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Directive 2009/30/EC of the European Parliament and of the CouncilShow full title

Directive 2009/30/EC of the European Parliament and of the Council of 23 April 2009 amending Directive 98/70/EC as regards the specification of petrol, diesel and gas-oil and introducing a mechanism to monitor and reduce greenhouse gas emissions and amending Council Directive 1999/32/EC as regards the specification of fuel used by inland waterway vessels and repealing Directive 93/12/EEC (Text with EEA relevance)

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ANNEX

ANNEX IENVIRONMENTAL SPECIFICATIONS FOR MARKET FUELS TO BE USED FOR VEHICLES EQUIPPED WITH POSITIVE-IGNITION ENGINES

Type: Petrol

a

Test methods shall be those specified in EN 228:2004. Member States may adopt the analytical method specified in replacement EN 228:2004 standard if it can be shown to give at least the same accuracy and at least the same level of precision as the analytical method it replaces.

b

The values quoted in the specification are ‘true values’. In the establishment of their limit values, the terms of EN ISO 4259:2006 ‘Petroleum products — Determination and application of precision data in relation to methods of test’ have been applied and in fixing a minimum value, a minimum difference of 2R above zero has been taken into account (R = reproducibility). The results of individual measurements shall be interpreted on the basis of the criteria described in EN ISO 4259:2006.

c

Member States may decide to continue to permit the placing on the market of unleaded regular grade petrol with a minimum motor octane number (MON) of 81 and a minimum research octane number (RON) of 91.

d

The summer period shall begin no later than 1 May and shall not end before 30 September. For Member States with low ambient summer temperatures the summer period shall begin no later than 1 June and shall not end before 31 August.

e

In the case of Member States with low ambient summer temperatures and for which a derogation is in effect in accordance with Article 3(4) and (5), the maximum vapour pressure shall be 70 kPa. In the case of Member States for which a derogation is in effect in accordance with Article 3(4) and (5) for petrol containing ethanol, the maximum vapour pressure shall be 60 kPa plus the vapour pressure waiver specified in Annex III.

f

Other mono-alcohols and ethers with a final boiling point no higher than that stated in EN 228:2004.

ParameteraUnitLimitsb
MinimumMaximum
Research octane number95c
Motor octane number85
Vapour pressure, summer perioddkPa60,0e
Distillation:

  • percentage evaporated at 100 °C

% v/v46,0

  • percentage evaporated at 150 °C

% v/v75,0
Hydrocarbon analysis:

  • olefins

% v/v18,0

  • aromatics

% v/v35,0

  • benzene

% v/v1,0
Oxygen content% m/m3,7
Oxygenates

  • Methanol

% v/v3,0

  • Ethanol (stabilising agents may be necessary)

% v/v10,0

  • Iso-propyl alcohol

% v/v12,0

  • Tert-butyl alcohol

% v/v15,0

  • Iso-butyl alcohol

% v/v15,0

  • Ethers containing five or more carbon atoms per molecule

% v/v22,0

  • Other oxygenatesf

% v/v15,0
Sulphur contentmg/kg10,0
Lead contentg/l0,005

ANNEX IIENVIRONMENTAL SPECIFICATIONS FOR MARKET FUELS TO BE USED FOR VEHICLES EQUIPPED WITH COMPRESSION IGNITION ENGINES

Type: Diesel

a

Test methods shall be those specified in EN 590:2004. Member States may adopt the analytical method specified in replacement EN 590:2004 standard if it can be shown to give at least the same accuracy and at least the same level of precision as the analytical method it replaces.

b

The values quoted in the specification are ‘true values’. In the establishment of their limit values, the terms of EN ISO 4259:2006 ‘Petroleum products — Determination and application of precision data in relation to methods of test’ have been applied and in fixing a minimum value, a minimum difference of 2R above zero has been taken into account (R = reproducibility). The results of individual measurements shall be interpreted on the basis of the criteria described in EN ISO 4259:2006.

c

FAME shall comply with EN 14214.

