• 3 min de lectura
• 3 min de lectura

AAL Shipping (AAL) completed the transport of 125,175 freight tonnes (FRT) of wind turbine blades and towers for the King Rocks wind farm in Western Australia, achieving significant benefits in terms of cost, time, and environment thanks to an optimized cargo strategy executed in just two voyages using its 32,000 DWT Super B-Class vessel, AAL Antwerp, and its 31,000 DWT A-Class vessel, AAL Shanghai.
By optimizing cargo intake and vessel utilization, AAL consolidated cargo that would typically require three or even four voyages into just two trips, significantly improving overall logistical efficiency and project schedule adherence.
This achievement highlights the exceptional cargo carrying capacity of AAL's modern multipurpose fleet and the company's engineering expertise for large-scale renewable energy project development.
The latest shipment, carried out by the AAL Antwerp, arrived at the Port of Bunbury with 91,739 tonnes of wind energy cargo, including 51 wind turbine blades up to 80 meters in length and over 36 tonnes each. The blades were stowed up to six units wide and five levels high, demonstrating the high cargo capacity and flexibility of AAL's Super B-Class design.
This shipment represented over 70% of the project's total cargo volume, underscoring the vessel's carrying capacity and the efficiency improvements achieved through advanced stowage planning.
In combination with an earlier voyage by the AAL Shanghai, the shipping company transported a total of 125,175 metric tonnes of wind turbine components destined for the 17-turbine King Rocks wind farm, near Hyden.
"Projects like the 105 MW King Rocks Wind Farm demonstrate the value that AAL's engineering expertise and modern vessel design bring to renewable energy logistics," stated Renate Poppe, Regional Head of Operations for AAL Shipping Australia.
"Despite the large size and volume of the components involved, by optimizing cargo stowage and vessel utilization, we were able to consolidate what would traditionally require multiple voyages into just two trips, delivering tangible financial and schedule benefits for our client, while maintaining the highest standards of safety and cargo care," added Poppe.
The King Rocks wind farm will generate 105 MW of renewable energy, enough to power approximately 70,000 homes, and forms a significant part of Western Australia's energy transition strategy. The project is also expected to create around 200 jobs during its construction and operation over its 30-year lifespan.
"The discharge operation of the AAL Antwerp in Bunbury presented its own challenges, particularly the strict safety measures for the crew and cargo, necessary for handling blades stacked up to five levels high. Meticulous planning and execution were required to accommodate the height and reach limitations of the port cranes. Despite the complexity, the discharge was completed safely and efficiently in nine days," emphasized Nicola Pacifico, Global Head of Engineering for AAL Shipping.

