Hamburg, 6 September 2012 - In the fight to reduce harmful emissions to the air, LNG as a ship fuel is gathering increasing attention in the maritime community. The virtual elimination of sulphur and particulate emissions and significant reductions to NOx and CO2, mean that the LNG option must be on the planning table of every ship owner and operator.

For those owners who are looking to the future the next generation of ship designs are ready for the market, as was demonstrated by Germanischer Lloyd's presentation of an Approval in Principle (AiP) certificate to TECHNOLOG for the IPP designed STREAM range of 3,000 TEU to 5000TEU liner or feeder vessels designed for worldwide service.

"At GL we see the development of LNG as a fuel for shipping as a key part of the industry's drive to curb costs, reduce emissions, and remain the world's most efficient means of transporting goods," said Dr Pierre Sames, Head of GL's Research and Rule Development Department. "The spread of LNG technology will not only allow the industry to improve its overall environmental footprint, but to remain competitive in an era of rising bunkering costs."

The STREAM 4200 LNG's 32.25-metre beam allows passage through the existing Panama Canal locks. A draft of 10.50m to 12.00m means the vessel can operate worldwide, including the Kiel Canal (future dimensions) between the Baltic and North Sea. The vessel is subdivided into several double 40-foot holds. The forward hold is covered and designed to carry dangerous goods. The cargo holds behind this are of open-top design, including the hold behind the superstructure located semi-aft.

The forward mooring arrangement is fully sheltered by a large cover which forms an integrated part of the unique wave-breaking structure. The aft one is covered by the aft container stack. The layout can be configured to suit multiple shipping routes, with optimal flexibility as it is based on existing technology.

The entire vessel design concept is focused around saving energy. A single screw is directly driven by a dual-fuel, two-stroke, 22.9 MW engine developed specifically for LNG applications by MAN. The same dual-fuel system is used for the auxiliary power generators and boilers. Exhaust gas boilers and waste heat recovery equipment are also included in the design.

The LNG fuel systems for the STREAM were developed jointly with TGE Marine Gas Engineering and include a fixed bunker tank inside the vessel and a novel portable deck-mounted LNG tank system which can be used to provide extra capacity. For bunkering, the fuel containers will be connected to a docking station currently in development.

The hull lines of the STREAM have been optimised by HSVA (Hamburgische Schiffbau-Versuchsanstalt) experts and the application of tools, methods and expertise from GL's FutureShip unit to minimise fuel consumption as well as resistance in water and air while maximising cargo capacity and ensuring maximum stability. With the support from the GL Company FutureShip, the designers were able to model a large number of design variants, select the traits desired, and then modify the best variants to arrive at an optimal hull form. Improved hull lines allow installation of a highly efficient, relatively slow-running propeller from project partner MMG (Mecklenburger Metallguss GmbH). A Becker Marine rudder ensures maximum manoeuvrability.

source:asiasis