The Swedish P&I Club has issued its Monthly Safety Scenario for February, regarding a series of explosions that occurred onboard a bulk carrier mainly due to the fact that a few fumigation pellets were not distributed as per the cargo document.
The bulk carrier had loaded yellow corn in all its cargo holds up to the hatch coamings. After the loading was complete fumigation technicians came onboard and fumigated the cargo with fumitoxin pellets. As per the cargo documentation, the fumigation pellets were required to be applied subsurface, but they were not applied subsurface as the technicians poured the pellets from flasks while walking on the hatch coamings or hatch covers. This work took a little more than an hour and afterwards all the cargo hatches were closed and the vessel sailed.
A couple of hours later an explosion occurred in hold no 3. The crew noted that the hatch covers had moved slightly and blue gray smoke was seen coming from under the edges. About an hour later another explosion occurred. This time it was from hold no 4 and a couple of minutes later an explosion occurred in hold no 6. There were explosions in the remaining holds no 1, no 2, no 5 and no 7 shortly afterwards. Fumitoxin pellets and similar fumigants are made up of around 55% aluminium phosphide, ammonium carbamate and inert materials. The aluminium phosphide reacts with water to produce phosphine which is extremely toxic and an effective fumigant.
Under normal conditions, phosphine is a gas which is slightly denser than air. It is colourless and has an odour variously described as “fishy”, “garlic-like” or “like carbide”. Phosphine gas will form an explosive (or flammable) mixture when mixed with air at a concentration exceeding around 1.8% to 2% by volume (lower flammable limit). The concentration of phosphine in the air in each of the holds exceeded this lower flammable limit.
The probability of the phosphine concentration exceeding the lower flammable limit is increased if pellets are allowed to accumulate in a heap, as opposed to being spread out across the surface of a cargo, or buried in the bulk of the cargo.
In this case the above-mentioned flammable phosphine/air mixture spon-taneously ignited, due to the presence of trace amounts of diphosphine in the phosphine/air mixtures. The fumigant pellets in each hold had not been distributed across the entire cargo surface, or applied to the subsurface but had been applied by simply pouring the pellets on top of the cargo. This method of application had likely permitted the accumulation of the pellets in limited areas and promoted a relatively rapid reaction of the pellets with moisture, thereby generating concentrations of phosphine gas above the lower flammable limit. This then lead to the explosions.
Issues to be considered after the discussion
- The crew need to ensure that the fumigation pellets are distributed as per the cargo documents.
- The Manager should ensure that the crew is aware of the requirements and procedures for the fumigation operation.
- The process of self-heating is exacerbated if pellets are allowed to accumulate in a heap. Spreading out the pellets will reduce the self-heating tendency and result in lower temperatures and slower rates of phosphine generation.
- Because the pellets were distributed in heaps this resulted in a significant accumulation, which in turn promoted self-heating and unusually rapid generation of phosphine gas in the holds’ head spaces.
- A significant fire and explosion risk exists if the concentration of phosphine gas in the air exceeds the lower flammable limit concentration of about 1.8% to 2% by volume.
- If an explosive or flammable phosphine/ air mixture is enclosed in the head space of a cargo hold and undergoes spontaneous ignition, a flame will propagate through the flammable mixture, leading to an increase in temperature and a concomitant increase in pressure (overpressure). This process is usually termed a volume explosion and the over-pressures generated in the process are capable of lifting hatch covers and damaging structural elements such as bulkheads.
Source: Swedish P&I Club
Why werent the tablets distributed into the commodity as it is being loaded into the cargo hold?
This would ensure even distribution of the tablets throughout the commodity, allow for faster gas equilibrium, and not allow concentrations to build up.