Heavy Equipment and Lifting Operations Safety

Heavy Equipment and Lifting Operations Safety

📅 Duration: 5 Days
👷 Target Audience: Expert Safety Engineers, Crane Operators, Site Supervisors, Equipment Managers, Lifting Specialists
🎯 Skill Level: Advanced

📌 Course Objectives:

By the end of this course, participants will be able to:
✔ Identify and mitigate hazards associated with heavy equipment and lifting operations on construction sites.
✔ Implement safe lifting techniques, rigging procedures, and load control methods.
✔ Understand OSHA 1926.1400, ASME B30, ISO 23853, and LOLER standards for lifting safety.
✔ Conduct pre-operational inspections, load calculations, and stability assessments for cranes, forklifts, and hoists.
✔ Utilize IoT-enabled monitoring systems, anti-collision sensors, and AI-based safety tools for lifting operations.
✔ Develop emergency response plans for equipment failures, collapses, and lifting accidents.
✔ Train personnel on signal communication, tag lines, and critical lift planning.

📌 Course Outline:

🟢 Day 1: Fundamentals of Heavy Equipment Safety

🔹 Types of heavy equipment used in construction (cranes, excavators, forklifts, loaders, hoists).
🔹 Common hazards and risk factors (overloading, tip-overs, struck-by incidents, mechanical failures).
🔹 Regulatory and compliance standards (OSHA 1926.1400, ASME B30, ISO 23853).
🔹 Equipment pre-operational inspection and maintenance procedures.
🔹 Case Study: Review of major heavy equipment accidents and lessons learned.

🟢 Day 2: Lifting Operations and Rigging Safety

🔹 Load weight calculation and center of gravity assessment.
🔹 Safe rigging practices: Slings, shackles, hooks, and hoisting devices.
🔹 Crane hand signals and communication protocols.
🔹 Critical lift planning and multi-crane lifting operations.
🔹 Hands-on Exercise: Rigging inspection and proper slinging techniques.

🟢 Day 3: Advanced Lifting Safety and Stability Control

🔹 Crane stability and ground bearing pressure analysis.
🔹 Anti-sway and anti-collision systems for cranes and hoists.
🔹 Use of load moment indicators (LMI) and rated capacity indicators (RCI).
🔹 Weather conditions and environmental impacts on lifting safety.
🔹 Case Study: Investigation of a crane collapse incident and corrective actions.

🟢 Day 4: Smart Technologies and Emergency Response for Heavy Equipment Safety

🔹 IoT-based safety monitoring: Smart sensors, GPS tracking, and geofencing for heavy machinery.
🔹 AI-driven predictive maintenance to prevent equipment failures.
🔹 Emergency response planning for equipment failures and lifting accidents.
🔹 First aid for equipment-related injuries: Crush injuries, falls, and trauma care.
🔹 Case Study: Implementation of digital safety tools in a public infrastructure project.

🟢 Day 5: Case Study & Real-World Application

🔹 Hands-on case study: Planning and executing a critical lift operation safely.
🔹 Conducting a heavy equipment risk assessment on an active construction site.
🔹 Live demonstration of a lifting operation using proper rigging and signal communication.
🔹 Final assessment and emergency response simulation.
🔹 Certificate of Completion & Closing Remarks.

🛠 Tools & Software Used:

✅ Crane Load Calculation Software (Crane Planner 2.0, LICCON, KranXpert) – For load assessment.
✅ IoT-Based Equipment Monitoring (Connected Sensors, GPS Tracking, AI Predictive Analytics) – For real-time tracking.
✅ Rigging Inspection Software (Lifting Gear Inspector, RiggSafe) – For compliance and auditing.
✅ VR Simulation for Crane Operations (Serious Labs, ITI Virtual Reality Crane Simulator) – For hands-on training.
✅ Power BI / Tableau – For incident data visualization and risk analysis.