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다국어 초록 (Multilingual Abstract)

Detailed analysis of NO formation routes and its contributions with strain rate in hydrogen/air flames were numerically investigated. LiG detailed reaction mechanism has been used for calculation, which is compared with experimental data in literature. It shows good agreement with experiment for both temperature and NO mole fraction. Three routes have been found important for NO formation in hydrogen flames. These are the Thermal route, NNH route and N₂O route. Strain rate were varied to discuss the EINO reduction trend in hydrogen nonpremixed flames, which are analyzed by each NO formation routes. As a result , as the strain rate increase, EINO decrease sharply until strain rate 100s<SUP>-1</SUP> and decrease slowly until strain rate 310s<SUP>-1</SUP> again, after that EINO keeps nearly constant. It can be identified that EINO trend with the strain rate is well explained by a combination of variation of production rate of above Thermal, NNH and N₂O route. Also result of Thermal-Mech. that includes only thermal NO reaction is compared with those of Full-Mech. . As a result, It can be identified that there was difference between the two results of calculation. It is attributed to result that Thermal-mech did not consider contributions of NNH and N₂O route. From these result, we can conclude that NOx emission characteristics of hydrogen nonpremixed flames should consider contributions of above three routes simultaneously.

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목차 (Table of Contents)

Abstract
1. 서론
2. 수치해석 방법
3. 결과 및 검토
4. 결론

Abstract
1. 서론
2. 수치해석 방법
3. 결과 및 검토
4. 결론
후기
참고문헌

참고문헌 (Reference)

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4 Peters, N, "Structure and Similarity of Nitric Oxide Production in Turbulent Diffusion Flames" 33-42, 1981

5 Takeno, T, "Species Conservation and Emission Indices for Flames Described by Similarity Solutions" 92 : 448-465, 1993

6 Drake, M. C, "Relative Importance of Nitric Oxide Formation Mechanisms in Laminar Opposed-flow Diffusion Flames" 83 : 185-203, 1991

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8 Lutz, A. E, "OPPDIF: A Fortran Program for Computing Opposed-Flow Diffusion Flames" 1994

9 Bozzelli, J. W, "O+NNH : a Possible New Route for NOx Formation in Flames" 27 : 1097-1099, 1995

10 Chen, R. H, "Nitric Oxide Levels of Jet Diffusion Flames : Effects of Coaxial Air and Other Mixing Parameters" 281-288, 1990