Real-Life Incident: Hi-Fog Fire Suppression System In Suppressed State
A passenger/RoRo ferry was underway in a restricted waterway when the fire detection system alarm sounded.
The bridge fire panel indicated a fire on deck 1, zone 4. Less than 30 seconds later, the fire detection system began to identify further alarms in multiple locations in the engine rooms.
The chief engineer left the engine control room and opened the watertight door to the aft engine room, and found it filling with thick black smoke. At approximately the same time, the vessel’s Hi-Fog fire suppression system activated at the thermal oil circulation pumps.
The incident was announced on the PA system, and crew were directed to muster for firefighting and control. About four minutes later the vessel briefly lost electrical power but maintained propulsion. The bridge team reduced speed and manoeuvred to drop anchor, stemming the wind and tide. Local VTS and Coastguard were informed of the situation and a lifeboat and two tugs were tasked to stand by.
About 12 minutes after the initial alarm the first firefighting team entered the aft engine room wearing breathing apparatus (BA). They had two objectives: identify the source of the smoke and restore electrical power. Visibility was severely limited and no fire could be seen. The team proceeded with restoring power. In parallel, further teams were shutting down ventilation, isolating electrics and checking for hot spots.
BA team one attempted to reset breakers in the high voltage room, and then withdrew after a final visual check for flames. BA team two then entered the aft engine room and located fire in the vicinity of the thermal oil boiler six minutes later. The bridge was informed and preparations were made to release CO2 into the space, as the Hi-Fog fire suppression system had clearly not functioned as desired.
With all crew and passengers mustered and the quick closing valves and fire dampers closed, the chief engineer and chief officer made final preparations for release of CO2 into the aft engine room. Once all ventilation was confirmed closed, CO2 was released, some 45 minutes after the alarm first sounded. Decreasing temperatures were monitored on all accessible sides of the space, confirming that the fire was extinguished. The lifeboat and one of the tugs were stood down.
After the CO2 was released and the fire was extinguished, the engineering team continued their attempt to restore power and ensure the vessel could return to port under its own power.
The official investigation found, among other things, that:
- Damage to the pumps was consistent with a bearing failure and fire originating at pump #1. The pattern of damage to pump #1 indicates that the impeller end bearing failed first and the drive end bearing collapsed shortly afterward. This collapse led to the outer race of the drive end bearing rotating in the bracket housing, generating extreme frictional heating in the order of 1,200°C – well in excess of the autoignition temperature of the thermal oil.
- l The Hi-Fog system was supplied from a water tank of 426 litre capacity, refilled by a domestic fresh water pump that was not part of the fire suppression system. For continuous operation of the Hi-Fog system, the pump refilling the tank had to remain in operation. After a blackout, this pump had to be reset and restarted locally because it was not fed from the emergency switchboard. This was compliant with requirements, but was not captured in the vessel’s contingency plans. When the pump was not reset, the tank was emptied within two minutes of the Hi-Fog restarting.
- The Hi-Fog output pressure was further compromised by a prevalence of smoke detector heads and activation zones. As the smoke spread, Hi-Fog zones were activated well away from the fire itself.
Lessons learned
- Fire suppression systems installed in machinery spaces before 2010 may not be as effective as those installed later. Operators should check that the system design meets their operational requirements and ensure that contingency plans reflect any limitations of the system.
- Fire suppression systems that are not connected to the emergency power supply do not work when the vessel loses mains power. Water mist systems do not work if their water supply is compromised. If the system is dependent on separate feed pumps, these should be connected to the emergency switchboard and activate automatically.
- Fire suppression systems that are not connected to the emergency power supply do not work when the vessel loses mains power. Water mist systems do not work if their water supply is compromised. If the system is dependent on separate feed pumps, these should be connected to the emergency switchboard and activate automatically.
Reference: The Nautical Institute
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About Author
Marine Insight News Network is a premier source for up-to-date, comprehensive, and insightful coverage of the maritime industry. Dedicated to offering the latest news, trends, and analyses in shipping, marine technology, regulations, and global maritime affairs, Marine Insight News Network prides itself on delivering accurate, engaging, and relevant information.
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