ParameteraUnitLimitsb
MinimumMaximum
Cetane number51,0
Density at 15 °Ckg/mc845,0
Distillation:

  • 95 % v/v recovered at:

°C360,0
Polycyclic aromatic hydrocarbons% m/m8,0
Sulphur contentmg/kg10,0
FAME content — EN 14078% v/v7,0c

ANNEX IIIVAPOUR PRESSURE WAIVER PERMITTED FOR PETROL CONTAINING BIOETHANOL

Bioethanol content (% v/v)Vapour pressure waiver permitted (kPa)
00
13,65
25,95
37,20
47,80
58,0
68,0
77,94
87,88
97,82
107,76

The permitted vapour pressure waiver for intermediate bioethanol content between the values listed shall be determined by a straight line interpolation between the bioethanol content immediately above and that immediately below the intermediate value.

ANNEX IVRULES FOR CALCULATING LIFE CYCLE GREENHOUSE EMISSIONS FROM BIOFUELS

A.Typical and default values for biofuels if produced with no net carbon emissions from land use change

a

Not including animal oil produced from animal by-products classified as category 3 material in accordance with Regulation (EC) No 1774/2002 of the European Parliament and of the Council of 3 October 2002 laying down health rules concerning animal by-products not intended for human consumptionb.

Biofuel production pathwayTypical greenhouse gas emission savingDefault greenhouse gas emission saving
Sugar beet ethanol61 %52 %
Wheat ethanol (process fuel not specified)32 %16 %
Wheat ethanol (lignite as process fuel in CHP plant)32 %16 %
Wheat ethanol (natural gas as process fuel in conventional boiler)45 %34 %
Wheat ethanol (natural gas as process fuel in CHP plant)53 %47 %
Wheat ethanol (straw as process fuel in CHP plant)69 %69 %
Corn (maize) ethanol, Community produced (natural gas as process fuel in CHP plant)56 %49 %
Sugar cane ethanol71 %71 %
The part from renewable sources of ethyl-Tertio-butyl-ether (ETBE)Equal to that of the ethanol production Pathway used
The part from renewable sources of tertiary-amyl-ethyl-ether (TAEE)Equal to that of the ethanol production pathway used
Rape seed biodiesel45 %38 %
Sunflower biodiesel58 %51 %
Soybean biodiesel40 %31 %
Palm oil biodiesel (process not specified)36 %19 %
Palm oil biodiesel (process with methane capture at oil mill)62 %56 %
Waste vegetable or animala oil biodiesel88 %83 %
Hydrotreated vegetable oil from rape seed51 %47 %
Hydrotreated vegetable oil from sunflower65 %62 %
Hydrotreated vegetable oil from palm oil (process not specified)40 %26 %
Hydrotreated vegetable oil from palm oil (process with methane capture at oil mill)68 %65 %
Pure vegetable oil from rape seed58 %57 %
Biogas from municipal organic waste as compressed natural gas80 %73 %
Biogas from wet manure as compressed natural gas84 %81 %
Biogas from dry manure as compressed natural gas86 %82 %

B.Estimated typical and default values for future biofuels that were not on the market or were on the market only in negligible quantities in January 2008, if produced with no net carbon emissions from land use change

Biofuel production pathwayTypical greenhouse gas emission savingDefault greenhouse gas emission saving
Wheat straw ethanol87 %85 %
Waste wood ethanol80 %74 %
Farmed wood ethanol76 %70 %
Waste wood Fischer-Tropsch diesel95 %95 %
Farmed wood Fischer-Tropsch diesel93 %93 %
Waste wood dimethylether (DME)95 %95 %
Farmed wood DME92 %92 %
Waste wood methanol94 %94 %
Farmed wood methanol91 %91 %
The part from renewable sources of methyl-tertio-butyl-ether (MTBE)Equal to that of the methanol production pathway used

C.Methodology

1.Greenhouse gas emissions from the production and use of biofuels shall be calculated as:

E = eec + el + ep + etd + eu esca eccs eccr eee

where

E

=

total emissions from the use of the fuel;

eec

=

emissions from the extraction or cultivation of raw materials;

el

=

annualised emissions from carbon stock changes caused by land use change;

ep

=

emissions from processing;

etd

=

emissions from transport and distribution;

eu

=

emissions from the fuel in use;

esca

=

emission savings from soil carbon accumulation via improved agricultural management;

eccs

=

emission savings from carbon capture and geological storage;

eccr

=

emission savings from carbon capture and replacement; and

eee

=

emission savings from excess electricity from cogeneration.

Emissions from the manufacture of machinery and equipment shall not be taken into account.

