PROGNOST-NT helps to improve a refinery’s machine protection

At the beginning, the compressor had the first major overhaul in seven years due to a knock. Several parts as 1^st stage connecting rod, bearings, crosshead pin and the main bearing liners were replaced. The crosshead failure described here occurred eleven months after this service works had been carried out by a non OEM-contractor.

At the time the event started, the compressor was running steady at a normal load of 75%.

• 29 hours prior the break, the PROGNOST-NT system issued the first diagnostic message. It reported the following damage class: “Crosshead / Piston Rod / Piston Stage 1 with a correlation of 100%”
• During the last minutes, there was a steady increase from the first diagnostic message (pre-alarms) to alarm (shutdown). In addition, the vibration safety limits of the crosshead slide were violated in several segments.
• 60 seconds before the crosshead failed, the 1^st stage piston rod position reached the trip levels.
• After the crosshead parted and the vibration alert conditions on both crossheads were reached, the automatic shutdown was initiated on the crosshead slide vibration.
• Due to the fact that the compressor previously had issues with a low lube oil pressure, the operators interpreted the trip as being related to these problems. They checked the oil system, found it to be good and re-started the compressor 32 minutes after the safety shutdown.

The data analyses showed that the crosshead slide vibration and the rod position were both giving a normal online signature seven days prior to the failure. The crosshead vibration safety limits were set between 2.0 and 2.3 g.

60 minutes before the event, the crosshead vibration and the rod position was well below the safety limits. Two minutes prior to the fracture, the crack development was visible in the CHS vibration RMS analysis in four segments. For the safety shutdown, violations in six segments were needed.

Compared to the crosshead, the rod position increased ten minutes earlier, averaging 51.23 mils 60 seconds prior to the trip. 15 seconds before the trip, the rod position reached 71.2 mils, exceeding 90 mils during the last three revolutions.

Taken together, all data fully illustrated the reaction of the system shortly before the separation of the crosshead as well as what happened when the operator team overruled the shutdown initiated by the PROGNOST-NT system.

The shutdown settings from the SAT protocol (Site Acceptance Test) showed the detailed safety limits and criteria for the activation of pre-alarm and main alarm. It also proved the disabling of analyses by resetting the safety alarm if the machine stops.

After the complete fracture of the crosshead, the data analyses led to several conclusions on the operator’s side. First of all, the PROGNOST monitoring showed that the developments of this type of crosshead fracture cannot be detected at an early enough stage by using the crosshead vibration alone. The use of piston rod position measurements has proven to be a reliable factor for safety protection.

As a result, the monitoring of piston rod measurements is now part of the site shutdown philosophy on machines equipped with our systems at the refinery. In addition, operators are no longer permitted to re-start a compressor tripped by a our system. Thus, the PROGNOST-NT system now helps to avoid costly damages to rotating equipment, lowering outage and securing productivity at the refinery.