Prediction of Wind Loads on Tall Buildings
Prediction of Wind Loads on Tall Buildings

Author: Bernard Kim

Publisher:

Published: 2013

Total Pages: 220

ISBN-13:

DOWNLOAD EBOOK

The Western University Aerodynamic Database (WAD) has been developed as an alternative means for structural engineers to estimate the preliminary design wind loads on tall buildings. The database consists of aerodynamic loads obtained from either the force-balance or pressure model tests on 56 tall buildings in their simulated actual surroundings carried out in the Boundary Layer Wind Tunnel Laboratory at Western University. The data for a given building include the statistics of the normalized aerodynamic loads such as the means, root-mean squares, and power spectral density functions of the base bending moments in two orthogonal directions and base torque. To estimate the preliminary design wind loads on a target building, the fuzzy logic theory is employed to select the reference buildings from the database whose aerodynamic characteristics and upstream conditions are similar to those of the target building. A modified three-dimensional moment gust loading factor approach is proposed to estimate the wind-induced responses of the target building for all wind directions. The WAD-based procedure for estimating the wind-induced responses is validated by comparing the estimated responses with the corresponding responses obtained from the force-balance or pressure model tests for 36 tall buildings included in WAD. The comparison suggests that the WAD-based procedure can provide reasonably accurate estimates of base moments and accelerations of tall buildings, and is therefore considered adequate to be used in their preliminary design. Finally, the wind-induced responses predicted using the WAD-based procedures are also compared with those obtained from the wind load provisions in three major design codes, i.e. ASCE 7-10, NBCC 2010 and AS/NZS 1170.2: 2011, as well as the NatHaz Aerodynamic Load Database developed at University of Notre Dame. The results of the comparison study show that the WAD-based predictions of the wind loads are more accurate than the above-mentioned methods, indicating that the WAD-based procedure is a viable alternative to evaluating the preliminary design wind loads for tall buildings.

Wind Load Combinations on Tall Buildings by High-Frequency Force Balance and High-Frequency Pressure Integration
Wind Load Combinations on Tall Buildings by High-Frequency Force Balance and High-Frequency Pressure Integration

Author: Wasin Thangthong

Publisher: International Transaction Journal of Engineering, Management, & Applied Sciences & Technologies

Published: 2022-06-24

Total Pages: 14

ISBN-13:

DOWNLOAD EBOOK

This paper presents the analysis of the modal correlation coefficient and the weighting factor for predicting wind load combination in tall buildings under wind loads by high-frequency force balance (HFFB) and high-frequency pressure integration (HFPI) in a wind tunnel. The results of the analysis and comparisons in terms of non-dimensional aerodynamic coefficients and base moments will be presented in this study, to determine whether the pressure tap on the model surface for the HFPI test is sufficiently dense. Results show good agreement between HFFB and HFPI for overall wind loads, modal correlation coefficients and weighting factors. Wind load combinations are revisited in the framework of modeling the resultant base moments in each direction. According to the findings, the across-wind load combination by weighting factor is higher than the across-wind load combination by AIJ 2004 standard for the along-wind maximum case for buildings with an aspect ratio of 1.0. In other cases, the combination of wind loads as determined by AIJ 2004 is greater than the combination of wind loads determined by the weighting factor.

Wind Tunnel Testing of High-Rise Buildings
Wind Tunnel Testing of High-Rise Buildings

Author: Peter Irwin

Publisher: Routledge

Published: 2013-06-19

Total Pages: 144

ISBN-13: 1317999959

DOWNLOAD EBOOK

Since the 1960s, wind tunnel testing has become a commonly used tool in the design of tall buildings. It was pioneered, in large part, during the design of the World Trade Center Towers in New York. Since those early days of wind engineering, wind tunnel testing techniques have developed in sophistication, but these techniques are not widely understood by the designers using the results. As a direct result, the CTBUH Wind Engineering Working Group was formed to develop a concise guide for the non-specialist. The primary goal of this guide is to provide an overview of the wind tunnel testing process for design professionals. This knowledge allows readers to ask the correct questions of their wind engineering consultants throughout the design process. This is not an in-depth guide to the technical intricacies of wind tunnel testing, it focusses instead on the information the design community needs, including: a unique methodology for the presentation of wind tunnel results to allow straightforward comparison of results from different wind tunnel laboratories. advice on when a tall building is likely to be sufficiently sensitive to wind effects to benefit from a wind tunnel test background for assessing whether design codes and standards are applicable details of the types of tests that are commonly conducted descriptions of the fundamentals of wind climate and the interaction of wind and tall buildings This unique book is an essential guide for all designers of tall buildings, and anyone else interested in the process of wind tunnel testing for tall buildings.

Wind Effects on Buildings and Design of Wind-Sensitive Structures
Wind Effects on Buildings and Design of Wind-Sensitive Structures

Author: Ted Stathopoulos

Publisher: Springer Science & Business Media

Published: 2007-12-31

Total Pages: 234

ISBN-13: 3211730761

DOWNLOAD EBOOK

Written by seven internationally known experts, the articles in this book present the fundamentals and practical applications of contemporary wind engineering. It covers complex problems in wind-building interaction from the perspective of a structural designer, examining both experimental and computational approaches and their relative merits.

