Design Wind Loading on a Steel Frame Warehouse

In the two parts of the course, I will explain the full and detailed process of calculating the design wind pressures for structural members and cladding surfaces of the walls and roof of a steel-framed warehouse.

The assessment of wind loads for the design of structures is based on Australia/New Zealand standard AS1170.2 however the general concept remains the same for every other code.

AS1170 has a very detailed and comprehensive process for calculating wind pressures.

There are so many parameters and requirements in the code which often leaves people with some confusion and question marks on how to approach these. so I have decided to prepare this course to provide a clear roadmap for anyone who wants to learn the process step by step.

This course, “Design Wind Pressures on a Steel Structure Warehouse” includes two parts:

Please make sure to watch both parts to learn the whole design process.

In the first part of this course, you will learn

about the basics and general concepts of wind loading on structures within our practical and real-life example and also I will explain about how to calculate the wind parameters and where in the code I am getting these values from. These parameters include

- Regional wind speed for different areas of the country,

-Terrain/height multiplier and explaining the definition of different train categories,

- Defining Importance level of the buildings and return period of the wind considering the occupancy and use of the building

- Wind direction multiplier,

- Hill-shape multiplier,

- Shielding multiplier

- Site wind speed

- Design wind speed

- Aerodynamic shape factor for different surfaces or parts of the building.

Calculating aerodynamic shape factor requires calculating the external and internal pressure coefficients, area reduction factor, local pressure factor, action combination factor, permeable cladding factor, and dynamic response factor.

These factors have to be determined for windward walls, Leeward walls, sidewalls, roof structure, and cladding surfaces of the walls and roof with respect to wind on 4 major axes of the structure.

- Design wind pressure on structural elements of the walls and roof for different portal frames of this warehouse for the 4 major axes of the structure.

- Frictional Drag forces on Roof and Side Walls.

- How wind pressure changes along the roof and long walls.

In part 2, I will explain:

- Design wind pressure on doors and windows and how the size of the opening can impact the net wind pressure on wall and roof surfaces.

- Design wind pressure on wall claddings and supporting structures and how to calculate localized wind pressures on walls claddings

- Design wind pressure on roof claddings and supporting structures and how to calculate localized wind pressures on roof claddings.

- Evaluating the impact of the big openings on internal and net wind pressure on cladding surfaces of the roof and walls.

- How wind pressure changes along the roof and long walls.

- Summary of the net wind pressure on different areas of the roof.

By the end of these two courses, you will learn about the fundamental and full and detailed process of calculating the wind pressure for structural members and claddings surfaces of the walls and roof of a steel-framed warehouse.

My goal is to add value to my students by conveying my professional/practical experience as well as explaining the theoretical concept behind the design, so please do not hesitate to ask if you ask any questions through the message box here or any other social media links which are provided in our page.

Also, you will have lifetime access to the course content which means you will receive all future updates and additions free of charge.

What's inside

Syllabus

Introduction

Part 1 - Introduction

Part 2 - Design Wind Pressures on Big Roller Door

Part 3 - Design Wind Pressures on a Small Door

Part 4 - Design Wind Pressures on a Window

Part 5 - Design Wind Pressures for Wall Cladding & Supporting Structure (Design Case SA2)

Part 6 - Design Wind Pressures for Wall Claddings & Supporting Structure (Design Case SA1)

Part 7 - Design Wind Pressures for Wall Claddings & Supporting Structure (Other Design Cases)

Part 8 - Design Wind Pressures for Roof Cladding & Supporting Structure(Design Case RC1)

Part 9 - Design Wind Pressures for Roof Cladding & Supporting Structure(Design Case RA2)

Part 10 - Design Wind Pressures for Roof Cladding & Supporting Structure(Design Case RA1)

Part 11 - Design Wind Pressures for Roof Cladding & Supporting Structure(Other Design Cases)

Part 12 - Summary of the Design Wind Pressures for Roof Cladding & Supporting Structure

