Strategies For Mitigating Wind Induced Motion In Tall Buildings Through Aerodynamic And Damping Modifications PDF Download
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| Author | : Nnabuihe Nnamani |
| Publisher | : |
| Total Pages | : 55 |
| Release | : 2012 |
| Genre | : |
| ISBN | : |
Download Strategies for Mitigating Wind-induced Motion in Tall Buildings Through Aerodynamic and Damping Modifications Book in PDF, ePub and Kindle
The advent of modern structural systems, spurred by advances in construction methodology and high strength materials, has driven the height of modern skyscrapers beyond what was once deemed possible. Although science and technology has been able to increase the strength of building materials such as steel and concrete, their material stiffness has remained virtually unchanged. The end result is a wave of taller, slender and more flexible skyscrapers that are very susceptible to wind-induced excitations. Ever mindful of the fact that human comfort levels are affected by perceived structural responses, engineers must employ various strategies to satisfy serviceability constraints. This thesis presents an overview, in addition to successful applications, of the various aerodynamic and damping modifications that are used to control wind-induced motion in tall buildings. Finally, a modified gyrostabilizer, akin to those used in luxury yachts, is proposed as a possible active control mechanism. The feasibility of this device was studied using simple statics and rigid body dynamics.
| Author | : Kenny C. S. Kwok |
| Publisher | : |
| Total Pages | : 66 |
| Release | : 2015 |
| Genre | : Architecture |
| ISBN | : 9780784413852 |
Download Wind-induced Motion of Tall Buildings Book in PDF, ePub and Kindle
This state-of-the-art report describes various facets of the human response to wind-induced motion in tall buildings and identifies design strategies to mitigate the effects of such motion on building occupants.
| Author | : Jooeun Lee (S.M.) |
| Publisher | : |
| Total Pages | : 140 |
| Release | : 2011 |
| Genre | : |
| ISBN | : |
Download The Role of the Aerodynamic Modifications of the Shapes of Tall Buildings Book in PDF, ePub and Kindle
With the advances in technology, recent tall building design has undergone a shift to the free-style geometric forms in the exuberant and liberal atmosphere. As a height of the building increases, it is more susceptible to vibration caused by wind because of its asymmetric distribution of mass and stiffness, increased flexibility and insufficient inherent damping. This wind-induced motion, in particular crosswind response, endangers the dynamic response of tall structures, the performance of cladding and window, and the habitability of occupants. Therefore, much research on mitigating wind induced excitations of tall buildings has been carried out. This thesis focuses on the effect of shape modification on the wind flow pattern around tall buildings. An appropriate choice of this architectural modification can significantly reduce aeroelastic instabilities. Four aerodynamic modifications to reduce wind-induced responses of a tall building, such as a basic square model, a corner recession model, a 3- step setback model, and a 180 degree helical model, are evaluated through commercial CFD (Computational Fluid Dynamics) software, STAR-CD and compared with results from wind tunnel tests. Based on this comparison, the optimal model to effectively mitigate adverse wind excitations is recommended.
| Author | : N. Isyumov |
| Publisher | : |
| Total Pages | : 124 |
| Release | : 1986 |
| Genre | : Science |
| ISBN | : |
Download Building Motion in Wind Book in PDF, ePub and Kindle
Proceedings of a session at the ASCE Convention, held in Seattle, Washington, April 8, 1986. Sponsored by the Aerodynamics Committee of the Aerospace Division and the Wind Effects Committee of the Structural Division of ASCE. This collection contains six papers examining the motions of buildings produced by wind. The trend towards higher structural efficiency and lower cost has resulted in a generation of lighter and more flexible buildings with a lower inherent capacity for energy dissipation or damping. Unfortunately, this trend has produced structures that are more sensitive to the dynamic action of wind. The emphasis in the design of modern tall buildings has therefore shifted to requirements that control building movements or drift and that limit wind-induced accelerations. Two papers deal with the action of wind on two important tall buildings where designers relied on wind tunnel model tests for information on wind-induced loads and building motions. The design of the Columbia Seafirst Center took advantage of economies possible as a result of wind tunnel studies., and viscoelastic dampers were added to limit the building's motion and wind-induced acceleration. The recorded response of the Allied Bank Plaza during Hurricane Alicia is an extremely important contribution to the understanding of the action of wind on tall buildings; this is the only existing record of the response of a major building under the action of design winds. Another paper discusses a survey of structural damping found in tall buildings, presenting typical damping values for steel and concrete buildings and discussing the variability of such estimates and its implication on design. The final papers consider damping systems that can be added to tall buildings in order to limit their motion. The use of tuned mass dampers and viscoelastic damping units is discussed and examples are presented to show their practical effectiveness. The viscoelastic dampers used in the Columbia Seafirst Center are described.
