Development of hexaaluminate catalysis for high temperature catalytic combustion ヘキサアルミネート系高温燃焼触媒材料の開発

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Author

    • 町田, 正人 マチダ, マサト

Bibliographic Information

Title

Development of hexaaluminate catalysis for high temperature catalytic combustion

Other Title

ヘキサアルミネート系高温燃焼触媒材料の開発

Author

町田, 正人

Author(Another name)

マチダ, マサト

University

九州大学

Types of degree

工学博士

Grant ID

乙第5091号

Degree year

1992-01-30

Note and Description

博士論文

Chapter1 INTRODUCTORY SURVEY Chapter2 EFFECT OF ADDITIVES ON SURFACE AREA OF OXIDE SUPPORTS Chapter3 PREPARATION OF LARGE SURFACE AREA HEXAALUMINATE FROM METAL ALKOXIDES Chapter4 CRYSTALLOGRAPHIC ANALYSIS ON THERMAL STABILITY OF HEXAALUMINATE Chapter5 MATERIAL DESIGN OF COMBUSTION CATALYST BY STRUCTURAL MODIFICATION OF HEXAALUMINATE Chapter6 HIGH TEMPERATURE CATALYTIC COMBUSTION OVER HEXAALUMINATE CATALYST Chapter7 SUMMARY

Table of Contents

  1. Table of Contents / (0003.jp2)
  2. Chapter1 INTRODUCTORY SURVEY / p1 (0005.jp2)
  3. 1.1 General Background / p1 (0005.jp2)
  4. 1.2 Outline of the Thesis / p10 (0010.jp2)
  5. References / p14 (0012.jp2)
  6. Chapter2 EFFECT OF ADDITIVES ON SURFACE AREA OF OXIDE SUPPORTS / p16 (0013.jp2)
  7. 2.1 Introduction / p16 (0013.jp2)
  8. 2.2 Experimental / p17 (0013.jp2)
  9. 2.3 Surface Area of Oxide Support and Effect of Additives / p18 (0014.jp2)
  10. 2.4 Crystal Phase and Surface Area of Ba0-Al₂0₃ System / p20 (0015.jp2)
  11. 2.5 Effect of Hexaaluminate Formation on Surface Area / p24 (0017.jp2)
  12. 2.6 Comparison with other Alumina-Additive Systems / p26 (0018.jp2)
  13. 2.7 Conclusion / p27 (0018.jp2)
  14. References / p29 (0019.jp2)
  15. Chapter3 PREPARATION OF LARGE SURFACE AREA HEXAALUMINATE FROM METAL ALKOXIDES / p31 (0020.jp2)
  16. 3.1 Introduction / p31 (0020.jp2)
  17. 3.2 Experimental / p32 (0021.jp2)
  18. 3.3 Powder Properties of Alkoxide-Derived Hexaaluminate / p34 (0022.jp2)
  19. 3.4 Analysis on Formation Process of Hexaaluminate / p37 (0023.jp2)
  20. 3.5 Effect of Preparation Conditions on Surface Area of Alkoxide-Derived Hexaaluminate / p47 (0028.jp2)
  21. 3.6 Conlusion / p55 (0032.jp2)
  22. References / p56 (0033.jp2)
  23. Chapter4 CRYSTALLOGRAPHIC ANALYSIS ON THERMAL STABILITY OF HEXAALUMINATE / p57 (0033.jp2)
  24. 4.1 Introduction / p57 (0033.jp2)
  25. 4.2 Experimental / p58 (0034.jp2)
  26. 4.3 Crystal Structure of Hexaaluminate Compounds / p60 (0035.jp2)
  27. 4.4 Morphology and Orientation of Hexaaluminate Particles / p62 (0036.jp2)
  28. 4.5 Crystal Growth of Hexaaluminate during Heat Treatment / p64 (0037.jp2)
  29. 4.6 Relation between Crystal Growth and Oxygen Diffusion / p69 (0039.jp2)
  30. 4.7 Conclusion / p76 (0043.jp2)
  31. References / p78 (0044.jp2)
  32. Chapter5 MATERIAL DESIGN OF COMBUSTION CATALYST BY STRUCTURAL MODIFICATION OF HEXAALUMINATE / p79 (0044.jp2)
  33. 5.1 Introduction / p79 (0044.jp2)
  34. 5.2 Experimental / p81 (0045.jp2)
  35. 5.3 Preparative Strategy for High Temperature Catalysts / p83 (0046.jp2)
  36. 5.4 Catalytic Properties of Cation-Substituted Hexa-aluminate / p86 (0048.jp2)
  37. 5.5 Structural Modification of Hexaaluminate Catalyst / p95 (0052.jp2)
  38. 5.6 Conclusion / p108 (0059.jp2)
  39. References / p110 (0060.jp2)
  40. Chapter6 HIGH TEMPERATURE CATALYTIC COMBUSTION OVER HEXAALUMINATE CATALYST / p111 (0060.jp2)
  41. 6.1 Introduction / p111 (0060.jp2)
  42. 6.2 Experimental / p112 (0061.jp2)
  43. 6.3 Catalytic Combustion over Hexaaluminate Honeycomb Catalyst / p115 (0062.jp2)
  44. 6.4 Analysis on Catalyst Deactivation / p117 (0063.jp2)
  45. 6.5 Conclusion / p121 (0065.jp2)
  46. References / p122 (0066.jp2)
  47. Chapter7 SUMMARY / p123 (0066.jp2)
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Codes

  • NII Article ID (NAID)
    500000084810
  • NII Author ID (NRID)
    • 8000000085022
  • DOI(NDL)
  • Text Lang
    • eng
  • NDLBibID
    • 000000249124
  • Source
    • Institutional Repository
    • NDL ONLINE
    • NDL Digital Collections

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