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Wind Engineering 1983, Part A contains the proceedings of the Sixth International Conference on Wind Engineering, held in Gold Coast, Australia, on March 21-25, 1983 and in Auckland, New Zealand, on April 6-7, 1983 under the auspices of the International Association for Wind Engineering. The conference provided a forum for discussing topics related to wind energy and wind engineering, from wind characteristics and wind loading to full-scale measurement and modeling of buildings and other structures. Comprised of 36 chapters, this volume begins with an assessment of the wider application of reliability principles in the treatment of wind loading, paying particular attention to the influence of wind direction and the role of full-scale testing in reducing uncertainty. The reader is then introduced to wind characteristics, with emphasis on strong winds and tropical cyclones; wind loading of tall buildings and low-rise structures; and instrumentation and experimental techniques for wind loading. The base balance technique for the determination of dynamic wind loads is described, along with a detailed design method for pneumatic tubing systems and a digital system for the measurement of wind effects on large structures. The final two chapters deal with active modeling of large-scale turbulence and selection of local peak pressure coefficients for wind tunnel studies of buildings. This monograph will be of interest to students, practitioners, and researchers concerned with wind energy and wind engineering.
Wind Engineering 1983, Part C contains the proceedings of the Sixth International Conference on Wind Engineering, held in Gold Coast, Australia, on March 21-25, 1983 and in Auckland, New Zealand, on April 6-7, 1983 under the auspices of the International Association for Wind Engineering. The conference provided a forum for discussing topics related to wind energy and wind engineering, from internal pressures and wind-induced heat losses to wind characteristics, wind power systems, and the dispersion of gaseous pollutants. Comprised of 29 chapters, this volume begins with a detailed treatment of theory and experiment regarding the response characteristics of air pressure inside double-glazed windows. The effects of surrounding buildings on wind pressure distributions and ventilative heat losses for a single-family house are then examined, along with the nonlinearity of pressure differentials induced by wind and mechanical ventilation. Subsequent sections focus on topographic modeling of the dispersion of gaseous pollutants; the effect of wind environment on shelter; the effect of wind characteristics on structures; wind flow over hills and ridges; and wind power systems. This monograph will be of interest to students, practitioners, and researchers concerned with wind energy and wind engineering.
Wind Engineering 1983, Part B contains the proceedings of the Sixth International Conference on Wind Engineering, held in Gold Coast, Australia, on March 21-25, 1983 and in Auckland, New Zealand, on April 6-7, 1983 under the auspices of the International Association for Wind Engineering. The conference provided a forum for discussing topics related to wind energy and wind engineering, from bluff body aerodynamics and mathematical models of wind loading to full-scale measurement and modeling of buildings and other structures. Comprised of 37 chapters, this volume begins with a description of two probabilistic wind load models used in assessing the safety indices of structural members in cyclonic and non-cyclonic regions of Australia. The discussion then turns to the effect of uncertainties in wind load estimation on reliability assessments; wind tunnel test program and risk analysis for structural design; and application of wind engineering to low-rise housing. Subsequent sections focus on wind loading of chimneys and cooling towers, bridges, cables and transmission lines, and offshore platforms. The fundamentals of bluff body aerodynamics are also examined, along with mathematical models of wind loading. This monograph will be of interest to students, practitioners, and researchers concerned with wind energy and wind engineering.
This book gathers the proceedings of the Seventh Symposium on Hybrid RANS-LES Methods, which was held on September 17-19 in Berlin, Germany. The different chapters, written by leading experts, reports on the most recent developments in flow physics modelling, and gives a special emphasis to industrially relevant applications of hybrid RANS-LES methods and other turbulence-resolving modelling approaches. The book addresses academic researchers, graduate students, industrial engineers, as well as industrial R&D managers and consultants dealing with turbulence modelling, simulation and measurement, and with multidisciplinary applications of computational fluid dynamics (CFD), such as flow control, aero-acoustics, aero-elasticity and CFD-based multidisciplinary optimization. It discusses in particular advanced hybrid RANS-LES methods. Further topics include wall-modelled Large Eddy Simulation (WMLES) methods, embedded LES, Lattice-Bolzman methods and turbulence-resolving applications and a comparison of the LES methods with both hybrid RANS-LES and URANS methods. Overall, the book provides readers with a snapshot on the state-of-the-art in CFD and turbulence modelling, with a special focus to hybrid RANS-LES methods and their industrial applications.
Proceedings of the NATO Advanced Study Institute, Erice, Sicily, Italy, June 1-9, 1986