Bluff body aerodynamics and its applications : a selection of papers presented at the International Colloquium on Bluff Body Aerodynamics and its Applications, 17-20 October 1988, Kyoto, Japan

With the increasing slenderness and lightness of civil engineering structures such as tower blocks and bridges, wind effects on them have been attracting considerable interest from researchers and design engineers. Since most structures in civil engineering present bluff forms to the wind, the main emphasis of this collection of papers is on bluff body aerodynamics. The flow effects in this case, in addition to turbulence effects in the atmospheric boundary layer illustrate the unique and complex nature of the problems that can be encountered in this field, as opposed to the classical studies in the aeronautical field that influenced the initial development stages of industrial aerodynamics. Selected papers from the colloquium are presented in this volume. The papers offer a comprehensive presentation of the results of the studies made of wind effects on engineering structures. The latest trends in the field are outlined and the results obtained in the solution of topical problems are described.

Fundamental Studies. Recent research into bluff-body flutter (Y. Nakamura). Bluff-body aerodynamics influence on transport and diffusion (R.N. Meroney). Some effects of free-stream turbulence on the flow past a cantilevered circular cylinder (Y. Uematsu et al.). Conceptual overview of laminar and turbulent flows past smooth and rough circular cylinders (M.M. Zdravkovich). Analytical study on growth mechanism of rain vibration of cables (H. Yamaguchi). Force-displacement measurements on closely spaced tandem cylinders (C.W. Knisely, M. Kawagoe). Vortex-induced oscillation of two dimensional rectangular cylinders in large scale turbulence (H. Kobayashi et al.). Drag and lift on rectangular bluff bodies immersed in deep boundary layer flow over rough surfaces (J. Wacker et al.). Aerodynamics responses and pressure function of shallow H-section cylinder (Y. Kubo et al.). On self-excited oscillation of the cable trussed roof with single curvature (T. Matsumoto). Numerical Aerodynamics. Discrete vortex simulation for flow around a circular cylinder with a splitter plat (H. Kawai). Numerical simulation of flow around rectangular cylinders (A. Okajima). Aerodynamics of Buildings and Towers. Progress and problems in the prediction of the response of prototype structures to vortex-induced excitaiton (B.J. Vickery). Practical experiences with wind-induced vibrations (H. Ruscheweyh). Recent developments in full-scale wind pressure measurements in Japan (J. Kanda, T. Ohkuma). Wind-induced vibration of tower and practical applications of tuned sloshing damper (K. Fujii et al.). Bridge Aerodynamics. Similitude and modelling in wind tunnel testing of bridges (H. Tanaka). Mechanism of aerodynamic stabilization forlong-span suspension bridge with stiffening truss-girder (T. Ueda et al.). Aerodynamic stability of the tower of a long-spanned cable-stayed bridge (Higashi Kobe bridge) (K. Ogawa et al.). Aerodynamic stability of Kansai International Airport access brdige (A. Honda et al.). Reliability of bridge structures under wind loading: Considerations of uncertainties of windload parameters (P.H.W. Prenninger et al.). Fluid-Dynamics Problems of Reactors and Ground Vehicles. Flow-induced vibration and fluid-structure interaction in nuclear power plant components (K. Fujita). The assessment of wind tunnel testing techniques for gound vehicles in cross winds (C.J. Baker, C.G. Robinson). ICBBAA Work Shop Reports. Wind engineering database. Mechanisms of flow-induced vibration.