Thermal radiation in semitransparent media

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BE8212 V1 Article

Thermal radiation in semitransparent media

Authors : Denis LEMONNIER, Pascal BOULET

Publication date: June 10, 2025, Review date: November 10, 2024

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Overview

ABSTRACT

 This article presents the basics of radiative transfer in media that alters thermal radiation passing through them. Such media are called semi-transparent, or (radiatively) participants. They are found, in particular, in high-temperature industrial processes, fire safety, combustion chamber thermics, atmospheric science, solar energy harvesting, etc. The different mechanisms of interaction of radiation with matter are detailed. They lead to a transport equation whose solution gives access to the fundamental energy quantities for the heat transfer engineer (flux, radiant sources).

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AUTHORS

  • Denis LEMONNIER : CNRS Senior Scientist - Institut Pprime, CNRS – ENSMA – Université de Poitiers, Futuroscope Chasseneuil, France

  • Pascal BOULET : Professor - LEMTA, Université de Lorraine – CNRS, Nancy, France

 INTRODUCTION

A semitransparent medium is one that absorbs, possibly scatters, and emits thermal radiation in volume . It is also said to be a medium that participates in radiation. This type of environment is found, for instance, in combustion, where high temperature gases emit and absorb radiation on a volume basis. In addition, when these gases are loaded with particles (soot, droplets), they also contribute to radiative transfer by absorbing, emitting, and scattering photons. Basically, radiation can be considered from either a wave perspective (propagation of electromagnetic waves) or as a particle flow (tracking of energy packets, in this case photons). Each approach has its own advantages and disadvantages. They are used in a complementary way.

There are several areas of great industrial interest where radiation through a “semitransparent” medium plays a dominant role, such as high temperature processes (glass furnaces, boilers), aircraft or rocket engines (combustion chamber thermics, infrared remote sensing), insulation design, fire protection, and so on.

This article introduces the basic concepts of radiative transfer in media that absorb, emit, and scatter photons. The various mechanisms are described in detail to provide the basis for the physical model on which the major thermal radiation modeling methods are based.

The present text builds on the knowledge presented in [BE 8 210] (in French) for opaque media.

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KEYWORDS

thermal emission   |   transfer equation   |   thermal absorption   |   thermal emission

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Thermal radiation in semitransparent media

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