| Author | : Khalid Mohammad Abdelaziz Mohammad Abdelaziz |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2022 |
| Genre | : |
| ISBN | : |
Download Intelligent Control Systems for Wind-induced Vibration Mitigation in Tall Buildings Book in PDF, ePub and Kindle
Wind-induced vibration (WIV) is a major contributor to the high investment cost of tall buildings. WIV can render a building unserviceable and strongly affect occupant comfort. It can also damage internal building components and may even cause catastrophic failure in severe cases. According to most design codes, tall buildings must be designed to endure severe wind events with return periods as long as 50 years, which requires additional construction material and design effort. Tuned mass/liquid dampers (TMDs/TLDs) have been designed and employed to reduce WIV effects. They rely on using energy dissipation mechanisms, such as oil flow through constrictions, to absorb WIV energy from the host structure. TMDs and TLDs are narrowband devices which are not adaptable to different wind characteristics. They also tend to consume space in higher floors where real estate is usually more expensive. To inhibit even the initial formation of WIV, aerodynamic modifications (AMs) have been used both independently and in conjunction with TMDs and TLDs. By changing the external shape of the building, the wind system attacking the building can be altered so the building becomes less susceptible to WIV. Major AMs change the overall shape of the building by introducing tapers, setbacks and helix features. Alternatively, minor AMs introduce corner or edge changes such as rounding, fillets or cut-offs. The literature review presented herein concludes that AMs have the potential to reduce WIV accelerations by 30-60%. However, AMs that are effective at reducing WIV accelerations at certain wind conditions may inadvertently increase those accelerations depending on the wind characteristics and the surrounding environment. This work focuses on designing and optimally controlling active aerodynamic modification systems that can change their orientation to guarantee consistent WIV reduction across different wind conditions and environmental changes. A central aim to the designs and techniques presented in this work is to generate versatile controllers that can work across different building and AM designs, wind characteristics and surrounding environments while minimizing user input and deployment effort. To achieve these goals various machine learning models and techniques are used because they generally support a black box design approach. An AM design using four plates installed on the corners of the building is given special attention in this work. The plates can rotate and hold position around their own axes of symmetry. This design is emphasized for its simplicity, ease of implementation and the minimal number of control parameters. However, the techniques developed herein can also be used for different AM designs. To simulate the WIV response at different wind conditions and plate orientations, this work uses (1) a fluid-solid-interaction simulation model developed specifically to enable plate rotation and building motion in the simulation domain, (2) wind tunnel experiments of a 1:400 scaled robotic aeroelastic building model and (3) large-scale wind tunnel experiments of a 1:73 scaled robotic aeroelastic building model. These models are controlled using (1) a wind condition averaging control approach using a developed iterative optimum training technique proven herein to use a substantially reduced number of experiments to obtain optimal training and (2) The combination of a distributed sensor network and recurrent neural networks to fully define the instantaneous system state using time series inputs. The final version of the control scheme developed in this work uses a genetic reinforcement learning method that enhances the exploration capacity of reinforcement learning and makes it more likely to find global optimum solutions. The results indicate that utilizing the developed designs and control techniques can reduce WIV response by 40-90% depending on the wind condition. The developed controller was able to minimize WIV in randomly varying wind conditions even for conditions it did not specifically encounter during training.
| Author | : Francisco Beltran-Carbajal |
| Publisher | : BoD – Books on Demand |
| Total Pages | : 132 |
| Release | : 2018-04-18 |
| Genre | : Technology & Engineering |
| ISBN | : 178923056X |
Download Vibration Analysis and Control in Mechanical Structures and Wind Energy Conversion Systems Book in PDF, ePub and Kindle
This book focuses on recent and innovative methods on vibration analysis, system identification, and diverse control design methods for both wind energy conversion systems and vibrating systems. Advances on both theoretical and experimental studies about analysis and control of oscillating systems in several engineering disciplines are discussed. Various control devices are synthesized and implemented for vibration attenuation tasks. The book is addressed to researchers and practitioners on the subject, as well as undergraduate and postgraduate students and other experts and newcomers seeking more information about the state of the art, new challenges, innovative solutions, and new trends and developments in these areas. The six chapters of the book cover a wide range of interesting issues related to modeling, vibration control, parameter identification, active vehicle suspensions, tuned vibration absorbers, electronically controlled wind energy conversion systems, and other relevant case studies.
