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GE, DSIC design conversion of steam powered LNG carrier to gas turbine-based propulsion system

Published 05 December 2017

GE’s Marine Solutions and Dalian Shipbuilding Industry (DSIC) completed a preliminary design for the conversion of a steam turbine powered LNG Carrier (LNGC) to a gas turbine-based propulsion system.

The study aims at steam powered LNGCs that offer low fuel efficiency but are not ready to be retired from service. The new design will feature GE’s reliable and compact COmbined Gas turbine, Electric and Steam (COGES) system.

“We are delighted to work with the DSIC team to develop this new concept of a LNGC power system conversion,” said GE’s Brien Bolsinger, Vice President, Marine Operations, Evendale, Ohio, USA. “This feasibility study provides ship owners a competitive retrofit solution for 10 to 15 year-old steam-powered LNG carriers,” Bolsinger added.

According to Yingbin Ma, DSIC Deputy Technical Director, “A gas turbine’s smaller footprint allows for the minimum necessary conversion work required by the shipyard. By converting to a COGES power system, the fuel efficiency of the ship will be improved by 30%. This allows ship owners to increase the charter rate and win back opportunities in a market dominated by dual-fuel diesel engines. This study achievement is based on a 138,000 cubic meter LNGC powered by a steam turbine, but it can be applied on other similar size ships.”

Benefits of Gas Turbines

Derived from GE’s CF6 family of aircraft engine, GE’s LM2500 family of aeroderivative gas turbines share the same proven jet engine technology with a field reliability of 99.9%. The LM2500 family includes the base LM2500 model (25 MW), LM2500+ (30 MW) and LM2500+G4 (35 MW).  These same gas turbines are used onboard cruise ships, high speed yachts, fast ferries and offshore platforms, as well as by 35 navies worldwide. Three sizes of LM2500 gas turbines offer the flexibility to adapt the COGES power to a specific ship size and the ability to optimize performance.  Equipped with a dry low emissions (DLE) combustor or a single annular combustor (SAC), a gas turbine can reduce nitrogen oxide (NOx) emissions to meet IMO Tier III/United States Environmental Protection Agency Tier IV requirements with no post combustion exhaust treatment.

Compared with two-stroke diesel engines, a gas turbine is 80% lighter and 30% smaller. Featuring reduced weight, size -- and using one of the existing steam turbines -- COGES offers a simpler conversion that requires less dry dock time compared to a similar conversion with diesel engines.

COGES offers customers lower lifecycle costs, including no pilot fuel, negligible lubricating oil consumption and simplified maintenance cost based on 50,000-hour overhaul interval with less than 300 maintenance related man-hours per year.



Source: Company Press Release