Study of a V-shape flame based on IR spectroscopy and IR imaging

J Pouplin,G Parent,Z Acem,M Kühni,C Galizzi,D Escudié,A Collin,P Boulet,F André,P Vena

doi:10.1088/1742-6596/676/1/012018

Abstract

Applicability of an IR imaging/spectroscopy diagnostic was tested on a laboratory- scale flame. For this purpose, measurements were carried out on a V-shape flame developed along a wall, with the aim of evaluating the wall temperature and of identifying the flame properties (temperature and species concentrations). Infrared measurements with a multiband camera and a spectrometer were post-processed and compared, in particular, with thermocouple measurements carried out for the wall temperature. Simple evaluation involving a correction for the emissivity showed a quite good agreement when assessed against experimental data. An attempt to reconstruct a flame emission spectrum was also carried out, expecting a possible inverse identification of the flame properties. The method showed a promising behaviour on synthetic data built with a radiative transfer model for gas and wall radiation. However, the spectrum reconstruction method is not yet accurate enough to allow an identification of the flame properties in full confidence when applied to actual experimental data. First tests showed a correct qualitative behaviour, but model refinements are required at least for the flame radiation, before getting accurate flame properties.

Highlights

This study was carried out to test the applicability of an IR imaging/spectroscopy diagnostic to laboratory-scale flames
An identification method of wall temperature and flame properties was tested on a V-shape flame, based on the post-processing of radiative transfer measurements
The method was shown to perform well on synthetic data produced with a SNB model for the gas radiation

Summary

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This content has been downloaded from IOPscience. Please scroll down to see the full text. Ser. 676 012018 (http://iopscience.iop.org/1742-6596/676/1/012018) View the table of contents for this issue, or go to the journal homepage for more. Download details: IP Address: 193.54.91.144 This content was downloaded on 07/12/2016 at 07:53 Please note that terms and conditions apply. You may be interested in: Miniaturization of a V-Shape Transducer Ultrasonic Motor Kazumasa Asumi, Ryouichi Fukunaga, Takeshi Fujimura et al Multidimensional traveling waves in the Allen–Cahn cellular automaton Mikio Murata High efficiency a-Si:H/a-SiGe:H tandem solar cells fabricated with the combination of V- and U-shaped band gap profiling techniques Sorapong Inthisang, Taweewat Krajangsang, Aswin Hongsingthong et al Noble Evaluation Method for Light Trapping Effect in Polycrystalline Silicon Solar Cells with Texture Structures using Laser Beam Induced Current Toshiki Yagi, Yukiharu Uraoka and Takashi Fuyuki Thin-disk laser based on an Yb:YAG / YAG composite active element I I Kuznetsov, I B Mukhin, O L Vadimova et al Development of simultaneous measurement system of birefringence, optical rotational power, and transmission spectra for chiral liquid crystal phases Zhengyu Feng and Ken Ishikawa. Eurotherm Conference 105: Computational Thermal Radiation in Participating Media V

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Introduction

Burner exit

Camera Spectro TC

Findings

Conclusion