Their weights and sizes are also therefore ever-increasing, so the capacity of the equipment used for lifting, transport, and installation must grow with them.
Over recent years, Mammoet’s innovations team has been hard at work developing new solutions to deal with the complexities this creates.
Mammoet’s XXL monopile transport system, which debuted in 2024, allows the world’s largest and heaviest monopiles to be marshaled, stored, and transported safely—even as they grow at unprecedented rates.
The new MTC 1600—on site for the first time—is a terminal crane with 1,600 t lift capacity. It works in tandem with another unit to lift XXL monopiles safely and efficiently, creating a production line environment.
Both innovations demonstrated their advantages when Mammoet supported Van Oord to marshal over 70 monopiles for Baltic Power offshore wind farm, which will deliver 4TWh of electricity annually—enough to cover 3% of Poland’s national demand.
Innovative Tools to Support the Future of Offshore Wind
Mammoet assisted with the lifting and marshaling of 78 monopiles between the factory and the foundation. The monopiles weighed up to 1,680 t, with a maximum of 86.3 m in length and a diameter of 9.1 m.
The monopiles were shipped in batches of three, via barge, to the Port of Ronne, Denmark. They were initially unloaded using 78 axle lines of SPMT, fitted with Mammoet’s XXL monopile transport system.
When the SPMT combination was in position, the system’s saddles unfolded hydraulically to cradle each monopile. Using the combined stroke of the SPMT and the system’s jacking spacers, the components were safely lifted off the grillages that supported them during sea transit.
They were then driven to a temporary storage location where they were placed on gravel bunds. The jacking spacers were extended fully to allow the monopiles to be lifted an extra 0.6 m.
This extra stroke length allows the XXL monopiles to be placed into the bunds and retrieved from them. This is despite the greater lift distance needed to do so, caused by the growing indents required to support larger monopiles.
The system’s foldable saddles also allow the height of the bunds to be lower and their lengths shorter—meaning far less gravel is needed, which reduces the amount of civil preparation work necessary on site.
Before load-out, the monopiles were lifted off the storage bunds and taken to a plugging station where they could be plugged at both ends and tested to ensure they were airtight.
They were then driven to the quayside, where the two MTC 1600 cranes effortlessly lifted them into the water—ready to be sailed out to Van Oord’s heavy lift installation vessel, Svanen, using a tug. The foundations ultimately traveled 23 km offshore the Polish settlements of Choczewo and Łeba, for installation.
In this fashion, the MTC 1600 is able to turn any quay into an efficient heavy lift terminal for monopile load-ins and load-outs.
In addition to monopiles, Mammoet also marshaled transition pieces for the project in the same port. This followed a similar procedure, except the components were lifted and placed onto SPMTs using an LR1800 crawler crane.
This work comes after Mammoet’s 2024 project to support Van Oord with the upgrade of the Svanen—fitting this vessel with a new A-Frame to install taller monopile foundations at sea for Baltic Power. The refit and this marshaling project are inextricably linked.
Jaap van der Riet, Commercial Manager at Mammoet, explained: “When we were in discussions with Van Oord, it wanted to upgrade the Svanen to have a 3,000t lifting capacity, so the vessel could install XXL monopiles in the Baltics.
“To further support that, we said we would develop cranes and systems that matched this capacity. This is a real strength of Mammoet: if no solutions exist, we develop them, together with our clients, to meet their specific needs.”
Finding Efficiencies at Every Stage
Load testing for the MTC 1600 cranes was carried out at the project site. The load-testing took place at a less busy spot on site to avoid disruption, before the cranes were transported in one piece to the lifting area.
The load-in RoRo method was also changed mid-project to streamline the marshaling process. The MTC 1600s proved so efficient at lifting the monopiles that they were used to unload them from the barges instead of SPMTs.
The added benefit of this was that it significantly reduced the time needed to fully ballast each barge, as the monopiles could be lifted directly rather than their weight being transported across the deck.
Thanks to a combination of the new XXL monopile handling equipment and these time-saving measures, Mammoet was able to save a lot of manual handling at critical phases and make the entire marshaling project safer and more efficient.
Baltic Power—developed by ORLEN and Northland Power—is scheduled to become operational in the second half of 2026.
