As regulations on harmful ship emissions such as sulphur become stricter, reducing SOx, NOx, CO2 and particulate matter is at the top of the agenda for many players in the maritime industry. As a result, shipowners and operators are increasingly looking into the use of alternative fuels to ensure compliance for their fleet, now and in the future.
“LNG is emerging in a number of ship sectors and has great potential. We were very pleased to work on this innovative design with Oshima. It offers customers a flexible, safe, future-proof solution and the opportunity to almost eliminate SOx emissions and particulate matter, cut NOx by 80 per cent with EGR (Exhaust Gas Recirculating) and reduce CO2,” says Morten Løvstad, DNV GL Bulk Carrier Business Director
As space on deck is limited on a bulk carrier, the design features an innovative solution – changing the ship’s superstructure to a U-shape that can accommodate the LNG tank in its centre. This approach allows the accommodation deck house to be completely separated from the LNG storage tank and scalability in terms of the amount of LNG storage onboard. Meanwhile, a tank cover adds an additional safety barrier and ensures compliance with the draft IGF Code. The bunkering stations for LNG, heavy fuel oil (HFO) and marine diesel oil are located at the side of the accommodation deck house.
Tatsurou Iwashita, Director and General Manager of the Design Department at Oshima, points out: “One of the main factors for shipowners and operators considering the use of LNG as ship fuel is the space required to store LNG on board. But as a result of our changes to the superstructure, our design does not reduce the vessel’s cargo capacity. Combined with its dual fuel capabilities, this should make the design very attractive for charterers, especially for trade routes where the LNG fuel price is competitive to HFO and substantially cheaper than marine gas oil (MGO).”
Dual fuel capabilities
The Kamsarmax vessel is designed for dual fuel operation, using both LNG and HFO to power the main engine, the generators and the boiler. LNG handling system for receiving AiP was supported by Mitsubishi Heavy Industries. Oshima’s latest Panamax/Kamsarmax hull design provided the basis for the vessel’s shape. This design has proven successful, and its fuel performance is well documented, providing the experts with important operational data they could use to adapt the design to LNG operation.
The vessel’s parameters are also based on data generated in a DNV GL feasibility study from 2014 that examined the use of LNG in a trade route between Europe and North America from a technological and economic perspective. “Taking all relevant factors into account, we found that a LNG-fuelled Kamsarmax bulk carrier, which only uses LNG in Emission Control Areas, would require 500–700 m3 of LNG and one bunkering operation for a round trip between Europe and North America,” says Løvstad. If it were powered with LNG for the entire voyage, it would require 2,000–2,500 m3 of LNG.
Oshima Shipbuilding Co. was established in 1973 in Japan and offers a broad portfolio of services, including ship construction & repair and manufacturing & installation steel structures. The company promotes and invests heavily in developing greener shipping concepts, especially for bulk carriers. To date, Oshima has constructed more than 680 vessels. For more information visit www.osy.co.jp/english/
About DNV GL
Driven by its purpose of safeguarding life, property and the environment, DNV GL enables organisations to advance the safety and sustainability of their business. We provide classification and technical assurance services along with software and independent expert advisory services to the maritime, oil & gas and energy industries. We also provide certification services to customers across a wide range of industries. Operating in more than 100 countries, our 16,000 professionals are dedicated to helping our customers make the world safer, smarter and greener. For more information visit www.dnvgl.com