Following calls for greater vessel versatility offshore, Damen Shipyards has developed a new concept vessel – the Offshore Support Vessel (OSV) 9020. It features a stable platform with lots of accommodations, good station-keeping capability, low carbon emissions and flexibility to add mission-specific tools.
“We were approached by several different operators at the same time, all looking for slightly different offshore capabilities, but similar enough that their requirements could be met with a conceptual standard platform,” Damen’s design and proposal engineer Mark Couwenberg said. “The thinking behind the OSV 9020 is very much in line with the Damen philosophy of shipbuilding in series; it’s a standard product, as a result drawing upon proven technology, that can be tailored to individual requirements via modularization.”
The vessel has been designed to perform a variety of offshore tasks both at surface level and subsea.
“The vessel can be fitted with a moonpool-deployed saturation dive system to allow diving operations at offshore crane, a stern A-frame and an offshore access system,” Couwenberg said. “The vessel can also act as a submarine rescue vessel. For this, submarine rescue gear is placed on deck. To ensure suitability for this scope of work, the available vessel accommodations, manoeuvring systems and dive support systems are crucial features.”
Accommodation is a key feature for the success of any offshore operation. The OSV 9020 provides living space for up to 120 people on board. Interior design is designed to ensure those on board will quickly feel at home, with lots of possibilities to personalise their stay on board.
“There has been a lot of consideration to make sure the accommodation is both functional and comfortable,” Couwenberg said. “For example, care has been taken to ensure proper on board logistics, so that daily routines are as efficient as possible and that working areas are separated from living space.”
A helicopter deck is integrated in the design, further increasing the vessel flexibility.
The vessel is primarily designed to operate on DP. The complete hull, superstructure and thruster layout is designed for this. The hull features equally good ahead and astern performance. The vessel profile ensures low wind catch. The four identical azimuthing thrusters are arranged symmetrically: two on the stern and two on the bow. This ensures maximum station-keeping performance while avoiding high noise levels in the accommodation.
In addition, this layout results in lower maintenance costs, lower fuel consumption and less total installed power. Although the main benefits of the design are seen during station-keeping, the transit performance of the vessel is also very efficient. Speed and fuel consumption are hardly sacrificed by the layout.
The diesel generators are supported by a battery pack. The electric system is designed to operate safely with closed bus-ties. This makes it safely possible to have less engines running, resulting in reduction of fuel oil consumption and harmful emissions with up to 20 per cent and less maintenance.
Also with clean, sustainable operations in mind, the vessel is fitted with a hybrid power generation system, resulting in low emissions.
However, the vessel can optionally be delivered to operate on green methanol, produced from biological waste streams. This allows reduction of well-to-propeller CO2 emissions by approximately 70 per cent. In addition to the ease of bunkering offered by green methanol at most ports in the world, says Damen, it is easy to handle safely on board and is cost-efficient. Additionally methanol sacrifices very little design capacity so that the vessel does not need to be larger to achieve similar endurance.
Note: This article originally appeared on MarineLog.