Design and Performance of Tall Buildings for Wind
Will be published approx. on 30. December 2020
Book
Paperback/Softback
104 pages
978-0-7844-1565-8 (ISBN)
Description
Prepared by the Task Committee for the Design and Performance of Tall Buildings of the Structural Engineering Institute of ASCE
Design and Performance of Tall Buildings for Wind, MOP 143, provides a framework for the design of tall buildings for wind. This MOP presents detailed guidance on industry standard practices and design approaches that complement current literature, model codes, and standards. The performance of tall buildings in wind depends on a combination of wind climate, loading effects, structural system, and damping. MOP 143 provides recommendations on setting and achieving performance objectives, including
Selection of the wind loading mean recurrence interval (MRI) for serviceability;
Establishment of performance objectives and acceptance criteria;
Guidance on modeling building structural properties such as stiffness and damping; and
Modeling of uncertainties in wind climate, wind loading, and other effects.
MOP 143 will be a valuable resource for structural engineers, wind engineering consultants, architects, and other stakeholders with a vested interest in design of tall buildings.
Design and Performance of Tall Buildings for Wind, MOP 143, provides a framework for the design of tall buildings for wind. This MOP presents detailed guidance on industry standard practices and design approaches that complement current literature, model codes, and standards. The performance of tall buildings in wind depends on a combination of wind climate, loading effects, structural system, and damping. MOP 143 provides recommendations on setting and achieving performance objectives, including
Selection of the wind loading mean recurrence interval (MRI) for serviceability;
Establishment of performance objectives and acceptance criteria;
Guidance on modeling building structural properties such as stiffness and damping; and
Modeling of uncertainties in wind climate, wind loading, and other effects.
MOP 143 will be a valuable resource for structural engineers, wind engineering consultants, architects, and other stakeholders with a vested interest in design of tall buildings.
More details
Series
Language
English
Place of publication
Reston
United States
Target group
Professional and scholarly
Dimensions
Height: 229 mm
Width: 152 mm
Weight
150 gr
ISBN-13
978-0-7844-1565-8 (9780784415658)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Content
Preface
Acknowledgments
Chapter 1 Introduction
Purpose
Scope
Use of This Manual
Historic General Design Requirements
Stakeholders
Nature of Wind
Limitations
Chapter 2 Design Process
Overview
Establish Performance Objectives
Preliminary Structural Design
Wind Climate Assessment
Wind Induced Loads and Responses
Structural Modeling and Analysis
Comparison of Results to Acceptance Criteria
Wind Optimization Program
Final Design
Chapter 3 Performance Objectives
Introduction
3.2 Mean Recurrence Intervals
Stability
Strength Evaluation of the Lateral Force Resisting System
Building Displacements
Nonstructural Elements
Occupant Comfort
Project-Specific Performance
Chapter 4 Preliminary Structural Design
Purpose
Preliminary Wind Estimates
4.3 Estimation of Building Performance
Chapter 5 Wind Climate Assessment
Overview
Davenport Wind Loading Chain
Wind Climate - Storm Types and Data Sources
Influence of Terrain
Extreme Value Analysis
Design Criteria - Mean Recurrence Intervals
Chapter 6 Wind Tunnel Testing
Overview
Triggers for Testing
Types of Wind Tunnel Tests
Physical Testing versus Computational Estimates
Testing Procedure
Combining Climate and Wind Tunnel Data
Typical Outputs
Additional Considerations
Chapter 7 Damping
Overview
Inherent Damping
Aerodynamic Damping
Supplemental Damping
Supplemental Damping - Strength and Serviceability
Chapter 8 Structural Modeling and Analysis
Structural Modeling
8.2 Special Considerations for Reinforced Concrete Structures
Chapter 9 Wind Optimization Program
9.1 Introduction
9.2 Building Orientation
9.3 Building Geometry
9.4 Holistic Optimization
Chapter 10 Concluding Remarks
Concurrent Research and Future Directions
10.2 Closing Remarks
References
Index
Acknowledgments
Chapter 1 Introduction
Purpose
Scope
Use of This Manual
Historic General Design Requirements
Stakeholders
Nature of Wind
Limitations
Chapter 2 Design Process
Overview
Establish Performance Objectives
Preliminary Structural Design
Wind Climate Assessment
Wind Induced Loads and Responses
Structural Modeling and Analysis
Comparison of Results to Acceptance Criteria
Wind Optimization Program
Final Design
Chapter 3 Performance Objectives
Introduction
3.2 Mean Recurrence Intervals
Stability
Strength Evaluation of the Lateral Force Resisting System
Building Displacements
Nonstructural Elements
Occupant Comfort
Project-Specific Performance
Chapter 4 Preliminary Structural Design
Purpose
Preliminary Wind Estimates
4.3 Estimation of Building Performance
Chapter 5 Wind Climate Assessment
Overview
Davenport Wind Loading Chain
Wind Climate - Storm Types and Data Sources
Influence of Terrain
Extreme Value Analysis
Design Criteria - Mean Recurrence Intervals
Chapter 6 Wind Tunnel Testing
Overview
Triggers for Testing
Types of Wind Tunnel Tests
Physical Testing versus Computational Estimates
Testing Procedure
Combining Climate and Wind Tunnel Data
Typical Outputs
Additional Considerations
Chapter 7 Damping
Overview
Inherent Damping
Aerodynamic Damping
Supplemental Damping
Supplemental Damping - Strength and Serviceability
Chapter 8 Structural Modeling and Analysis
Structural Modeling
8.2 Special Considerations for Reinforced Concrete Structures
Chapter 9 Wind Optimization Program
9.1 Introduction
9.2 Building Orientation
9.3 Building Geometry
9.4 Holistic Optimization
Chapter 10 Concluding Remarks
Concurrent Research and Future Directions
10.2 Closing Remarks
References
Index