A study on breakdown mechanism and improvement of dielectric performance under particle-contaminated conditions in SF[6] gas SF[6]ガス中の粒子汚損下における破壊機構と絶縁性能向上に関する研究

この論文をさがす

著者

    • 李, 亨浩 リ, ヘンホ

書誌事項

タイトル

A study on breakdown mechanism and improvement of dielectric performance under particle-contaminated conditions in SF[6] gas

タイトル別名

SF[6]ガス中の粒子汚損下における破壊機構と絶縁性能向上に関する研究

著者名

李, 亨浩

著者別名

リ, ヘンホ

学位授与大学

九州大学

取得学位

博士 (工学)

学位授与番号

甲第3108号

学位授与年月日

1993-03-26

注記・抄録

博士論文

目次

  1. Contents / p1 (0003.jp2)
  2. Chapter 1 Introduction / p1 (0007.jp2)
  3. 1.1 General / p1 (0007.jp2)
  4. 1.2 Practical Factors Affecting the Dielectric Performance of SF₆ Gas Insulated Apparatus / p4 (0010.jp2)
  5. 1.3 A Review of Earlier Investigations on Particle-initiated Breakdown Characteristics in Compressed SF₆ Gas / p12 (0018.jp2)
  6. 1.4 Purpose and Scope of the Present Study / p17 (0023.jp2)
  7. Chapter 2 Dependence of Electrostatic Field along the Electrode and Insulator Surfaces on Their Geometrical Profiles / p21 (0027.jp2)
  8. 2.1 Introduction / p21 (0027.jp2)
  9. 2.2 Surface Breakdown Characteristics under Particle-contaminated Conditions / p22 (0028.jp2)
  10. 2.3 Basic Improvement Methods of Particle-initiated Breakdown Voltage with the Shapes of Electrode and Surface / p25 (0031.jp2)
  11. 2.4 Field Calculation and Accuracy Evaluation / p31 (0037.jp2)
  12. 2.5 Field Distribution Dependence on Shape Parameters of Electrode and Surface / p36 (0042.jp2)
  13. 2.6 Conclusions / p54 (0060.jp2)
  14. Chapter 3 Influence of Electrode Shape on Particle-initiated Breakdown / p56 (0062.jp2)
  15. 3.1 Introduction / p56 (0062.jp2)
  16. 3.2 Experimental Setup and Procedures / p57 (0063.jp2)
  17. 3.3 Experimental Results / p64 (0070.jp2)
  18. 3.4 Discussion / p72 (0078.jp2)
  19. 3.5 Conclusions / p80 (0086.jp2)
  20. Chapter 4 Influence of Surface Shape on Particle-initiated Breakdown / p81 (0087.jp2)
  21. 4.1 Introduction / p81 (0087.jp2)
  22. 4.2 Experimental Setup and Procedures / p82 (0088.jp2)
  23. 4.3 Experimental Results / p85 (0091.jp2)
  24. 4.4 Discussion / p98 (0104.jp2)
  25. 4.5 Conclusions / p105 (0111.jp2)
  26. Chapter 5 Improvement of Particle-initiated Flashover Characteristics by Changing Electrode and Surface Shapes / p107 (0113.jp2)
  27. 5.1 Introduction / p107 (0113.jp2)
  28. 5.2 Experimental Setup and Procedures / p108 (0114.jp2)
  29. 5.3 Experimental Results / p110 (0116.jp2)
  30. 5.4 Discussion / p123 (0129.jp2)
  31. 5.5 Conclusions / p138 (0144.jp2)
  32. Chapter 6 Characteristics of Unipolar Ion Flow Field and Discharge Model in SF₆ Gas under Non-uniform Electric Field / p139 (0145.jp2)
  33. 6.1 Introduction / p139 (0145.jp2)
  34. 6.2 Principle of the Biased Probe Method / p140 (0146.jp2)
  35. 6.3 Theoretical Analysis of Unipolar Ion Flow Field / p146 (0152.jp2)
  36. 6.4 Experimental Setup and Procedures / p149 (0155.jp2)
  37. 6.5 Experimental Results / p151 (0157.jp2)
  38. 6.6 Discussion on Discharge and Ion Flow Field Models / p160 (0166.jp2)
  39. 6.7 Conclusions / p167 (0173.jp2)
  40. Chapter 7 Concluding Remarks / p169 (0175.jp2)
  41. 7.1 Overall Conclusions / p169 (0175.jp2)
  42. 7.2 Future Subjects for Improving the Reliability of Compressed-gas Insulated Apparatus / p173 (0179.jp2)
  43. References / p175 (0181.jp2)
  44. Acknowledgements / p185 (0191.jp2)
0アクセス

各種コード

  • NII論文ID(NAID)
    500000093282
  • NII著者ID(NRID)
    • 8000000093508
  • DOI(NDL)
  • NDL書誌ID
    • 000000257596
  • データ提供元
    • NDL-OPAC
    • NDLデジタルコレクション
ページトップへ