式.
Email: trevor.hedman@navy.mil
美国, West Lafayette, Indiana, 47906

K. Cho

School of Mechanical Engineering

Email: trevor.hedman@navy.mil
美国, West Lafayette, Indiana, 47906

M. Pfeil

School of Mechanical Engineering

Email: trevor.hedman@navy.mil
美国, West Lafayette, Indiana, 47906

A. Satija

School of Mechanical Engineering

Email: trevor.hedman@navy.mil
美国, West Lafayette, Indiana, 47906

H. Mongia

School of Mechanical Engineering

Email: trevor.hedman@navy.mil
美国, West Lafayette, Indiana, 47906

L. Groven

School of Mechanical Engineering

Email: trevor.hedman@navy.mil
美国, West Lafayette, Indiana, 47906

R. Lucht

School of Mechanical Engineering

Email: trevor.hedman@navy.mil
美国, West Lafayette, Indiana, 47906

S. Son

School of Mechanical Engineering

Email: trevor.hedman@navy.mil
美国, West Lafayette, Indiana, 47906

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