Structure and flammability of counter flow diffusion flame formed on a porous ceramic plate

A counter flow methane air flame was examined in preheated air cases in range of 22-450°C as well as non-preheated cases. Relatively stable flame and cell temperatures characterize preheated air flames. From the results of our experiments, we can assume that the preheated air extends the lean flamma...

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Hauptverfasser:	Nyamsuren, G, Bat, B
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	counterflow flame Flammability Heating Programmable logic arrays
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description	A counter flow methane air flame was examined in preheated air cases in range of 22-450°C as well as non-preheated cases. Relatively stable flame and cell temperatures characterize preheated air flames. From the results of our experiments, we can assume that the preheated air extends the lean flammability and the effect of the burner distance is negligible on lean flammability, in the case of a high airflow rate. The extension of the lean flammability limit is one of the most significant results of our experiment.
doi_str_mv	10.1109/IFOST.2010.5668038
format	Conference Proceeding
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Relatively stable flame and cell temperatures characterize preheated air flames. From the results of our experiments, we can assume that the preheated air extends the lean flammability and the effect of the burner distance is negligible on lean flammability, in the case of a high airflow rate. 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Relatively stable flame and cell temperatures characterize preheated air flames. From the results of our experiments, we can assume that the preheated air extends the lean flammability and the effect of the burner distance is negligible on lean flammability, in the case of a high airflow rate. The extension of the lean flammability limit is one of the most significant results of our experiment.</abstract><pub>IEEE</pub><doi>10.1109/IFOST.2010.5668038</doi><tpages>3</tpages></addata></record>
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subjects	counterflow flame Flammability Heating Programmable logic arrays
title	Structure and flammability of counter flow diffusion flame formed on a porous ceramic plate
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