Planning & Execution plan in Heavy Lifting from Coursera

This course provides an in-depth exploration of critical aspects in engineering projects, focusing on feasibility studies, crane operations, equipment selection, rigging and lifting planning, advanced construction methods, and safety protocols. Starting with feasibility case studies, the modules guide learners through crane chart interpretation, machine selection, and the preparation of rigging charts and lifting schemes. Advanced construction techniques such as modularization, pre-fabrication, and push launching are also covered, along with safety requirements for crane operations. Emphasizing practical applications, these modules equip participants with essential skills in feasibility assessments, crane operations, rigging planning, innovative construction methods, and stringent safety practices, ensuring efficient and effective project execution in diverse engineering environments.

Target Learners:

• Undergraduate students of Civil Engineering

• Undergraduate students of Mechanical Engineering

• Post-Graduate Students in Civil and Mechanical Engineering.

• Practicing Engineers involved in heavy lifting in construction.

• Faculties in Civil and Mechanical Engineering.

• Professionals in construction industry

• Engineers and project managers involved in large projects

Prerequisites:

• Basics of Civil Engineering

• Basics of Mechanical Engineering

• Basics of Engineering Mechanics

• Understanding of Construction Techniques

What's inside

Syllabus

Preparation of Lift Plan - 1

This course module focuses on comprehensive aspects of feasibility studies, crane operations, and equipment selection crucial in engineering projects. It begins with detailed feasibility case studies, emphasizing practical application and drawing compilation for informed decision-making. The module then covers crane chart interpretation across multiple parts, enabling learners to understand and utilize crane capabilities effectively. It further explores the selection criteria for machines and lifting gear, ensuring optimal performance and safety in lifting operations. By the end of the module, participants will acquire essential skills in conducting feasibility assessments, interpreting crane charts, and selecting appropriate machinery and gear necessary for successful execution of engineering tasks.

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Covers modularization and pre-fabrication, which are innovative techniques that can lead to more efficient and sustainable construction practices

Explores safety protocols and operational considerations, which are essential for mitigating risks and ensuring a safe working environment during crane operations

Examines tandem lift case studies, which provide practical insights into managing complex lifting scenarios and ensuring safe and efficient execution

Requires learners to have a basic understanding of civil engineering, mechanical engineering, engineering mechanics, and construction techniques

Reviews summary

Essential skills for heavy lifting planning

According to learners, this course provides practical and relevant insights into the critical aspects of heavy lifting operations. Students particularly value the focus on rigging and lifting planning and the comprehensive safety coverage, which is essential for the industry. The use of case studies throughout the modules helps ground the concepts in real-world scenarios. While the course covers alternative methodologies, the core strength lies in the foundational and safety aspects. Some mention that a solid prerequisite understanding of engineering basics is necessary to fully benefit.

Requires foundational engineering basics.

"It's important to have a good grasp of civil and mechanical engineering basics before starting."

"The course moves quickly, assuming you have the stated prerequisites down solid."

"Not recommended if you lack the foundational engineering mechanics knowledge."

Breaks down the lift planning steps.

"Learning how to prepare rigging charts and lifting schemes step-by-step was very helpful."

"The guidance on creating a proper lift plan is a major takeaway."

"The tandem lift case studies were particularly insightful for complex scenarios."

Directly applicable to professional work.

"The content was highly relevant and applicable to my daily tasks on heavy lifting projects."

"I found the practical examples and case studies extremely useful for my job."

"This course gave me skills I could immediately apply in my professional work."

Emphasis on vital safety protocols.

"The module on safety in lifting operations was thorough and covered all critical aspects."

"I feel much more confident about safety requirements after taking this course."

"The review of load testing and inspection procedures was invaluable."

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 Planning & Execution plan in Heavy Lifting with these activities:

Review Basics of Engineering Mechanics

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Reinforce your understanding of statics and dynamics, which are fundamental to understanding lifting forces and load distribution in heavy lifting operations.

Browse courses on Engineering Mechanics

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Review key concepts like force vectors, equilibrium, and moments.
Solve practice problems related to static equilibrium and simple machines.
Focus on understanding free body diagrams and their application.

Review 'Rigging Engineering Basics'

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Enhance your understanding of rigging principles, load calculations, and sling selection, which are crucial for safe and efficient lifting operations.

View Rigging Engineering Basics on Amazon

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Read the chapters on sling types, load calculations, and rigging hardware.
Work through the example problems and exercises.
Take notes on key formulas and concepts.

Review 'Mobile Crane Manual'

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Gain a deeper understanding of crane operations, load charts, and safety procedures, which are essential for planning and executing heavy lifting operations.

View Putting Knowledge to Work on Amazon

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Read the sections on crane types, load charts, and rigging.
Study the safety procedures and operational guidelines.
Take notes on key concepts and best practices.