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Focuses on steel-framed warehouses, which is a common type of structure in industrial and commercial construction

Explains the process of calculating wind pressures step by step, which is helpful for practical application

Covers design wind pressure on doors and windows, which is important for ensuring structural integrity

Uses the Australia/New Zealand standard AS1170.2, so learners should be aware of this regional focus

Requires learners to watch both parts of the course to learn the whole design process, which may be inconvenient

Details the calculation of aerodynamic shape factors, which is a core skill for structural engineers

Reviews summary

Design wind loading on steel structures - part 2

According to learners, this course provides a practical step-by-step approach to applying the AS1170.2 standard for wind load calculations on steel frame structures, specifically focusing on cladding and opening design. Students appreciate the use of a real-life warehouse example to illustrate the concepts. While the course is seen as a valuable resource for engineers, some learners note that it assumes prior knowledge, making it less suitable for absolute beginners or those unfamiliar with the standard, suggesting it functions best as a continuation of Part 1.

Relevant content for professional practice.

"This course is highly relevant for structural engineers designing steel buildings."

"It provided the practical skills I needed for wind load design."

"A great resource to enhance professional skills."

"Directly applicable to engineering challenges."

Breaks down complex code requirements.

"The instructor explained the confusing parts of AS1170.2 very well."

"Helped clarify where certain values in the code come from."

"Making sense of pressure coefficients and factors was easier after this."

"The roadmap provided through the code was very helpful."

Detailed coverage of Part 2 specific topics.

"The sections on wind pressure for cladding and supporting structure were very thorough."

"Understanding the design pressures for doors and windows was particularly valuable."

"Learning how openings impact internal pressure was a key takeaway."

"Detailed focus on localised pressures on cladding was excellent."

Applying the standard to a real example.

"Using the warehouse example made applying the AS1170.2 standard much clearer."

"This step-by-step method is incredibly useful for my daily work."

"I can directly use these calculations for design projects."

"The practical examples helped solidify my understanding."

Not for beginners; build on Part 1.

"Definitely need to have taken Part 1 or have solid basics before this."

"Assumes a level of familiarity with wind loading principles already."

"This course functions as a direct continuation, not a standalone introduction."

"Less beneficial if you haven't worked with AS1170.2 before."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2 with these activities:

Review AS1170.2 Standard

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Familiarize yourself with the AS1170.2 standard to better understand the code references and calculations used in the course.

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Obtain a copy of the AS1170.2 standard.
Review the sections related to wind loading calculations.
Take notes on key definitions and formulas.

Calculate Wind Pressures on Simplified Structures

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Practice calculating wind pressures on simplified structures to reinforce your understanding of the formulas and parameters.

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Select a few simple building shapes (e.g., rectangular box).
Assume various wind speeds and terrain categories.
Calculate the design wind pressures for different surfaces.
Compare your results with online calculators or examples.

Wind Effects on Structures: Modern Structural Design for Wind

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Read this book to gain a deeper understanding of the theory behind wind loading and its effects on structures.

View Putting Knowledge to Work on Amazon

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Read the chapters related to wind loading calculations and structural response.
Take notes on key concepts and formulas.
Relate the concepts to the AS1170.2 standard.

Three other activities

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Show all six activities

Structural Steelwork: Design to Limit State Theory

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Consult this book to understand how wind loads are integrated into the overall structural design of steel frame warehouses.

View Putting Knowledge to Work on Amazon

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Review the chapters related to steel design and wind loading.
Pay attention to the design examples and case studies.
Relate the concepts to the AS1170.2 standard and the course content.

Create a Wind Load Calculation Spreadsheet

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Develop a spreadsheet to automate wind load calculations, which will help you apply the concepts learned in the course more efficiently.

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Identify the key parameters and formulas from AS1170.2.
Create a spreadsheet with input cells for each parameter.
Implement the formulas to calculate design wind pressures.
Test the spreadsheet with different scenarios.

Design Wind Loading on a Real Warehouse

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Apply the knowledge gained in the course to design the wind loading for a real-world warehouse structure.

