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Made in

English

Last updated at

Tue, 14-Jan-2025

Level

Beginner

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00:00:00 Hours

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Short description

The 1-day Lock Out Tag Out (LOTO) training for industrial workers, offered by Elite Offshore, ensures safety during equipment maintenance by preventing accidental energy release. This comprehensive course covers essential equipment like locks, tags, hasps, and lockout devices for valves, circuit breakers, and plugs. Detailed procedures include identifying energy sources, proper device application, verifying isolation, and complying with OSHA 29 CFR 1910.147 and other relevant guidelines. Participants will learn to handle real-life scenarios through practical exercises and hands-on training, ensuring they are well-prepared to implement effective LOTO practices in their workplaces.

Requirements

Employment in Relevant Industries: The course is designed for industrial workers who operate in areas where stored energy is present or hazardous operations are conducted.
Basic Education: A high school diploma or equivalent is usually sufficient.
Workplace Experience: Some prior experience in industrial or manufacturing settings is often beneficial, especially in environments where hazardous energy sources are common.
Safety Awareness: Familiarity with basic workplace safety protocols or a basic understanding of machinery and energy isolation is recommended.
Language Proficiency: Proficiency in the language of instruction (usually English) is required to understand course materials.
Age Requirement: Typically, candidates should be at least 18 years old.

Outcomes

1. The purpose and importance of Lockout Tagout (LOTO) in preventing accidental energy release and ensuring worker safety.
2. Why LOTO procedures are essential for safeguarding workers from hazardous energy during maintenance or servicing.
3. An overview of OSHA standards, including OSHA 29 CFR 1910.147, and other relevant regulations.
4. The different types of locks, such as padlocks, used to secure energy-isolating devices.
5. The role of tags in providing critical information about locked-out equipment and the responsible personnel.
6. How to use multiple lock hasps for team lockout applications.
7. Devices used to lock out valves, circuit breakers, and electrical plugs to ensure a complete energy isolation.
8. Flexible devices designed for locking out energy sources in confined spaces.
9. Methods for identifying all energy sources (electrical, hydraulic, pneumatic, etc.) associated with machinery.
10. Procedures for informing all affected employees about the shutdown process.
11. Step-by-step methods for safely shutting down machinery.
12. Techniques for isolating energy sources to achieve a zero-energy state.
13. How to correctly place lockout devices on energy-isolating devices to prevent accidental energization.
14. The importance of securing lockout devices so they cannot be removed without a key.
15. Correct placement and required information on tags, including the name, date, and reason for lockout.
16. Methods to verify that isolation is effective, such as testing the machine to confirm no energy is present.
17. Ensuring worker safety during maintenance or servicing after energy isolation.
18. Proper procedures for removing lockout/tagout devices, ensuring all tools and materials are removed from the area.
19. Correctly removing locks and tags as part of the release process.
20. Informing affected employees once the lockout/tagout has been removed and normal operations can resume.

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