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Crane Load Chart Interpretation Exercises

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Improve your ability to accurately interpret crane load charts by completing a series of practice exercises.

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Obtain several crane load charts from different crane manufacturers.
Create a set of hypothetical lifting scenarios with varying load weights, radii, and boom angles.
Use the load charts to determine the maximum allowable load for each scenario.
Verify your answers and correct any mistakes.

Develop a Sample Lift Plan

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Apply the concepts learned in the course by creating a detailed lift plan for a hypothetical heavy lifting scenario.

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Select a realistic heavy lifting scenario (e.g., bridge beam installation).
Determine the load weight, dimensions, and lifting height.
Choose an appropriate crane and rigging equipment.
Create a detailed lift plan, including crane placement, rigging configuration, and safety procedures.

Create a Presentation on Alternative Lifting Methodologies

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Deepen your understanding of advanced construction methods by researching and presenting on modularization, pre-fabrication, or push launching techniques.

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Choose one or more alternative lifting methodologies.
Research the chosen methodologies, including their applications, advantages, and disadvantages.
Prepare a presentation with visuals and clear explanations.
Present your findings to a group or record a video presentation.

Create a Safety Checklist for Crane Operations

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Reinforce your knowledge of safety protocols by developing a comprehensive safety checklist for crane operations, covering pre-lift inspections, operational procedures, and emergency response.

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Review the course materials on safety requirements and best practices.
Research additional safety guidelines from industry standards and regulations.
Create a detailed checklist covering all aspects of crane operations.
Organize the checklist into logical categories (e.g., pre-lift inspection, during operation, post-lift inspection).

Career center

Learners who complete Planning & Execution plan in Heavy Lifting will develop knowledge and skills that may be useful to these careers:

Heavy Lift Engineer

A Heavy Lift Engineer specializes in the planning and execution of complex lifting operations, particularly in large-scale construction projects. This course directly addresses the core skills needed for this role, including crane chart interpretation, machine selection, rigging chart preparation, and lifting scheme design. The modules on tandem lifts and alternative methodologies, such as modularization and push launching, further enhance one's expertise in this field. This course provides a dedicated focus on exactly what a heavy lift engineer does, including feasibility analysis and safety concerns.

See salaries and explore the career path for Heavy Lift Engineer

Construction Project Manager

A Construction Project Manager oversees all aspects of a construction project, from initial planning to final execution. This role requires a deep understanding of construction methods, safety protocols, and project management techniques, which this course provides. The course's coverage of feasibility studies, crane operations, rigging and lifting planning and advanced construction methods helps one to develop a foundation for a career as a Construction Project Manager. The focus on safety protocols and practical applications in this course are vital for success in this leadership role.

See salaries and explore the career path for Construction Project Manager

Rigging Supervisor

A Rigging Supervisor manages and oversees rigging operations on construction sites, ensuring safety and efficiency during lifting activities. This course is particularly relevant to the role because of its in-depth coverage of rigging charts, lifting schemes, and tandem lifts. The course's emphasis on practical applications, such as modularization and prefabrication, provides insights into the technologies that require complex rigging solutions. Understanding of safety protocols through case studies, as taught in this course, is needed for success as a Rigging Supervisor.

See salaries and explore the career path for Rigging Supervisor

Mechanical Engineer

A Mechanical Engineer applies engineering principles to design, develop, and test mechanical devices and systems, and the design of machinery used in lifting operations. This course's modules on equipment selection, crane operations, and safety protocols in lifting provide a Mechanical Engineer with tools necessary to make informed decisions on projects. The course will also help in understanding advanced construction techniques such as modularization and pre-fabrication, which are integral to large engineering projects, leading to better decision making for a Mechanical Engineer.

See salaries and explore the career path for Mechanical Engineer

Crane Operator

The role of a Crane Operator involves the safe and efficient operation of cranes on construction sites, utilizing their understanding of crane capabilities and safety procedures. This course's training on crane chart interpretation, machine selection, and safety protocols for crane operations are vital for a successful career as a Crane Operator. The course provides practical knowledge of load testing, inspection procedures, and the importance of Personal Protective Equipment (PPE), which helps one work with safety and skill. This course is a good choice for someone entering this profession.

See salaries and explore the career path for Crane Operator

Civil Engineer

A Civil Engineer designs, plans, and oversees the construction of infrastructure projects. This course provides a foundation in heavy lifting and advanced construction methods, which are crucial to a civil engineer's capacity to oversee construction projects thoroughly. The course's focus on feasibility studies, crane operations, and innovative construction techniques like modularization and pre-fabrication, helps a civil engineer to be effective in complex construction environments. The safety protocols detailed in this course further enhance a civil engineer's responsibility for overall project safety.

