Study of Compressible High Speed Gas Flow in Piping System : 3rd Report, Flow Characteristics in Junctions
スポンサーリンク
概要
- 論文の詳細を見る
The effects of compressibility on the flow losses at the high sub-sonic speed in piping systems with junctions are investigated experimentally in this report. Experiments were carried out varying the angle between the axes of pipes, the size of the radius of the edge at the joining corners and inner surface roughness of the pipe junctions as well as the flow Mach number. The effects of compressibility on Kc are expressed by the following empirical formula, Kc/Ki=1.0+α Mβ where Kc is the compressible flow loss coefficient at junctions, sub-script i refers to an incompressible flow and α, β are experimental constants. Furthermore, the flow patterns at junctions were visualized by means of Schlieren techniques, and loss characteristics were discussed on the basis of the photographic records. Finally, a practical computing method of the flow losses in a high speed pipe flow is described.
- 一般社団法人日本機械学会の論文
著者
-
MAEDA Toshiyuki
Faculty of Technology, Tokyo Metropolitan University
-
HIRAYAMA Naomichi
Faculty of Technology, Tokyo Metropolitan University
-
Maeda Toshiyuki
Faculty Of Technology Tokyo Metropolitan University
-
MORIMUNE Takaaki
Faculty of Technology, Tokyo Metropolitan University
-
Morimune Takaaki
Faculty Of Technology Tokyo Metropolitan University
-
Hirayama Naomichi
Faculty Of Engineering Tokyo Metropolitan University
-
Maeda Toshiyuki
Faculty Of Engineering Tokyo Metropolitan University
関連論文
- Fundamental Studies on the Control of Turbulent Boundary Layers : 1st Report, Theoretical and Experimental Analyses of Velocity Profiles and Parameters with and without Adverse Pressure Gradient, with Uniform Suction through a Porous Flat Plate
- Study of Compressible High Speed Gas Flow in Piping System : 3rd Report, Flow Characteristics in Junctions
- Study of Compressible High Speed Gas Flow in Piping System : 2nd Report, Piping Systems with Sudden Enlargement
- Study of ComPressible High Speed Gas Flow in Piping System : 1st Report, Piping Systems with Bends or Elbows
- Low Reynolds Number Flows with Slip at Walls in Circular Tubes with Abrupt Enlargements and Contractions
- Study of Gas Flow in Exhaust System of Actual Turbo-charged 4-cycle Diesel Engines : 1st Report, Theoretical Analysis on Exhaust System and its Application to Design Problem)
- Study on Secondary Flows in Annulus Wall Cascades : On Radial Movement of Fluid in Blade Boundary Layers for Stationary Cascades
- Study on Fundamental Performance of Helical Screw Expander
- A Study of Boundary Layers in the Downstreams of a Cylinder Row in Motion : 1 st Report, Experimental Investigation on the Boundary Layer of a Flat Plate
- A Simplified Method of the Cascade Test
- The Structure of the Outer Intermittent Region of Turbulent Boundary Layers with Injection and Suction through a Slit
- Turbulent Near Wake of a Flat Plate : Part I. Incompressible Flow
- A Study of Boundary Layers in the Downstreams of a Cylinder Row in Motion : 2 nd Report, Theoretical Investigation on the Boundary Layers of a Flat Plate
- Turbulent Near Wake of G Fiat Plate : Part 2, Effects of Boundary Layer Profile and Compressibility
- A Research on the Refuse Incinerators from the Viewpoint of Smoke Properties
- Study on the Turbulence Structure and Turbulence Model of Turbulent Boundary Layer with a Suction
- Bursting Phenomenon of Turbulent Boundary Layers with Injection and Suction through a Slit
- Turbulent Boundary Layers with Injection and Suction through a Slit : 1st Report, Mean and Turbulence Characteristics
- Low Reynolds Number Flows over a Vertical Disk in a Circular Tube : Series B : Fluid Engineering, Heat Transfer, Combustion, Power, Thermophysical Properties
- Fundamental Studies of Turbulent Boundary Layers with Injection or Suction through Porous Walls : 2nd Report, Theoretical and Experimental Analysis of Turbulent Boundary Layers with Injection and Adverse Pressure Gradients
- Fundamental Studies of Turbulent Boundary Layers with Injection or Suction through Porous Wall : 4th Report, Application of Fundamental Theoretical Analysis to Cascaded Blades with Injection or Suction and Cascade Tests
- Fundamental Studies of Turbulent Boundary Layers with Injection or Suction through Porous Wall : 3rd Report, Investigations on the Separation of Turbulent Boundary Layers in Strong Adverse Pressure Gradients with Injection through Porous Flat Plate