MIT

Incorrect. MITs are not focused on determining age but rather assessing functionality.

Correct! This is the core objective of MITs.

Incorrect. While the manufacturer may be relevant, it's not the primary focus of an MIT.

Incorrect. MITs aim to prevent costly repairs by detecting issues early on.

Incorrect. This is a crucial aspect of an MIT.

Incorrect. This is a vital element of MITs.

Incorrect. These parameters are essential for safe operation.

Correct! Employee training is important for safety but not part of the MIT itself.

Correct! MITs help identify potential failures, reducing risks.

Incorrect. MITs help minimize costs by preventing breakdowns.

Incorrect. MITs aim to reduce downtime by identifying issues early.

Incorrect. MITs actually help ensure compliance with regulations.

Incorrect. Visual inspection is a fundamental part of an MIT.

Incorrect. Ultrasonic testing is a common non-destructive method used in MITs.

Incorrect. Radiographic testing is a valuable technique for MITs.

Correct! Performance-based testing is more relevant to software systems, not typically used in MITs.

Incorrect. MITs are conducted proactively, not just after incidents.

Correct! Regular MITs are a key aspect of maintaining safety and reliability.

Incorrect. MITs are performed after equipment is put into service.

Incorrect. While employees may suggest an MIT, it's usually determined by regulations or internal policies.

Your plan should address:

Equipment to be tested:

• Pressure vessels
• Piping systems
• Valves and control equipment
• Heat exchangers
• Pumps and compressors

Frequency of testing:

• Annual for high-risk equipment (e.g., pressure vessels, critical piping)
• Biennial for lower-risk equipment (e.g., some pumps and valves)
• Frequency may vary based on industry regulations, manufacturer recommendations, and equipment usage.

Testing methods:

• Visual inspection: For general condition, corrosion, and wear.
• Ultrasonic testing: For detecting internal flaws and cracks in welds and materials.
• Radiographic testing: For identifying defects in welds, castings, and other internal structures.
• Eddy current testing: For detecting surface cracks and defects in conductive materials.
• Hydrostatic testing: For verifying pressure vessel integrity.
• Leak testing: For identifying leaks in piping and valves.

Documentation:

• Record all inspection results, including date, testing methods used, defects identified, and corrective actions taken.
• Maintain a log of all MITs performed.
• Store records securely and readily accessible for future reference.

Training:

• Identify qualified engineers and technicians responsible for conducting MITs.
• Provide comprehensive training on applicable industry standards, testing methods, and documentation procedures.
• Ensure regular refresher training to maintain expertise.