
Article 1 
A Liquefied Natural Gas Carrier (LNG Carrier) is a cargo ship constructed or adapted and used for the carriage in bulk of liquefied natural gas as defined under the International Code for the Construction and Equipment of Ships Carrying Liquefied Gases in Bulk (IGC) Code.
Article 2 
To meet the objective on reducing emissions from ships through an alternative technological abatement method by a mixture of marine fuel and boil-off gas the LNG Carriers shall use and comply with the calculation criteria set out in Annex.
The LNG Carriers may use the alternative technological abatement method while at berth in Community ports, allowing sufficient time for the crew to accomplish any necessary measures to employ a mixture of marine fuel and boil-off gas as soon as possible after arrival at berth and as late as possible before departure.
Article 3 
The achieved emission reductions in sulphur emissions due to the application of the method referred to in Article 2 must be at least equivalent to the reduction that would be achieved through the limits of the sulphur in fuel specified in the Directive.
Article 4 
Member States shall require LNG Carriers which use the alternative technological abatement method and call at ports under their jurisdiction to provide detailed record in the ship’s log-book, containing the type and quantity of fuels used on board. For this purpose, these ships shall be equipped for continuous monitoring and metering of the boil-off gas and marine fuel consumption.
Article 5 
Member States shall take appropriate measures to monitor and verify the use of the alternative technological abatement method while at berth based on the achieved emissions reductions provided by LNG Carriers.
Article 6 
This Decision is addressed to the Member States.
Done at Brussels, 13 December 2010.
For the Commission
Siim KALLAS
Vice-President
ANNEX
1. 
For the purpose of establishing equivalence within the meaning of Article 3, the following formula shall be used:

SF (%) · MF ≤ 0,1 % · MF0,1 %

Where:

— SF (%)percentage of sulphur content per unit of mass of the marine fuel used,— MFmass of the marine fuel consumed while the ship is at berth in kg,— MF0,1 %equivalent mass in kg of a fuel with a sulphur content ≤ 0,1 %. This factor shall be calculated according to the following formula:
MF0,1 % = (MBOG · EBOG + MF · EF)/EF0,1 %
Where:— MBOGmass of the boil-off gas consumed at berth in kg,— EBOGenergy value of the boil-off gas used in MJ/kg,— MFmass of the marine fuel consumed at berth in kg,— EFenergy value of the marine fuel used in MJ/kg.— EF0,1 %energy value of a marine fuel with a sulphur content ≤ 0,1 % in MJ/kg

The two formulas referred to above can be combined as follows:

SF (%) · MF/(MBOG · EBOG + MF · EF) ≤ 0,1 %/EF0,1 %

The formula can be further developed as follows:

SF (%)/(RG/F · EBOG + EF) ≤ 0,1 %/EF0,1 %

Where:

— RG/Fthe ratio between the mass of boil-off gas and marine fuel consumed at berth (MBOG/MF)

This second development can also be expressed in the following way:

RG/F ≥ (SF (%) · EF0,1 % – 0,1 % · EF)/ 0,1 % · EBOG

2. 
Since the energy values of the different marine fuels involved in the formula are largely similar, it is justified to use standard values for EF0,1 %, EF and EBOG in order to simplify the application of the formula in practice. More particularly, the following standard energy values may be presumed to apply:

EF0,1 %43,0 MJ/kg (source: DNV Petroleum Services)EF40,8 MJ/kg (source: DNV Petroleum Services)EBOG50,0 MJ/kg (ISO energy figure for methane)

The formula would accordingly be simplified as follows:

RG/F ≥ 8,6 · SF (%) – 0,816

On this basis, the only value that needs to be introduced to the formula to arrive at the required ratio between the mass of boil-off gas and marine fuel consumed (RG/F or MBOG/MF) is the sulphur content of the marine fuel used while at berth. By means of examples, the table below indicates the minimum ratio required to meet the equivalence criteria for marine fuels with different sulphur contents.


Sulphur content (%) 1,0 1,5 2,0 2,5 3,0 3,5
MBOG/MF 7,8 12,1 16,4 20,7 25,0 29,3