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Structural Engineer

A Structural Engineer designs and analyzes structures to ensure they can withstand various loads and stresses, which requires heavy lifting plans in the design and construction process. This course's modules on crane chart interpretation, rigging schemes, and advanced construction methods like push launching will help a Structural Engineer design with greater awareness of construction constraints. Additionally, the focus on lifting methods and safety protocols gives Structural Engineers a better sense of the practical limitations of their designs. Such preparation will make for a more effective Structural Engineer.

See salaries and explore the career path for Structural Engineer

Construction Safety Manager

A Construction Safety Manager is responsible for developing and implementing safety protocols on construction sites to prevent accidents and ensure compliance with regulations. This course, which emphasizes safety in crane operations, load testing, inspection procedures, and PPE, provides a foundational understanding of risk mitigation strategies. The safety protocols and case studies discussed in the modules of this course would be directly relevant to the role of a Construction Safety Manager. The course is essential for anyone seeking a career in safety management within the construction industry.

See salaries and explore the career path for Construction Safety Manager

Construction Supervisor

A Construction Supervisor oversees daily construction activities on a project site, manages workers, and ensures projects are completed safely and on schedule. This course supports this role through its emphasis on lift planning from start to finish, including feasibility studies, crane operations, and rigging schemes. The course's focus on safety protocols and accident prevention through case studies helps a Construction Supervisor to better manage on-site risks. This course will help a Construction Supervisor to be more effective in their work.

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Site Engineer

A Site Engineer provides technical support on construction sites, ensuring that engineering aspects of projects are executed according to plan. This course provides training in areas that are of particular interest to a site engineer, including feasibility studies, crane operations, rigging planning, and construction methods. The course's modules on safety protocols and risk management directly relate to the Site Engineer's responsibility for ensuring a safe working environment. The knowledge gained from this course would help a Site Engineer be more effective on the job.

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Project Engineer

A Project Engineer provides support to project managers, focusing on technical aspects of projects. This course’s comprehensive overview of project planning, crane operation, rigging schemes, and advanced construction methods helps to build a good foundation for the role of Project Engineer. This course’s focus on feasibility studies, safety protocols, and case studies of accidents will be useful in developing a Project Engineer who is an effective team member. This course is a good option for someone who wishes to enter the field of Project Engineering.

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Lifting Specialist

A Lifting Specialist is an expert in the planning and execution of heavy lifting operations, they often have an advanced degree. This course provides a comprehensive overview of lifting methodologies, safety concerns, and planning. This course's modules on rigging and lifting schemes, including tandem lifts, are directly relevant to the role. The course’s exploration of safety protocols, load testing, and inspection procedures will be very helpful for a professional working in this field. A Lifting Specialist may find this course to be a useful addition to their professional development.

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Field Engineer

A Field Engineer works on-site, providing technical and engineering support during construction. This course, which explores crane operations, rigging, safety protocols, and advanced construction methods, helps a Field Engineer be more effective on-site. The modules on feasibility studies and practical applications help a Field Engineer understand the complexities of project execution. Also, this course touches on innovative construction techniques such as modularization and prefabrication, which will increase the Field Engineer’s understanding of the build. This course may be useful to someone in this role.

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Estimator

An Estimator prepares cost estimates for construction projects, requiring a thorough understanding of construction methods and resource requirements. This course’s modules on feasibility studies, equipment selection, and construction techniques provide insight into the practical aspects of construction, helping an Estimator understand the scope and cost implications of projects. While not central to the role of Estimator, this course may be useful for providing a better idea of the real world costs of construction. This course may be useful to someone in this role.

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Logistics Coordinator

A Logistics Coordinator manages the flow of materials, equipment, and personnel to and from construction sites. While not directly related, this course's modules on crane operations, equipment selection, and advanced construction methods might provide some context to the logistical needs of a construction site. The course might help a Logistics Coordinator better understand the complexities of construction logistics. This may be useful for someone in this role.

See salaries and explore the career path for Logistics Coordinator

Reading list

We've selected two books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Planning & Execution plan in Heavy Lifting.

Putting Knowledge to Work

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This manual comprehensive guide to mobile crane operations, covering everything from crane selection and setup to rigging and load handling. It provides detailed information on crane types, load charts, and safety procedures. is commonly used as a reference by industry professionals and is highly relevant to the course material. It provides additional depth on crane operations.

Putting Knowledge to Work

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Putting Knowledge to Work

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Rigging Engineering Basics

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Provides a solid foundation in rigging principles and practices, covering topics such as sling selection, load calculations, and rigging hardware. It valuable resource for understanding the engineering aspects of rigging and ensuring safe lifting operations. This book is more valuable as additional reading than it is as a current reference. It adds more depth to the existing course.

Rigging Engineering Basics

Paperback

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What's inside

Syllabus

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Reviews summary

Essential skills for heavy lifting planning

Activities

Career center

Reading list

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