Study on active control of tunnel pressure wave トンネル圧力波のアクティブ制御に関する研究

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Author

    • 梁, 閩 リャン, ミン

Bibliographic Information

Title

Study on active control of tunnel pressure wave

Other Title

トンネル圧力波のアクティブ制御に関する研究

Author

梁, 閩

Author(Another name)

リャン, ミン

University

山梨大学

Types of degree

博士 (工学)

Grant ID

甲第36号

Degree year

1996-03-22

Note and Description

博士論文

Table of Contents

  1. CONTENTS / p1 (0006.jp2)
  2. Chapter1 INTRODUCTION / p1 (0009.jp2)
  3. 1.1 Problems Caused by an Exit Impulse Noise (Micro-pressure Wave) / p1 (0009.jp2)
  4. 1.2 Review of Studies of Tunnel Pressure Wave and the Exit Impulse Noise / p4 (0012.jp2)
  5. 1.3 Outlines of This Study / p15 (0023.jp2)
  6. References / p17 (0025.jp2)
  7. Chapter2 THEORY AND BASIC CHARACTERISTICS OF TUNNEL @PRESSURE WAVE / p19 (0027.jp2)
  8. 2.1 Introduction / p19 (0027.jp2)
  9. 2.2 Tunnel Pressure Wave Near Tunnel Entrance / p19 (0027.jp2)
  10. 2.3 Distortion of a Tunnel Pressure Wave / p22 (0030.jp2)
  11. 2.4 Reflection from Open End of a Pipe / p34 (0042.jp2)
  12. 2.5 Basic Characteristics of a Tunnel Pressure Wave / p38 (0046.jp2)
  13. 2.6 Summary Remarks / p44 (0052.jp2)
  14. References / p45 (0053.jp2)
  15. Chapter3 IMPULSIVE NOISE RADIATED FROM TUNNEL EXIT / p46 (0054.jp2)
  16. 3.1 Introduction / p46 (0054.jp2)
  17. 3.2 Relation Between Exit Impulse Noise and Tunnel Pressure Wave / p46 (0054.jp2)
  18. 3.3 Basic Characteristics of the Exit Impulse Noise / p49 (0057.jp2)
  19. 3.4 Experimental Analyses of the Exit Impulse Noise / p52 (0060.jp2)
  20. 3.5 Principle to Attenuate the Exit Impulse Noise / p61 (0069.jp2)
  21. 3.6 A Simple Method to Measure the Impulsive Noise for Sound Insulation / p64 (0072.jp2)
  22. 3.7 Summary Remarks / p72 (0080.jp2)
  23. References / p74 (0082.jp2)
  24. Chapter4 ACTIVE CANCELLATION OF A TUNNEL PRESSURE WAVE BY NEGATIVE PRESSURE / p76 (0084.jp2)
  25. 4.1 Introduction / p76 (0084.jp2)
  26. 4.2 Principles of Active Control by Negative Pressure / p76 (0084.jp2)
  27. 4.3 Experimental System / p81 (0089.jp2)
  28. 4.4 Generation of a Tunnel Pressure Wave / p83 (0091.jp2)
  29. 4.5 Generation of a Negative Pressure Wave / p85 (0093.jp2)
  30. 4.6 Active Cancellation / p88 (0096.jp2)
  31. 4.7 Summary Remarks / p90 (0098.jp2)
  32. References / p91 (0099.jp2)
  33. Chapter5 FUNDAMENTAL STUDIES OF ACTIVE CANCELLATION BY POSITIVE PRESSURE / p93 (0101.jp2)
  34. 5.1 Introduction / p93 (0101.jp2)
  35. 5.2 Experimental System / p93 (0101.jp2)
  36. 5.3 Principles to Generate a Negative Pressure Gradient by Positive Pressure / p95 (0103.jp2)
  37. 5.4 Generation of a Negative Pressure Gradient / p99 (0107.jp2)
  38. 5.5 Control of Controlling Pressure Wave Over Its Pressure and Gradient / p104 (0112.jp2)
  39. 5.6 Control of Negative Pressure Gradient / p108 (0116.jp2)
  40. 5.7 Active Cancellation / p111 (0119.jp2)
  41. 5.8 Efficiency of the Active Control by Positive Pressure / p115 (0123.jp2)
  42. 5.9 Summary Remarks / p117 (0125.jp2)
  43. References / p118 (0126.jp2)
  44. Chapter6 ACTIVE CANCELLATION OF A TUNNEL PRESSURE WAVE BY POSITIVE PRESSURE / p119 (0127.jp2)
  45. 6.1 Introduction / p119 (0127.jp2)
  46. 6.2 Experimental System and Method / p119 (0127.jp2)
  47. 6.3 Active Attenuation by Control of Superposition Timing / p123 (0131.jp2)
  48. 6.4 Active Attenuation by Control of Supply Pressure / p128 (0136.jp2)
  49. 6.5 Active Attenuation by Control of Valve Rotating Velocity / p132 (0140.jp2)
  50. 6.6 Summary Remarks / p136 (0144.jp2)
  51. References / p136 (0144.jp2)
  52. Chapter7 CONCLUSION / p138 (0146.jp2)
  53. ACKNOWLEDGMENT / p148 (0156.jp2)
5access

Codes

  • NII Article ID (NAID)
    500000132571
  • NII Author ID (NRID)
    • 8000000967186
  • DOI(NDL)
  • NDLBibID
    • 000000296885
  • Source
    • NDL ONLINE
    • NDL Digital Collections

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