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Scale and material effects on flame characteristics in small heat recirculation combustors of a counter-current channel type

Authors
Lee, Min JungCho, Sang MoonChoi, Byung IiKim, Nam Ii
Issue Date
Oct-2010
Publisher
PERGAMON-ELSEVIER SCIENCE LTD
Keywords
Micro-combustor; Heat recirculation; Flame stabilization; Flame characteristics; Well-stirred reaction
Citation
APPLIED THERMAL ENGINEERING, v.30, no.14-15, pp 2227 - 2235
Pages
9
Journal Title
APPLIED THERMAL ENGINEERING
Volume
30
Number
14-15
Start Page
2227
End Page
2235
URI
https://scholarworks.bwise.kr/cau/handle/2019.sw.cau/22184
DOI
10.1016/j.applthermaleng.2010.06.003
ISSN
1359-4311
Abstract
Small energy sources have been interested with the recent development of small-scale mechanical systems. With the purpose of developing a basic model of micro-combustors of heat recirculation, small combustors of a counter-current channel type were fabricated, and the premixed flame stabilization characteristics were investigated experimentally. Each combustor consists of a combustion space and a pair of counter-current channels for heat recirculation. The channel gap was less than the ordinary quenching distance of a stoichiometric methane-air premixed flame. Depending on the flame locations and structures, flame stabilization was classified into four modes: an ordinary mode, a channel mode, a radiation mode, and a well-stirred reaction mode. Base-scale combustors of stainless steel were initially examined. Additional half-scale combustors of stainless steel and quartz were fabricated and their flame stabilization conditions were compared. Consequently, a change of the material of the combustor significantly affected the flame stabilization compared to the effects of a scale-down design. A half-scale quartz combustor had a wide range of flame stabilization conditions. Surface temperatures and the composition of the emission gas were measured. At a higher flow rate, the combustor temperature increases and the light emission from the middle wall is enhanced to extend the flame stabilization conditions. The combustion efficiency and the composition of emitted gas were feasible. These results provide useful information for the design of small-scale combustors. (C) 2010 Elsevier Ltd. All rights reserved.
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교양대학 (교양대학)
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