© Philipmorch Maersk
© Philipmorch

Another container ship has spilled up to 750 boxes into the sea, just weeks after the ONE Apus lost around 1,900.

Maersk Essen, enroute from Xiamen to Los Angeles and carrying up to 13,092 teu, reportedly during severe weather, lost a “very significant number of containers overboard in the Pacific Ocean on 16 January”, according to cargo casualty management company WK Webster.

According to FleetMon, up to 100 floating containers are drifting north-west of Honolulu.

While it is thought up to 750 containers may have been lost overboard, and it is also likely that, like with the ONE Apus, others will be damaged in affected stacks. These boxes will need to be removed and repositioned, noted WK Webster.

But unlike the ONE Apus, the Maersk Essen is continuing to its destination of Los Angeles, where it is expected to arrive on Saturday. WK Webster is arranging for surveyors to investigate and carry out cargo surveys.

It said the ship, set to go to Cai Mep, Vietnam next, would likely be delayed and anyone that had insured cargo onboard the ship should contact WK Webster as soon as possible.

More on this story coming later.

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  • Elizabeth Brand

    January 22, 2021 at 7:29 am

    Learning just today, that this is unusual occurrence.
    Carelessness such as this must be regulated to avoid harming our environment.

  • Capt SPARROW

    January 23, 2021 at 4:12 am

    While detailed investigation on these accidents are being carried out, I would like to offer a plausible technical view point:
    Today’s mega container ship designs feature a wide beam and large bow and stern flares in order to carry more containers above the load waterline, while still minimizing resistance with a streamlined underwater hull. In moderately high head or stern seas, the stability varies due to the changing water plane area as the position of wave crests travel along the hull. When the bow is down due to moderate pitching coupled with a slight roll, the large flare is fully immersed in the wave crest. The restoring buoyancy force plus the wave excitation force “pushes” the ship to the other side when the vessel is very “tender” due to changing stability at this instant. A similar action will happen on the other side as the bow pitches down in the next cycle. This repeated pumping action, which can lead to increasingly large roll angles within a few cycles even in moderately high head or stern seas, is called “parametric roll”.
    These unexpected events are contradictory to normal seamanship practice. While captains are trained to head the vessel into the sea to reduce synchronous rolling when close to the natural period of roll, doing this only exacerbates the situation and frequently leads to container damages or lost overboard due to excessive accelerations and lashing failures. Furthermore, design criteria of lashing system on these ultra large container ships are often less stringent than those for smaller container ships because of their huge size. ( BTW, there is no unified IACS rules on container ship design, shipyards can choose the classification society which offers the best deal. )
    However, once a vessel is in roll resonance, the wave energy will keep pumping into the system, resulting in excessive accelerations as great as the smaller size container ships. Unless mitigating strategies are implemented in lashing, weather routing algorithm to avoid such conditions and provide real-time warning plus seakeeping guidance to officers on watch, such accidents will continue to occur. The reason why we don’t see many similar accidents in previous years is because most of these large container ships were lightly loaded due to lack of cargo. Now these ships are fully loaded. Parametric roll resonance comes into play when the large bow flares are immersed in waves due to ship motions.