Published: January 15, 2020

With design and technology advances a new generation of gas carrier is being built that is capable of carrying segregated cargoes of gases, which may each require different cooling specifications.  Training in these cargo handling systems is essential to ensure that crews, even very competent ones, are fully familiar with the operation and procedures for maintaining full segregation and avoiding cross contamination of cargo, including the cargo heels.

A case handled by the Club involved various parcels of cargo carried over three voyages.  The first voyage was a full cargo of ethylene, which was loaded and discharged without incident.  The second voyage was a LPG mix  of butane and propane which were carried separately and were also loaded and discharged without incident.  A heel of ethylene, taken from the first cargo, had been retained in a deck tank for the purposes of gassing up and cooling the tanks prior to loading the third voyage which was a cargo of ethylene.

On the second voyage, the LPG cargo was loaded into tanks which already contained ethylene vapour as the voyage orders contemplated that the tanks would not require further conditioning for this LPG cargo.  However, the ethylene heel in the deck tank had to be segregated.

The LPG cargoes had to be mixed on board prior to discharge.  During the voyage to the discharge port for this LPG voyage, the port and starboard cargo and refrigerant compressors were segregated from each other.  The starboard system was set to run to cool and reduce pressure in the deck tank and the port cargo compressor system was used to condition the cargo of LPG.

After discharge of the LPG cargo, and on passage to the third load port, the ship gas-freed all cargo tanks to breathable air for visual inspection, purged all the cargo tanks and the cargo system with nitrogen and then gassed up and cooled with the ethylene heel from the deck tank.  At this point the ship had made common the refrigeration and compressor systems across all tanks. Then,  a full cargo of ethylene was loaded for the third voyage.

Samples taken immediately prior to discharge of this ethylene showed it to be contaminated with hydrocarbons and further testing and investigation confirmed that the contaminants were butane and propane in the same proportions as the mix of cargo from the second voyage.  This contamination was also confirmed to exist in the deck tank.

Two possible causes of contamination were suggested: either the LPG had not been properly purged from the system during the change of grade process; or the coolant parcel in the deck tank was contaminated with LPG during the time it was carried on board.

Several simulations were planned and then carried out on board.  The, conclusion was that there had been insufficient segregation between the compressor and refrigeration systems used for the deck tank and the systems used for the LPG cargo.  Analysis of system data identified crossover readings on the condensate return lines between the two systems which were supposed to be physically segregated.  This indicated that the two systems were not completely segregated as they should have been, although the responsible officers believed that the system was sufficiently segregated by design.  The investigation identified two distinct points where the physical segregation was not complete, with one point identified by the ship and the other only discovered by a professional investigation team.

During the investigation the Member identified various problems and issues on board  which,  although not exclusively the root cause of this loss, can be shared to provide guidance to others:

  1. There was no fixed procedure for operations such as changing grades of cargo.
  2. There were also no valve checklists available on board explaining what valves, spool pieces, blanks and spectacle blinds should be in place for various operations, especially when loading or operating with segregated cargoes.
  3. None of the valves in the cargo systems were numbered or labelled, which made identifications and checking individual valves more complicated.  (The ship had actually been delivered from the yard with no identification name plates on any of the cargo system valves).


There must be a through risk assessment  when different grades and types of cargo are carried.  All crew must be familiar with the ship’s systems, especially if the ship is a new one and they must received the necessary training, even if they are experienced in the trade as each ship can be different and with the new technology the cargo carrying systems may be different from what they are used to.


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