Course Introduction
The location of the load and crane with respect to the marine is one method of categorizing these lifts; this method primarily provides a concept of the impact on the environment to be taken into consideration in this Lifting Loads in Onshore/Offshore Installations training course. Lifting that occurs on land, when both the load and the crane are stationary on the ground. Whenever done properly, the impact and strain amplifications operating on the components are negligible. Typically, in straightforward scenarios, a dynamic force amplification factor between 1.05 and 1.15 is employed and the dynamic analysis is suppressed. Load movements are not computed since dynamic analysis is not performed.
Because it is a subjective categorization, it shouldn’t be the sole factor used to determine the amplification factors because the environmental load (wave, wind, current, etc.) rather than the geographic position determines how much lifting is done. In certain areas of the offshore, protected water may be an option, but in other areas, an offshore lift will need to be designed.
This training course will highlight:
- Lifting operations are carried out for both huge and little objects, both on land and at water.
- Highlighting lifting bags, and substructure.
- The setting up, execution, and upkeep stages.
- Building a substation and frequent lifts like utilizing machinery to load baggage.
- Setting Up Lifting Activities.
- Supervision of the hoisting operations.
- Lifting and installing offshore.
Course Objectives
At the end of this course, you will learn to:
- Being able to create minimal specifications for lifting activities in the offshore.
- Recognizing the effects of lifting operations mishaps, it is possible to find out how to update event statistics.
- The projections for the future indicate a considerable rise in installations across the globe.
- Learning how to install and maintain the current generation of wind farms.
- Finding the simple solution to lower risk and expenses.
- Studying both on land and in the water lifting operations.
- Studying the phases of installation, operation, and maintenance.
- One-time tasks like installing substations and performing lifts repeatedly.
- Studying Lifting Operation Planning.
- Gaining knowledge about lifting operation control.
- Studying offshore lifting and installation.
Who Should Attend?
This course is suitable to a wide range of professionals but will greatly benefit:
- Design Structural Engineers
- Supervision Engineer
- Planners
- Steel Fabricator
- Construction Engineers
- Project Engineers
Course Outline
Introduction
- Management Systems
- Lifting Operations Flowchart
- Personnel
- Categorization of Lift – Routine or Non-Routine?
- Operational Planning
- Lift Plans for all Lifts, Routine and Non-Routine
- Inspection, Examination and Marking of Lifting Equipment
Planning of Lifting Operations
- Characteristics of the load
- Lifting Equipment
- Load Control and clearances
- Classification of lifting operations
- Identification of Hazards and Risk Assessment
- Lift Plan
- Permit-to-work
Control of the Lifting Operations
- Execution of Lifting Operations
- Safe use of Lifting Appliances and Load Control Systems
- Installation Vessel cranes
- Mobile Cranes
- Review of Lifting Operations
Heavy Lifting Equipment and Components
- Heavy Lift Cranes
- Crane Vessel Types
- Frequently Used Crane Vessels
- Heavy Lift Shackles
- Heavy Lift Slings
- Sling Properties
- Grommets versus Slings
- Sling and Grommet Prop
Lifting and Installation in Offshore
- Jacket Lifting
- Vertical Module Lift and Installation
- Deck Panel Flip-Over
- Lifting of Gas Recompression Module
- Lifting of Flare Tower
- Special Lifting Frame Design
- Finite Element Analysis for Lifting Design