2.Greenhouse gas emissions from fuels, E, shall be expressed in terms of grams of CO2 equivalent per MJ of fuel, gCO2eq/MJ.
3.By derogation from point 2, values calculated in terms of gCO2eq/MJ may be adjusted to take into account differences between fuels in useful work done, expressed in terms of km/MJ. Such adjustments shall only be made where evidence of the differences in useful work done is provided.
4.Greenhouse gas emission savings from biofuels shall be calculated as:

SAVING = (EF EB )/EF

where

EB

=

total emissions from the biofuel; and

EF

=

total emissions from the fossil fuel comparator.

5.The greenhouse gases taken into account for the purposes of point 1 shall be CO2, N2O and CH4. For the purpose of calculating CO2 equivalence, those gases shall be valued as follows:
CO2

:

1

N2O

:

296

CH4

:

23

6.Emissions from the extraction or cultivation of raw materials, eec, shall include emissions from the extraction or cultivation process itself; from the collection of raw materials; from waste and leakages; and from the production of chemicals or products used in extraction or cultivation. Capture of CO2 in the cultivation of raw materials shall be excluded. Certified reductions of greenhouse gas emissions from flaring at oil production sites anywhere in the world shall be deducted. Estimates of emissions from cultivation may be derived from the use of averages calculated for smaller geographical areas than those used in the calculation of the default values, as an alternative to using actual values.
7.Annualised emissions from carbon stock changes caused by land use change, el, shall be calculated by dividing total emissions equally over 20 years. For the calculation of those emissions the following rule shall be applied:

el = (CSR CSA ) × 3,664 × 1/20 × 1/PeB (1),

where

el

=

annualised greenhouse gas emissions from carbon stock change due to land use change (measured as mass of CO2-equivalent per unit biofuel energy);

CSR

=

the carbon stock per unit area associated with the reference land use (measured as mass of carbon per unit area, including both soil and vegetation). The reference land use shall be the land use in January 2008 or 20 years before the raw material was obtained, whichever was the later;

CSA

=

the carbon stock per unit area associated with the actual land use (measured as mass of carbon per unit area, including both soil and vegetation). In cases where the carbon stock accumulates over more than one year, the value attributed to CSA shall be the estimated stock per unit area after 20 years or when the crop reaches maturity, whichever is the earlier;

P

=

the productivity of the crop (measured as biofuel energy per unit area per year); and

eB

=

bonus of 29 gCO2eq/MJ biofuel if biomass is obtained from restored degraded land under the conditions provided for in point 8.

8.The bonus of 29 gCO2eq/MJ shall be attributed if evidence is provided that the land:
(a)

was not in use for agriculture or any other activity in January 2008; and

(b)

falls into one of the following categories:

(i)

severely degraded land, including such land that was formerly in agricultural use;

(ii)

heavily contaminated land.

The bonus of 29 gCO2eq/MJ shall apply for a period of up to 10 years from the date of conversion of the land to agricultural use, provided that a steady increase in carbon stocks as well as a sizable reduction in erosion phenomena for land falling under (i) are ensured and that soil contamination for land falling under (ii) is reduced.

9.The categories mentioned in point 8(b) are defined as follows:
(a)

‘severely degraded land’ means land that, for a significant period of time, has either been significantly salinated or presented significantly low organic matter content and been severely eroded;

(b)

‘heavily contaminated land’ means land that is unfit for the cultivation of food and feed due to soil contamination.

Such land shall include land that has been the subject of a Commission decision in accordance with the fourth subparagraph of Article 7c(3).

10.The guide adopted pursuant to point 10 of Part C of Annex V to Directive 2009/28/EC shall serve as the basis of the calculation of land carbon stocks for the purposes of this Directive.
11.Emissions from processing, ep , shall include emissions from the processing itself; from waste and leakages; and from the production of chemicals or products used in processing.

In accounting for the consumption of electricity not produced within the fuel production plant, the greenhouse gas emission intensity of the production and distribution of that electricity shall be assumed to be equal to the average emission intensity of the production and distribution of electricity in a defined region. As an exception to this rule producers may use an average value for an individual electricity production plant for electricity produced by that plant, if that plant is not connected to the electricity grid.

