MDE Unit 7 Q5 – Answer

Important Notes:

• Safety First: Ensure all safety precautions are followed before performing this procedure. Refer to the manufacturer’s manual for specific safety instructions related to your generator model.
• Qualified Personnel: Ideally, a qualified technician familiar with the generator and its control system should perform this test.
• Alternatives: Consult the manufacturer’s manual to see if there are alternative methods for testing the set points, such as using diagnostic software or built-in testing functions.

Procedure:

1. Preparation:
   • Generator Off and Secured: Ensure the generator is completely off and disconnected from any electrical load. Lock out or tag out any switches to prevent accidental startup.
   • Identify Components: Locate the HT cooling water temperature sensor, the high-temperature alarm indicator (light or buzzer), and the engine shutdown mechanism (usually a relay or contactor). Refer to the generator manual or electrical schematics for guidance.
   • Tools: Gather necessary tools, which might include:
     • Reliable thermometer with a range exceeding the expected high-temperature set point.
     • Heat source (optional, for gradual temperature increase).
     • Safety glasses, gloves, and rags.
2. Temperature Monitoring:
   • Start the engine and allow it to run for a short period to reach normal operating temperature. Monitor the coolant temperature using the generator’s built-in gauge or your separate thermometer at the designated point (refer to the manual).
3. Alarm Test:
   Preferred Method (Gradual Increase):
   • If feasible, gradually increase the coolant temperature using a controlled heat source (e.g., heat lamp) directed towards the cooling system. This allows for observing the alarm activation at the designated set point.
4. Alternative Method (Manual Intervention):
   • If a controlled heat source isn’t available,  you might carefully simulate a temperature rise by briefly disconnecting the sensor or simulating a high resistance with a resistor (consult a qualified electrician for safe implementation).
   • Monitor the instrument panel or alarm indicator. Once the coolant temperature reaches the alarm set point as specified in the manual, the high-temperature alarm should activate (usually a visual or audible signal).
   • Record the observed temperature at which the alarm activates.
5. Shutdown Test (Use Caution):
   • Important: Proceed with extreme caution as this test involves stopping the engine. Ensure no critical loads depend on the generator’s operation during this test.
   • Following the method chosen for Alarm Test:
     • Gradual Increase: If using a controlled heat source, continue raising the coolant temperature slightly above the alarm set point. Observe if the engine shuts down automatically as programmed.
     • Manual Intervention: If using manual intervention, keep the sensor disconnected or resistance simulated for a very brief period (seconds) just beyond the alarm set point. The engine control system should trigger a shutdown.
   • Record the observed temperature at which the engine shuts down.
6. System Reset and Verification:
   • Once the alarm and shutdown functions have been tested, allow the engine to cool down naturally.
   • Reconnect the sensor (if disconnected) or restore normal operation if a resistor was used.
   • Verify that the engine starts and runs normally after the cooling system temperature has returned to a safe range.
7. Documentation:
   • Document the observed alarm and shutdown set points during the test and compare them to the manufacturer’s specifications.
   • Document any discrepancies or malfunctions for further investigation or repairs.

Important Reminders:

• Exercise caution during the test, especially during the shutdown simulation.
• Consider alternative testing methods recommended by the manufacturer if available.
• If unsure about any step, consult a qualified technician for safe and proper execution of the procedure.