Wind Loading of Structures
Wind Loading of Structures

Author: John D. Holmes

Publisher: CRC Press

Published: 2001-06-14

Total Pages: 380

ISBN-13: 9780419246107

DOWNLOAD EBOOK

Bridging the gap between wind and structural engineering, Wind Loading of Structures is essential reading for practising civil, structural and mechanical engineers, and graduate students of wind engineering, presenting the principles of wind engineering and providing guidance on the successful design of structures for wind loading by gales, hurricanes, typhoons, thunderstorm downdrafts and tornados.

Wind Loading of Structures
Wind Loading of Structures

Author: John D. Holmes

Publisher: CRC Press

Published: 2018-10-09

Total Pages: 436

ISBN-13: 1482229226

DOWNLOAD EBOOK

A Definitive Up-to-Date Reference Wind forces from various types of extreme wind events continue to generate ever-increasing damage to buildings and other structures. Wind Loading of Structures, Third Edition fills an important gap as an information source for practicing and academic engineers alike, explaining the principles of wind loads on structures, including the relevant aspects of meteorology, bluff-body aerodynamics, probability and statistics, and structural dynamics. Written in Line with International Standards Among the unique features of the book are its broad view of the major international codes and standards, and information on the extreme wind climates of a large number of countries of the world. It is directed towards practicing (particularly structural) engineers, and academics and graduate students. The main changes from the earlier editions are: Discussion of potential global warming effects on extreme events More discussion of tornados and tornado-generated damage A rational approach to gust durations for structural design Expanded considerations of wind-induced fatigue damage Consideration of aeolian vibrations of suspended transmission lines Expansion of the sections on the cross-wind response of tall slender structures Simplified approaches to wind loads on "porous" industrial, mining, and oil/gas structures A more general discussion of formats in wind codes and standards Not dedicated to a specific code or standard, Wind Loading of Structures, Third Edition highlights the general format and procedures related to all major codes and standards, addresses structures of various types, and presents you with topics not typically covered in traditional texts such as internal pressures, fatigue damage by wind forces, and equivalent static wind load distributions.

ICSECM 2019
ICSECM 2019

Author: Ranjith Dissanayake

Publisher: Springer Nature

Published: 2020-09-18

Total Pages: 609

ISBN-13: 9811572224

DOWNLOAD EBOOK

This book highlights current research and developments in the area of Structural Engineering and Construction Management, which are important disciplines in Civil Engineering. It covers the following topics and categories of Structural Engineering. The main chapters/sections of the proceedings are Structural and Solid Mechanics, Construction Materials, Systems and Management, Loading Effects, Construction Safety, Architecture & Architectural Engineering, Coastal Engineering, Foundation engineering, Materials, Sustainability. The content of this book provides necessary knowledge for construction management practices, new tools and technologies on local and global levels in civil engineering which can mitigate the negative effects of built environment.​

Wind Tunnel Testing of High-Rise Buildings
Wind Tunnel Testing of High-Rise Buildings

Author: Peter Irwin

Publisher: Routledge

Published: 2013-06-19

Total Pages: 49

ISBN-13: 1317999967

DOWNLOAD EBOOK

Since the 1960s, wind tunnel testing has become a commonly used tool in the design of tall buildings. It was pioneered, in large part, during the design of the World Trade Center Towers in New York. Since those early days of wind engineering, wind tunnel testing techniques have developed in sophistication, but these techniques are not widely understood by the designers using the results. As a direct result, the CTBUH Wind Engineering Working Group was formed to develop a concise guide for the non-specialist. The primary goal of this guide is to provide an overview of the wind tunnel testing process for design professionals. This knowledge allows readers to ask the correct questions of their wind engineering consultants throughout the design process. This is not an in-depth guide to the technical intricacies of wind tunnel testing, it focusses instead on the information the design community needs, including: a unique methodology for the presentation of wind tunnel results to allow straightforward comparison of results from different wind tunnel laboratories. advice on when a tall building is likely to be sufficiently sensitive to wind effects to benefit from a wind tunnel test background for assessing whether design codes and standards are applicable details of the types of tests that are commonly conducted descriptions of the fundamentals of wind climate and the interaction of wind and tall buildings This unique book is an essential guide for all designers of tall buildings, and anyone else interested in the process of wind tunnel testing for tall buildings.

Tall Building Criteria and Loading
Tall Building Criteria and Loading

Author: Leslie E. Robertson

Publisher: ASCE Publications

Published: 1980-01-01

Total Pages: 916

ISBN-13: 9780784475751

DOWNLOAD EBOOK

Prepared by the Council on Tall Buildings and Urban Habitat of ASCE. This report examines the loads to which tall buildings are subjected so that engineers can precisely define the related structural elements that are necessary before translating a client's needs into a safe design. The report explores five different classes of loads?gravity loads and temperature affects, earthquake loads, wind loading and wind effects, fire, and accidental loads?as well as quality control and overall safety considerations.ØSteel buildings, which hold the record for height, tax the designer's ingenuity to provide adequate resistance to lateral loading. Concrete buildings are both more numerous and widely distributed, and for them vertical gravity loads may be the chief problem. Both steel and concrete buildings and lateral and vertical loads are addressed. Other subjects covered include: dead, live, cyclic snow, construction, and combined loads; code requirements; meteorological and environmental factors in design; firefighting provisions; and modeling. Contributions came from more than 800 contributors, all international and professional and heavily representing design and industrial firms. Condensed references follow each chapter, and a glossary is included.