| Author | : Saad Mikou |
| Publisher | : |
| Total Pages | : 65 |
| Release | : 2011 |
| Genre | : |
| ISBN | : |
Download Mitigation of Wind Induced Movement of Buildings Using the Modified Friction Device Book in PDF, ePub and Kindle
Building higher skyscrapers increases the concern of wind induced motion. Indeed, in order to ensure serviceability and safety standards, it is the engineers' responsibility to investigate the response of high-rise buildings to wind excitation. Tuned mass dampers are usually used to limit the response of the buildings to wind. However, these devices are generally tuned for a particular bandwidth of frequencies. Therefore, in order to improve the effectiveness of these devices, control schemes must be implemented. For this thesis, the design of a modified friction device (MFD) has been studied. Requiring only a small amount of energy, the MFD is a new kind of semi-active damper that provides stability, accurate control and effectiveness. Using a MATLAB program, it was possible to model a primary structure hit by a certain wind excitation. The modified friction device was designed to counterbalance the effects of wind and decrease displacements and accelerations. It was placed on the top of the building where the displacements are generally the highest. The parameters of the MFD were examined, and many simulations were run in order to optimize the action of the device on the mitigation of wind excitation. The results demonstrate that the MFD effectively mitigates wind induced motion in buildings. Therefore, this thesis corroborates the benefits of implementing modified friction devices in civil structures.
| Author | : Mehmet Halis Günel |
| Publisher | : Routledge |
| Total Pages | : 214 |
| Release | : 2014-06-27 |
| Genre | : Technology & Engineering |
| ISBN | : 1317690729 |
Download Tall Buildings Book in PDF, ePub and Kindle
The structural challenges of building 800 metres into the sky are substantial, and include several factors which do not affect low-rise construction. This book focusses on these areas specifically to provide the architectural and structural knowledge which must be taken into account in order to design tall buildings successfully. In presenting examples of steel, reinforced concrete, and composite structural systems for such buildings, it is shown that wind load has a very important effect on the architectural and structural design. The aerodynamic approach to tall buildings is considered in this context, as is earthquake induced lateral loading. Case studies of some of the world’s most iconic buildings, illustrated with full colour photographs, structural plans and axonometrics, will bring to life the design challenges which they presented to architects and structural engineers. The Empire State Building, the Burj Khalifa, Taipei 101 and the HSB Turning Torso are just a few examples of the buildings whose real-life specifications are used to explain and illustrate core design principles, and their subsequent effect on the finished structure.
| Author | : Raymond Hoi-Kit Kwok |
| Publisher | : |
| Total Pages | : 122 |
| Release | : 2007 |
| Genre | : |
| ISBN | : |
Download Comparison of Three Widely-used Aerodynamic Modifications that Minimize the Impact of Wind Loads on Tall Buildings Book in PDF, ePub and Kindle
For tall buildings, motion caused by wind is usually the most damaging to the lateral support system. As a result, engineers have invented many different methods to limit the motion of the buildings, for example dampers, bracings and outriggers etc. Aerodynamic modification, which is a passive approach, can also be used to reduce the impacts of wind loads. In this thesis, three widely-used aerodynamics modifications are discussed: 1) Shaping the corners of buildings, 2) Addition of openings through buildings and 3) Optimizing cross-sectional shapes of buildings. Comparison based on five criteria related to economy, sustainability, appearance, ease of construction and effectiveness in suppressing response of buildings caused by wind, is performed. With the help of a comparison matrix, it is shown that for a building located in downtown Boston, the method based on optimizing cross-sectional shapes is the best option.
| Author | : Emil Simiu |
| Publisher | : John Wiley & Sons |
| Total Pages | : 533 |
| Release | : 2019-03-11 |
| Genre | : Technology & Engineering |
| ISBN | : 1119375886 |
Download Wind Effects on Structures Book in PDF, ePub and Kindle
Provides structural engineers with the knowledge and practical tools needed to perform structural designs for wind that incorporate major technological, conceptual, analytical and computational advances achieved in the last two decades. With clear explanations and documentation of the concepts, methods, algorithms, and software available for accounting for wind loads in structural design, it also describes the wind engineer's contributions in sufficient detail that they can be effectively scrutinized by the structural engineer in charge of the design. Wind Effects on Structures: Modern Structural Design for Wind, 4th Edition is organized in four sections. The first covers atmospheric flows, extreme wind speeds, and bluff body aerodynamics. The second examines the design of buildings, and includes chapters on aerodynamic loads; dynamic and effective wind-induced loads; wind effects with specified MRIs; low-rise buildings; tall buildings; and more. The third part is devoted to aeroelastic effects, and covers both fundamentals and applications. The last part considers other structures and special topics such as trussed frameworks; offshore structures; and tornado effects. Offering readers the knowledge and practical tools needed to develop structural designs for wind loadings, this book: Points out significant limitations in the design of buildings based on such techniques as the high-frequency force balance Discusses powerful algorithms, tools, and software needed for the effective design for wind, and provides numerous examples of application Discusses techniques applicable to structures other than buildings, including stacks and suspended-span bridges Features several appendices on Elements of Probability and Statistics; Peaks-over-Threshold Poisson-Process Procedure for Estimating Peaks; estimates of the WTC Towers’ Response to Wind and their shortcomings; and more Wind Effects on Structures: Modern Structural Design for Wind, 4th Edition is an excellent text for structural engineers, wind engineers, and structural engineering students and faculty.
