In the lockout process, what happens to the energy isolating mechanism?

• A. It can be left in any position
• B. It is put in the safe or off position
• C. It is replaced with a new mechanism
• D. It must be tagged only

Answer: (B)

In the lockout process, the energy isolating mechanism is crucial for ensuring safety during maintenance or repair work. When it is put in the safe or off position, it effectively disconnects energy sources, preventing the accidental startup or release of energy that could cause harm to workers. This step is vital because it not only protects personnel but also ensures compliance with safety regulations.

Leaving the energy isolating mechanism in any position can lead to dangerous situations where equipment could be unintentionally energized. Simply tagging the mechanism does not provide any physical control over the energy source; it only serves as a notification without the certainty required to guarantee safety. Additionally, replacing the energy isolating mechanism is unnecessary and impractical in the context of lockout/tagout procedures, as the focus should be on securing and isolating the existing mechanism rather than substituting it. By placing the mechanism in the safe or off position, workers can proceed with their tasks knowing that the risk of accidental energy release is mitigated.