2024-03-28T10:10:42Z
https://nagoya.repo.nii.ac.jp/oai
oai:nagoya.repo.nii.ac.jp:00007309
2023-01-16T03:52:50Z
320:321:322
Numerical Analysis on Quenching of Premixed Flame at a Small Circular Hole Made in a Cooled Plate (Quenching Mechanism of Hydrogen-Air Premixed Flame)
固体壁の小円孔を通過する予混合火炎の消炎に関する数値解析 (水素-空気予混合火炎の消炎機構)
藤田, 英之
20129
FUJITA, Hideyuki
20130
山下, 博史
20131
YAMASHITA, Hiroshi
20132
中尾, 友哉
20133
NAKAO, Tomoya
20134
Premixed Flame
Flame Quenching
Lewis Number
Flame Stretch
Quenching Diameter
Numerical Analysis
In order to clarify the unsteady behavior and the quenching mechanism of the hydrogen-air premixed flame at a small circular hole made in the cooled plate put in the large container, the numerical calculation was carried out by using the detailed chemical kinetics. In this calculation, the stationary premixed gas is filled in the container at the start, and then the mixture is ignited at the end face and the flame propagates to the hole. At the hole, the flow is induced by the flame propagation and the heat is taken from the cooled wall, so that the flame front changes unsteadily and has the curvature. When the flame front has the curvature, the effects of non-unity Lewis number of the hydrogen fuel learn or rich mixtures appear in the quenching process. The relationship between the quenching diameter and the equivalence ratio are shown for the different thickness of the cooled plate. Moreover, the unsteady flame behavior and the critical quenching process are shown for the fuel lean and rich mixtures, and the quenching mechanism is examined so that the effects of the cooling and the Lewis number are charified.
journal article
日本機械学会
2003-11
application/pdf
日本機械学會論文集 B編
687
69
2523
2530
http://hdl.handle.net/2237/8992
0387-5016
https://nagoya.repo.nii.ac.jp/record/7309/files/JsMecEngB_69-687-2523.pdf
jpn
http://ci.nii.ac.jp/naid/ 110002388406/
日本機械学会
本文データは学協会の許諾に基づきCiNiiから複製したものである。