Search Results1-20 of  22

  • 1 / 2
  • 前田 稔幸 ID: 9000004552677

    都立大工 (1979 from CiNii)

    Articles in CiNii:1

    • A-13 遠心圧縮機ベーンディフューザの特性に関する研究 (1979)
  • 前田 稔幸 ID: 9000007730663

    Articles in CiNii:2

    • 提言「日本の再建を支える人材育成」 (1999)
    • 日本の教育の全面的改革を望む (2000)
  • 前田 稔幸 ID: 9000009284326

    Articles in CiNii:1

    • 21世紀への提言--日本列島の構造改革に関する1,2の問題提起 (1998)
  • 前田 稔幸 ID: 9000254299481

    東京都立大学 (1974 from CiNii)

    Articles in CiNii:1

    • 部分送入タービンの設計 (1974)
  • 前田 稔幸 ID: 9000254300550

    東京都立大学 (1977 from CiNii)

    Articles in CiNii:1

    • 翼列の理論 I  非圧縮性ポテンシャル流れ (1):非圧縮性ポテンシャル流れ (1) (1977)
  • 前田 稔幸 ID: 9000254300602

    東京都立大学 (1977 from CiNii)

    Articles in CiNii:1

    • 境界層制御とその応用 (1977)
  • 前田 稔幸 ID: 9000254300616

    東京都立大学 (1978 from CiNii)

    Articles in CiNii:1

    • 翼列理論 II  高亜音速流れ中における翼列理論:高亜音速流れ中における翼列理論 (1978)
  • 前田 稔幸 ID: 9000254300633

    東京都立大学工学部 (1978 from CiNii)

    Articles in CiNii:1

    • 翼列理論  超音速翼列  最終回:超音速翼列 (1978)
  • 前田 稔幸 ID: 9000254789331

    東京都立大学 (1977 from CiNii)

    Articles in CiNii:1

    • 翼列理論 II  非圧縮性ポテンシャル流れ 2:非圧縮性ポテンシャル流れ (2) (1977)
  • MAEDA Toshiyuki ID: 9000020046251

    Articles in CiNii:1

    • Fundamental Studies on Turbulent Boundary Layers with Injection or Suction through Porous Wall : 3rd Report, Investigation on Separation of Turbulent Boundary Layers in Strong Adverse Pressure Gradients with Injection through Prous Flat Plate (1971)
  • MAEDA Toshiyuki ID: 9000020189169

    Articles in CiNii:1

    • Fundamental Studies of Turbulent Boundary Layers with Injection or Suction through Porous Walls : 2nd Report, Theoretical Analysis and Experimental Results of Turbulent Boundary Layers with Injection and Adverse Pressure Gradients (1971)
  • MAEDA Toshiyuki ID: 9000020194125

    Articles in CiNii:1

    • A Simplified Method of the Cascade Testing (1962)
  • MAEDA Toshiyuki ID: 9000020197222

    Articles in CiNii:1

    • On the Shock Loss in the Flow through Thin Flat Plate Cascades (1956)
  • MAEDA Toshiyuki ID: 9000020255964

    Articles in CiNii:1

    • Fundamental Studies of Turbulent Boundary Layers with Injection or Suction : 4th Report, Application of Fundamental Theoretical Analysis to Cascaded Blades with Injection or Suction and Cascade Tests (1976)
  • MAEDA Toshiyuki ID: 9000020276554

    Articles in CiNii:1

    • Fundamental Study of Turbulent Boundary Layer with Injection or Suction Through Porous Wall : 1st Report, Analysis of the Turbulent Boundary Layer on a Flat Plate with Injection (1968)
  • MAEDA Toshiyuki ID: 9000256219153

    Articles in CiNii:1

    • Study of Compressible High Speed Gas Flow in Piping System : 3rd Report, Uniting Flow Characteristics in Branch Pipes (1981)
  • MAEDA Toshiyuki ID: 9000256219654

    Articles in CiNii:1

    • Methods of Loss Estimation in Compressible Flow through Pipe Orifices and Nozzles (1982)
  • MARDA Toshiyuki ID: 9000255761405

    Articles in CiNii:1

    • Flow Characteristics and Methods of Flow Calculation of High Speed Compressible Flow through Pipe Orifices (1982)
  • Maeda Toshiyuki ID: 9000003689511

    東京都立大学工学部 (1982 from CiNii)

    Articles in CiNii:14

    • Fundamental Studies on the Control of Turbulent Boundary Layers :1st Report, Theoretical and Experimental Analyses of Turbulent Boundary Layer Velocity Profile and Boundary Layer Parameters with or without Adverse Pressure Gradient and Uniform Suction through a Porous Flat Plate (1980)
    • Study of Compressible High Speed Gas Flow in Piping System : 1st Report, Piping Systems with Bends or Elbows (1980)
    • Study of Compressible High Speed Gas Flow in Piping System : 2nd Report, Piping Systems with Sudden Enlargement (1980)
  • Maeda Toshiyuki ID: 9000256218512

    Articles in CiNii:1

    • Fundamental Studies on the Control of Turbulent Boundary Layers :1st Report, Theoretical and Experimental Analyses of Turbulent Boundary Layer Velocity Profile and Boundary Layer Parameters with or without Adverse Pressure Gradient and Uniform Suction through a Porous Flat Plate (1980)
  • 1 / 2
Page Top