GL guidelines in force
Germanischer Lloyd (GL) has issued guidelines for gas as ship fuel on the application of the IMO regulations. These guidelines are in force since 1 May and apply to all ships excluding liquefied gas tankers. The internal combustion engine installations subject to the IMO interim guidelines may be single-fuel (i.e. natural gas) or dual-fuel (gas and fuel oil) machines, and the natural gas may be stored in gaseous or liquid state. The guidelines are to be applied in conjunction with the relevant provisions of the International Convention for the Safety of Life at Sea (SOLAS), 1974, and the Protocol of 1988 relating thereto, as amended.
“With new emission control regulations taking effect, gas as a ship fuel, once banned, is now re-emerging as an environmentally and economically attractive option,” Dr Hermann J. Klein, Member of the Executive Board Germanischer Lloyd, said at a press conference in Athens today.
Compared to oil, natural gas has two key advantages: high efficiency and a lower environmental impact. Engine problems and damage caused by low-quality heavy fuel oils will be a thing of the past for owners switching to gas as a ship fuel. Risks associated with conventional ship fuels include bunker quality issues, poor ignition and combustion, and uneven heat and pressure distribution on pistons, piston rings and cylinder liners.
In early June 2009, the IMO Committee on Maritime Safety (MSC) lifted the ban on natural gas as a ship fuel by adopting Resolution MSC 285(86), called “Interim Guidelines on Safety for Natural Gas-Fuelled Engine Installations in Ships”. Developed by the IMO subcommittee on Bulk Liquid and Gases (BLG) with GL assistance over the past few years, the Interim Guidelines are the first step towards the envisioned general code for gas as a ship fuel, the so-called IGF Code, which is currently under development by IMO and is expected to enter into force conjointly with the revision of SOLAS 2014.
Criteria for Construction
The GL guidelines will help shipowners and yards prepare for the introduction of gas as a ship fuel in the near future. The new guidelines provide criteria for the design arrangements and installation of propulsion and auxiliary machinery powered by natural gas to ensure a level of integrity, safety, reliability and dependability equivalent to that of comparable, state-of-the-art machinery burning conventional fuel oil.
Environment- and Budget-Friendly
Liquefied natural gas (LNG) is gas (predominantly methane, CH4) that has been converted temporarily to liquid form for ease of storage or transport. It is odourless, colourless, non-toxic and non-corrosive. The reduction in volume makes it much more cost-efficient to transport over long distances. The energy density of LNG is 60% of that of diesel fuel. Therefore, you have to calculate with a doubling of tank capacity.
Increasing numbers of new LNG carriers are equipped with high-efficiency dual fuel engines. This new trend, which originated in commercial shipping around the millennium, has encouraged the introduction of LNG as a ship fuel. An appropriate infrastructure supplying LNG fuel in ports has yet to be established. In terms of emissions to air, especially SOx, CO2 and HNOx, LNG is definitely a winner.
“GL believes LNG as a ship fuel may be just the solution the shipping industry has been looking for to cope with the emissions challenges of our time,” underlined Dr Klein.
LNG Usage is Rising
For a long time, LNG was a fuel for users who needed natural gas but had no or difficult access to pipelines. Additionally, LNG carriers were driven partly using the LNG cargo as fuel in steam turbines of low efficiency. Today, an increasing part of LNG carriers is driven by high efficiency dual fuel engines. This development, which has happened on a commercial basis since the millennium, supported the introduction of LNG as ship fuel.
However, introducing LNG as fuel for shipping also requires the availability of LNG in ports and the aim of protecting the environment from emissions, especially CO2 and NOx. Nevertheless, a growing population, the industrial development of this population and the limitations of fossil fuel resources will drive the tendency towards low carbon content of fuel and higher efficiencies, which are possible through technologies that are already on their way.
The long-term future of heavy fuel oil as bunkers is questionable, both in terms of dependency on oil and not at least with regards to emissions. Natural gas in contrast gives a far more environmentally friendly combustion and in addition there appear to be greater reserves available than oil. Thus, natural gas in liquid form (LNG) as marine bunkers has the potential to be the solution for the shipping industry to cope with its emission challenges in the years to come.
Source:gl-group
