FLAME STABILITY AND STRUCTURE OF TURBULENT PREMIXED FLAME IN A STAGNATION POINT FLOW

1992 Fiscal Year Final Research Report Summary

• Project/Area Number: 03650056
• Research Category: Grant-in-Aid for General Scientific Research (C)
• Allocation Type: Single-year Grants
• Research Field: Aerospace engineering
• Research Institution: KEIO UNIVERSITY
• Principal Investigator: UEDA Toshihisa KEIO UNIVERSITY, DEPARTMENT OF MECHANICAL ENGINEERING, ASSOCIATE PROFESSOR, 理工学部, 助教授 (10151797)
• Co-Investigator(Kenkyū-buntansha): MIZOMOTO Masahiko KEIO UNIVERSITY, DEPARTMENT OF MECHANICAL ENGINEERING, PROFESSOR, 理工学部, 教授 (60051710)
• Project Period (FY): 1991 – 1992
• Keywords: Turbulent Premixed Flame / Stagnation Point Flow / Extinction / Turbulent Burning Velocity / Flame stretch / Flame Curvature / Lewis Number Effect / Fractal

Research Abstract

Flame stability and structure of a wrinkled laminar flame in a stagnation point flow have been studied experimentally. The characteristics of an approaching flow were estimated by measuring the centerline velocity profile with LDV. The flame front image was taken by using the laser tomographic method and the flame curvature was estimated by analyzing the tomographic image with image processor. The conclusions are as follows.
1. For the lean propane/air flame, whose Lewis number is larger than unity, the total stretch rate defined as a sum of flame stretch due to flow divergence and that due to flame curvature is a primary parameter for the flame extinction. On the other hand, lean methane/air flame, whose Lewis number less than unity, is extinguished under the influence of the heat loss to the wall. These indicate that the Lewis number effect plays an important role for the flame extinction and the extinction mechanism can be treated as similar to that of the laminar flame when the flame stretch is reasonably estimated by taking into account the effect of flame curvature.
2. From the tomography image of high speed 16mm films, the flame front movement is shown and the variation of the flame curvature is obtained. The result shows that the flame is locally extinguished when the flame reaches to the wall.
3. The turbulent burning velocity depends on the product of the turbulent intensity and the flame stretch due to flame curvature.

Research Products

• [Publications] Y.Yahagi,T.Ueda,and M.Mizomoto: "Extinction of Lean Propane/Air Turbulent Premixed Flames in a Stagnation Point Flow" JSME International Journal Series II. 35. 304-309
  • Description: 「研究成果報告書概要(和文)」より
• [Publications] 矢作 裕司,植田 利久,溝本 雅彦: "層流よどみ流中に形成される希薄予混合火炎の消炎機構" 日本機械学会論文集(B編). 58. 2878-2883 (1992)
  • Description: 「研究成果報告書概要(和文)」より
• [Publications] Y.Yahagi,T.Ueda,and M.Mizomoto: "Extinction Mechanism of Lean Methane/air Turbulent Premixed Flame in a Stagnation Flow" Proceedings of the Twenty-Fourth International Symposium on Combustion.
  • Description: 「研究成果報告書概要(和文)」より
• [Publications] Y.Yahagi,T.Ueda,and M.Mizomoto: "Flame Curvature and Flame Speed of a Turbulent Premixed Flame in a Stagnation Point Flow" AIAA Progress in Astronautics and Aeronautics Series.
  • Description: 「研究成果報告書概要(和文)」より
• [Publications] Y.YAHAGI, T.UEDA AND M.MIZOMOTO: "EXTINCTION OF LEAN PROPANE/AIR TURBULENT PREMIXED FLAMES IN A STAGNATION POINT FLOW" JSME INTERNATIONAL JOURNAL II. 35. 304-309 (1992)
  • Description: 「研究成果報告書概要(欧文)」より
• [Publications] Y.YAHAGI, T.UEDA AND M.MIZOMOTO: "EXTINCTION MECHANISM OF LEAN PREMIXED FLAMES IN A LAMINAR STAGNATION POINT FLOW" JSME TRANSACTION. 58. 2878-2883 (1992)
  • Description: 「研究成果報告書概要(欧文)」より
• [Publications] Y.YAHAGI, T.UEDA AND M.MIZOMOTO: "EXTINCTION MECHANISM OF LEAN METHANE/AIR TURBULENT PREMIXED FLAME IN A STAGNATION POINT FLOW" PROCEEDINGS OF THE 21ST INTERNATIONAL SYMPOSIUM ON COMBUSTION.
  • Description: 「研究成果報告書概要(欧文)」より
• [Publications] Y.YAHAGI, T.UEDA AND M.MIZOMOTO: "FLAME CURVATURE AND FLAME SPEED OF A TURBULENT PREMIXED FLAME IN A STAGNATION POINT FLOW" AIAA PROGRESS IN ASTRONAUTICS AND AERONAUTICS SERIES.
  • Description: 「研究成果報告書概要(欧文)」より