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Obtain the architectural drawings and specifications for a warehouse.
Determine the relevant wind parameters based on the location and site conditions.
Calculate the design wind pressures for different surfaces and structural elements.
Document your calculations and assumptions in a report.

Career center

Learners who complete Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2 will develop knowledge and skills that may be useful to these careers:

Structural Engineer

A structural engineer analyzes, designs, and oversees the construction of structures, ensuring their safety and stability. This includes calculating wind loads on buildings, especially critical for structures like steel frame warehouses. The course, 'Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2,' directly addresses this need by detailing the process of calculating design wind pressures for structural members and cladding surfaces, using the Australia/New Zealand standard AS1170.2 as a guide. A structural engineer dealing with warehouse design benefits from understanding how factors like regional wind speed, terrain, building importance, and aerodynamic shape impact design wind pressure. Moreover, the course explains how wind pressure changes along the roof and long walls. Thus, the course may build a solid foundation in wind load calculations, enhancing precision and safety in structural designs.

See salaries and explore the career path for Structural Engineer

Code Enforcement Officer

Code enforcement officers ensure that buildings and structures comply with local and national building codes. A solid understanding of wind loading requirements is essential for verifying compliance. The course, 'Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2,' offers a detailed walkthrough of calculating design wind pressures. This course may help a code enforcement officer interpret and enforce building codes related to wind resistance, ensuring structures are safe and meet regulatory standards.

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Civil Engineer

Civil engineers plan, design, and supervise the construction and maintenance of infrastructure projects, including buildings and transportation systems. Understanding wind loads is crucial in ensuring structural integrity and safety. The course, 'Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2,' offers a detailed examination of calculating wind pressures on a steel-framed warehouse, aligning perfectly with the responsibilities of a civil engineer. The course may be useful in understanding how to assess the impact of factors such as terrain, building shape, and wind direction on structural design, as well as how to handle design wind pressure on doors, windows, wall claddings, and roof claddings. Civil engineers can leverage this knowledge to design more resilient and safe infrastructure, taking into account the nuances of wind loading. Someone who wants to design warehouses may find this course very helpful.

See salaries and explore the career path for Civil Engineer

Construction Manager

Construction managers oversee construction projects from start to finish, ensuring they are completed on time and within budget. A critical aspect of this role involves understanding and implementing structural designs that account for environmental factors like wind loads. The course, 'Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2,' provides essential knowledge on calculating design wind pressures for steel-framed warehouses. Knowledge of the different modules in the course, such as wind pressures on doors and windows, is vital. As a construction manager, the course may improve your work, ensuring that designs are correctly implemented and structures are built to withstand wind forces, thereby reducing risks and ensuring the longevity of the building.

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Building Inspector

Building inspectors examine structures to ensure they comply with building codes and regulations, focusing on safety and structural integrity. Understanding how wind loads affect buildings is a key component of ensuring compliance and preventing potential hazards. The course, 'Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2,' provides a detailed step-by-step guide to calculating design wind pressures, specifically for steel-framed warehouses. A building inspector would find the information on wind parameters and aerodynamic shape factors beneficial for in-depth evaluations, and would find the discussion on the factors that determine wind load helpful. The course may improve a building inspector's work and make it easier to recognize potential issues related to wind resistance.

See salaries and explore the career path for Building Inspector

Architect

Architects design buildings and spaces, balancing aesthetics with functionality and safety. Wind loading considerations are integral to ensuring the structural integrity of their designs, especially for large structures like warehouses. The course, 'Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2,' provides a detailed understanding of calculating design wind pressures on steel-framed warehouses, which is valuable for any architect involved in industrial or commercial projects. The course explains how wind pressure changes along the roof and long walls. The course may aid an architect in better integrating structural needs with design aesthetics, creating safer and more resilient buildings that meet both functional and regulatory requirements.