12.Emissions from transport and distribution, etd , shall include emissions from the transport and storage of raw and semi-finished materials and from the storage and distribution of finished materials. Emissions from transport and distribution to be taken into account under point 6 shall not be covered by this point.
13.Emissions from the fuel in use, eu , shall be taken to be zero for biofuels.
14.Emission savings from carbon capture and geological storage eccs , that have not already been accounted for in ep , shall be limited to emissions avoided through the capture and sequestration of emitted CO2 directly related to the extraction, transport, processing and distribution of fuel.
15.Emission savings from carbon capture and replacement, eccr , shall be limited to emissions avoided through the capture of CO2 of which the carbon originates from biomass and which is used to replace fossil-derived CO2 used in commercial products and services.
16.Emission savings from excess electricity from cogeneration, eee , shall be taken into account in relation to the excess electricity produced by fuel production systems that use cogeneration except where the fuel used for the cogeneration is a co-product other than an agricultural crop residue. In accounting for that excess electricity, the size of the cogeneration unit shall be assumed to be the minimum necessary for the cogeneration unit to supply the heat that is needed to produce the fuel. The greenhouse gas emission savings associated with that excess electricity shall be taken to be equal to the amount of greenhouse gas that would be emitted when an equal amount of electricity was generated in a power plant using the same fuel as the cogeneration unit.
17.Where a fuel production process produces, in combination, the fuel for which emissions are being calculated and one or more other products (co-products), greenhouse gas emissions shall be divided between the fuel or its intermediate product and the co-products in proportion to their energy content (determined by lower heating value in the case of co-products other than electricity).
18.For the purposes of the calculation referred to in point 17, the emissions to be divided shall be eec + el + those fractions of ep , etd and eee that take place up to and including the process step at which a co-product is produced. If any allocation to co-products has taken place at an earlier process step in the life-cycle, the fraction of those emissions assigned in the last such process step to the intermediate fuel product shall be used for this purpose instead of the total of those emissions.

All co-products, including electricity that does not fall under the scope of point 16, shall be taken into account for the purposes of that calculation, except for agricultural crop residues, including straw, bagasse, husks, cobs and nut shells. Co-products that have a negative energy content shall be considered to have an energy content of zero for the purpose of the calculation.

Wastes, agricultural crop residues, including straw, bagasse, husks, cobs and nut shells, and residues from processing, including crude glycerine (glycerine that is not refined), shall be considered to have zero life-cycle greenhouse gas emissions up to the process of collection of those materials.

In the case of fuels produced in refineries, the unit of analysis for the purposes of the calculation referred to in point 17 shall be the refinery.

19.For the purposes of the calculation referred to in point 4, the fossil fuel comparator EF shall be the latest available actual average emissions from the fossil part of petrol and diesel consumed in the Community as reported under this Directive. If no such data are available, the value used shall be 83,8 gCO2eq/MJ.

D.Disaggregated default values for biofuels

Disaggregated default values for cultivation: ‘eec’ as defined in Part C of this Annex
a

Not including animal oil produced from animal by-products classified as category 3 material in accordance with Regulation (EC) No 1774/2002.

