论文信息 - Flow around bridge piers

Flow around bridge piers

This paper presents the results of a laboratory study on flow past cylindrical piers placed on smooth, rough, and mobile beds. Experimental results are presented on the flow in the plane of symmetry, including the frontal downflow and the effects of bed roughness and the scour hole on it. The Clauser-type defect scheme describes the velocity profiles better than the log-law and defect law. Frontal downflows as large as 95% of the approach flow were observed. Experimental results are also presented on the deflected flow and bed shear stress field. Bed roughness increased the magnitude of bed shear stress and the area over which the shear amplification was felt and also resisted the skewing of the flow near the bed, thus leading to smaller yaw angles of the bed shear vectors.

Nallamuthu Rajaratnam | Ferdous Ahmed | N. Rajaratnam | Ferdous Ahmed

[1] Ferdous Ahmed. Flow and erosion around bridge piers , 1995 .

[2] V. C. Patel. Calibration of the Preston tube and limitations on its use in pressure gradients , 1965, Journal of Fluid Mechanics.

[3] N. Rajaratnam,et al. Yaw Probe used as Preston Tube , 1968, The Aeronautical Journal (1968).

[4] N. Rajaratnam,et al. A CALIBRATION CHART FOR THE PRESTON TUBE , 1980 .

[5] Robert Ettema,et al. SCOUR AT BRIDGE PIERS , 1980 .

[6] B. Melville. Local scour at bridge sites , 1975 .

[7] F. Pierce. The Turbulent Flow at the Plane of Symmetry of a Collateral Three-Dimensional Boundary Layer , 1964 .

[8] F. Clauser. The Turbulent Boundary Layer , 1956 .

[9] James P. Johnston. The Turbulent Boundary Layer at a Plane of Symmetry in a Three-Dimensional Flow , 1960 .

[10] J. Sterling Jones,et al. COMPARISON OF PREDICTION EQUATIONS FOR BRIDGE PIER AND ABUTMENT SCOUR , 1984 .

[11] H. W. Shen,et al. Local Scour Around Cylindrical Piers , 1977 .