Modeling and numerical simulation of turbulent, rich methane air flame and the application to chemical gas turbine メタン過濃乱流燃焼のモデリングと数値シミュレーションおよびケミカルガスタービンへの応用

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Author

    • Dida Bujar ディダ ブヤール

Bibliographic Information

Title

Modeling and numerical simulation of turbulent, rich methane air flame and the application to chemical gas turbine

Other Title

メタン過濃乱流燃焼のモデリングと数値シミュレーションおよびケミカルガスタービンへの応用

Author

Dida Bujar

Author(Another name)

ディダ ブヤール

University

東北大学

Types of degree

博士(工学)

Grant ID

甲第6943号

Degree year

1999-03-25

Note and Description

博士論文

Table of Contents

  1. Content / p1 (0004.jp2)
  2. Chapter I / p1 (0007.jp2)
  3. I-1 Background / p1 (0007.jp2)
  4. I-2 Purpose of this study / p5 (0011.jp2)
  5. I-3 Thesis content / p6 (0012.jp2)
  6. I-4 Basic flame types and other definitions / p9 (0015.jp2)
  7. I-5 Mathematical description of flames / p10 (0016.jp2)
  8. I-6 Chemical reactions in methane-air flames / p15 (0021.jp2)
  9. I-7 Turbulence models / p26 (0032.jp2)
  10. I-8 Chemistry modeling in turbulence / p30 (0036.jp2)
  11. I-9 Governing equations for turbulent flames / p36 (0042.jp2)
  12. I-10 Gas turbine / p37 (0043.jp2)
  13. I-11 Conclusions / p41 (0047.jp2)
  14. Nomenclature / p43 (0049.jp2)
  15. Chapter II / p46 (0052.jp2)
  16. II Kinetic mechanisms of methane-air flames / p46 (0052.jp2)
  17. II-2 Reduced kinetic mechanisms / p58 (0064.jp2)
  18. II-3 Numerical model of one-dimensional laminar premixed methane-air flame / p72 (0078.jp2)
  19. II-4 Experiments on laminar premixed methane-air flame / p74 (0080.jp2)
  20. II-5 Comparison of numerical results and experimental data / p76 (0082.jp2)
  21. II-6 Conclusions / p90 (0096.jp2)
  22. Nomenclature / p91 (0097.jp2)
  23. Chapter III / p92 (0098.jp2)
  24. III Kinetic model of methane-air flame in turbulent reactive flow / p92 (0098.jp2)
  25. III-1 Mathematical modeling of turbulent unpremixed methane-air flame / p92 (0098.jp2)
  26. III-2 Code structure / p95 (0101.jp2)
  27. III-3 Kinetic models of methane-air flame / p98 (0104.jp2)
  28. III-4 Results and data analyses / p104 (0110.jp2)
  29. III-5 Conclusions / p117 (0123.jp2)
  30. Nomenclature / p119 (0125.jp2)
  31. Chapter IV / p121 (0127.jp2)
  32. IV Experiments on turbulent unpremixed rich methane-air flames / p121 (0127.jp2)
  33. IV-1 Laboratory scale can combustor / p121 (0127.jp2)
  34. IV-2 Experimental / p123 (0129.jp2)
  35. IV-3 Numerical simulation for experimental combustor / p127 (0133.jp2)
  36. IV-4 Comparison of numerical results and experimental data / p133 (0139.jp2)
  37. IV-5 Conclusions / p143 (0149.jp2)
  38. Nomenclature / p144 (0150.jp2)
  39. Chapter V / p145 (0151.jp2)
  40. V Chemical Gas Turbine / p145 (0151.jp2)
  41. V-1 High pressure fuel-rich combustor / p145 (0151.jp2)
  42. V-2 Experimental / p147 (0153.jp2)
  43. V-3 Estimation of effects of the pressure / p150 (0156.jp2)
  44. V-4 Outline of combustion simulation / p152 (0158.jp2)
  45. V-5 Comparison of numerical results and experimental data / p155 (0161.jp2)
  46. V-6 Conclusions / p165 (0171.jp2)
  47. Nomenclature / p167 (0173.jp2)
  48. Chapter VI / p169 (0175.jp2)
  49. VI Conclusions / p169 (0175.jp2)
  50. References / p173 (0179.jp2)
  51. Oral presentations / p179 (0185.jp2)
  52. Paper contribution / p179 (0185.jp2)
  53. Acknowledgments / p180 (0186.jp2)
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Codes

  • NII Article ID (NAID)
    500000170962
  • NII Author ID (NRID)
    • 8000000171236
  • DOI(NDL)
  • NDLBibID
    • 000000335276
  • Source
    • NDL ONLINE
    • NDL Digital Collections

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