Structural Engineering for High-Wind Areas
( 24 Modules )

Module #1
Introduction to High-Wind Engineering
Overview of high-wind events, importance of wind-resistant design, and course objectives

Module #2
Wind Loads and Effects
Wind loading principles, wind speed and direction, and effects on structures

Module #3
Wind Load Calculation Methods
ASCE 7 and international wind load calculation methods, including gust factor and speed pressure

Module #4
Wind Tunnel Testing
Principles and applications of wind tunnel testing for high-wind engineering

Module #5
Structural Analysis for Wind Loads
Static and dynamic analysis methods for wind loading, including FEM and frame analysis

Module #6
Wind-Resistant Design of Buildings
Design considerations for building envelopes, roofs, and walls subject to wind loads

Module #7
Wind-Resistant Design of Bridges
Wind-resistant design principles for bridges, including aerodynamic stability and deck design

Module #8
Wind-Resistant Design of Towers and Masts
Design considerations for wind-resistant towers and masts, including guyed and self-supported structures

Module #9
Material Selection for High-Wind Applications
Material properties and selection for high-wind applications, including steel, concrete, and composites

Module #10
Connection Design for Wind-Resistant Structures
Design of connections for wind-resistant structures, including bolts, welds, and anchors

Module #11
Structural Damping and Vibration
Structural damping and vibration principles, including tuned mass dampers and wind-induced vibration

Module #12
Aerodynamic Shape Optimization
Aerodynamic shape optimization techniques for wind-resistant design, including CFD and wind tunnel testing

Module #13
Wind-Induced Fatigue and Durability
Wind-induced fatigue and durability assessment, including fatigue analysis and inspection

Module #14
Code Requirements and Regulations
Overview of international and national codes and regulations for wind-resistant design

Module #15
Risk Assessment and Reliability
Risk assessment and reliability methods for wind-resistant structures, including probabilistic analysis

Module #16
Hurricane and Tornado Wind Engineering
Specialized wind engineering considerations for hurricane and tornado-prone regions

Module #17
Seismic-Wind Interaction
Seismic-wind interaction effects on structures and design considerations

Module #18
Case Studies in High-Wind Engineering
Real-world examples and case studies of wind-resistant design and analysis

Module #19
Wind Engineering for Existing Structures
Assessment and retrofitting of existing structures for wind resistance

Module #20
Wind-Resistant Design for Coastal and Near-Coastal Regions
Specialized wind-resistant design considerations for coastal and near-coastal regions

Module #21
Wind-Resistant Design for High-Rise Buildings
Specialized wind-resistant design considerations for high-rise buildings

Module #22
Computational Fluid Dynamics (CFD) for Wind Engineering
Applications of CFD in wind engineering, including simulation and validation

Module #23
Advanced Topics in Wind Engineering
Emerging trends and research in wind engineering, including wind-borne debris and wind-structure-soil interaction

Module #24
Course Wrap-Up & Conclusion
Planning next steps in Structural Engineering for High-Wind Areas career

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Structural Engineering for High-Wind Areas ( 24 Modules )

Structural Engineering for High-Wind Areas
( 24 Modules )