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Project Engineer

Project engineers manage engineering projects, coordinating with various teams to ensure projects are completed efficiently and effectively. For construction projects involving steel frame warehouses, understanding wind loading is crucial for risk mitigation and project success. The course, 'Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2,' provides comprehensive insights into calculating design wind pressures. Understanding wind loads can also inform decisions regarding material selection and structural reinforcement. The course may allow project engineers to better understand the structural aspects of their projects, leading to more informed decision-making and improved project outcomes.

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Estimator

Estimators analyze project plans and other documents to estimate the quantity of materials, labor, and equipment required for a project. Detailed knowledge of wind loading requirements and their impact on structural design is important for accurate cost assessments. The course, 'Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2,' teaches how to calculate design wind pressures on various parts of a steel-framed warehouse. The course may help an estimator better incorporate wind load considerations into their cost projections, resulting in more accurate and competitive bids.

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Facilities Manager

Facilities managers are responsible for the upkeep and maintenance of buildings, ensuring they are safe, functional, and compliant with regulations. Understanding how environmental factors like wind affect structural integrity is a key part of preventing damage and ensuring occupant safety. The course, 'Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2,' focuses on calculating design wind pressures for steel-framed warehouses. From this course, one can learn about internal and net wind pressure on cladding surfaces. This course may prove useful for facilities managers overseeing industrial or commercial properties, as it helps them to better understand and address potential wind-related issues.

See salaries and explore the career path for Facilities Manager

CAD Technician

CAD technicians use computer-aided design software to create technical drawings and plans for engineering and construction projects. A strong understanding of structural design principles, including wind loading considerations, ensures the accuracy and reliability of these drawings. The course, 'Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2,' may help CAD technicians better interpret design specifications related to wind pressures on steel-framed warehouses, ensuring their drawings accurately reflect these requirements. The course may contribute to producing more precise and compliant technical drawings.

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Sustainability Consultant

Sustainability consultants advise organizations on how to reduce their environmental impact and improve their sustainability performance. Designing structures that can withstand wind loads and other natural forces is crucial for long-term sustainability. The course, 'Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2,' may help sustainability consultants working on building projects to better understand how wind loading affects the lifespan and resilience of steel-framed warehouses. Topics include terrain categories, which have an impact on sustainability. The course may enable consultants to promote more sustainable and durable building designs.

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Claims Adjuster

A claims adjuster investigates insurance claims and determines the extent of the insurer’s liability. Understanding the impact of wind damage on structures is essential for accurately assessing claims related to property damage. The course, 'Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2,' provides a solid background in how wind affects steel-framed warehouses. The detail about wind pressure on doors and windows may allow a claims adjuster to evaluate damage claims more effectively and fairly, ensuring appropriate settlements are made based on sound engineering principles.

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Insurance Underwriter

An insurance underwriter evaluates risk and determines the terms and conditions of insurance policies. Assessing the potential for wind damage to structures is crucial for setting appropriate premiums and managing risk exposure. The course, 'Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2,' provides a detailed view of wind loading on steel-framed warehouses. The course may allow an insurance underwriter to make more informed decisions about risk assessment and policy pricing, leading to better risk management.

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Real Estate Developer

Real estate developers oversee the planning, construction, and management of real estate projects. Understanding the structural requirements and potential risks associated with environmental factors like wind is essential. The course, 'Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2,' may assist real estate developers in understanding the implications of wind loading on steel-framed warehouses. Understanding of wind loads will affect what materials are chosen. The course may provide valuable insights for making informed decisions, ensuring the longevity and safety of their investments.

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Urban Planner

Urban planners develop plans and programs for land use, transportation, and community development. Understanding the impact of environmental factors like wind on buildings is essential for creating sustainable and resilient communities. The course, 'Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2,' may provide urban planners with valuable insights into how wind affects steel-framed warehouses, which can inform decisions about building placement and design. The course may help urban planners promote building designs that account for wind loads, leading to safer and more sustainable urban environments.

See salaries and explore the career path for Urban Planner

Design Wind Loading on a Steel Frame Warehouse - Part 2 of 2

What's inside

Syllabus

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Design wind loading on steel structures - part 2

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