Biofuel production pathwayTypical greenhouse gas emissions(gCO2eq/MJ)Default greenhouse gas emissions(gCO2eq/MJ)
Sugar beet ethanol1212
Wheat ethanol2323
Corn (maize) ethanol, Community produced2020
Sugar cane ethanol1414
The part from renewable sources of ETBEEqual to that of the ethanol production pathway used
The part from renewable sources of TAEEEqual to that of the ethanol production pathway used
Rape seed biodiesel2929
Sunflower biodiesel1818
Soybean biodiesel1919
Palm oil biodiesel1414
Waste vegetable or animala oil biodiesel00
Hydrotreated vegetable oil from rape seed3030
Hydrotreated vegetable oil from sunflower1818
Hydrotreated vegetable oil from palm oil1515
Pure vegetable oil from rape seed3030
Biogas from municipal organic waste as compressed natural gas00
Biogas from wet manure as compressed natural gas00
Biogas from dry manure as compressed natural gas00
Disaggregated default values for processing (including excess electricity): ‘ep – eee’ as defined in Part C of this Annex
Biofuel production pathwayTypical greenhouse gas emissions(gCO2eq/MJ)Default greenhouse gas emissions(gCO2eq/MJ)
Sugar beet ethanol1926
Wheat ethanol (process fuel not specified)3245
Wheat ethanol (lignite as process fuel in CHP plant)3245
Wheat ethanol (natural gas as process fuel in conventional boiler)2130
Wheat ethanol (natural gas as process fuel in CHP plant)1419
Wheat ethanol (straw as process fuel in CHP plant)11
Corn (maize) ethanol, Community produced (natural gas as process fuel in CHP plant)1521
Sugar cane ethanol11
The part from renewable sources of ETBEEqual to that of the ethanol production pathway used
The part from renewable sources of TAEEEqual to that of the ethanol production pathway used
Rape seed biodiesel1622
Sunflower biodiesel1622
Soybean biodiesel1826
Palm oil biodiesel (process not specified)3549
Palm oil biodiesel (process with methane capture at oil mill)1318
Waste vegetable or animal oil biodiesel913
Hydrotreated vegetable oil from rape seed1013
Hydrotreated vegetable oil from sunflower1013
Hydrotreated vegetable oil from palm oil (process not specified)3042
Hydrotreated vegetable oil from palm oil (process with methane capture at oil mill)79
Pure vegetable oil from rape seed45
Biogas from municipal organic waste as compressed natural gas1420
Biogas from wet manure as compressed natural gas811
Biogas from dry manure as compressed natural gas811
Disaggregated default values for transport and distribution: ‘etd’ as defined in Part C of this Annex
Biofuel production pathwayTypical greenhouse gas emissions(gCO2eq/MJ)Default greenhouse gas emissions(gCO2eq/MJ)
Sugar beet ethanol22
Wheat ethanol22
Corn (maize) ethanol, Community produced22
Sugar cane ethanol99
The part from renewable sources of ETBEEqual to that of the ethanol production pathway used
The part from renewable sources of TAEEEqual to that of the ethanol production pathway used
Rape seed biodiesel11
Sunflower biodiesel11
Soybean biodiesel1313
Palm oil biodiesel55
Waste vegetable or animal oil biodiesel11
Hydrotreated vegetable oil from rape seed11
Hydrotreated vegetable oil from sunflower11
Hydrotreated vegetable oil from palm oil55
Pure vegetable oil from rape seed11
Biogas from municipal organic waste as compressed natural gas33
Biogas from wet manure as compressed natural gas55
Biogas from dry manure as compressed natural gas44
Total for cultivation, processing, transport and distribution
Biofuel production pathwayTypical greenhouse gas emissions(gCO2eq/MJ)Default greenhouse gas emissions(gCO2eq/MJ)
Sugar beet ethanol3340
Wheat ethanol (process fuel not specified)5770
Wheat ethanol (lignite as process fuel in CHP plant)5770
Wheat ethanol (natural gas as process fuel in conventional boiler)4655
Wheat ethanol (natural gas as process fuel in CHP plant)3944
Wheat ethanol (straw as process fuel in CHP plant)2626
Corn (maize) ethanol, Community produced (natural gas as process fuel in CHP plant)3743
Sugar cane ethanol2424
The part from renewable sources of ETBEEqual to that of the ethanol production pathway used
The part from renewable sources of TAEEEqual to that of the ethanol production pathway used
Rape seed biodiesel4652
Sunflower biodiesel3541
Soybean biodiesel5058
Palm oil biodiesel (process not specified)5468
Palm oil biodiesel (process with methane capture at oil mill)3237
Waste vegetable or animal oil biodiesel1014
Hydrotreated vegetable oil from rape seed4144
Hydrotreated vegetable oil from sunflower2932
Hydrotreated vegetable oil from palm oil (process not specified)5062
Hydrotreated vegetable oil from palm oil (process with methane capture at oil mill)2729
Pure vegetable oil from rape seed3536
Biogas from municipal organic waste as compressed natural gas1723
Biogas from wet manure as compressed natural gas1316
Biogas from dry manure as compressed natural gas1215

E.Estimated disaggregated default values for future biofuels that were not on the market or were only on the market in negligible quantities in January 2008

Disaggregated values for cultivation: ‘eec’ as defined in Part C of this Annex
Biofuel production pathwayTypical greenhouse gas missions(gCO2eq/MJ)Default greenhouse gas emissions(gCO2eq/MJ)
Wheat straw ethanol33
Waste wood ethanol11
Farmed wood ethanol66
Waste wood Fischer-Tropsch diesel11
Farmed wood Fischer-Tropsch diesel44
Waste wood DME11
Farmed wood DME55
Waste wood methanol11
Farmed wood methanol55
The part from renewable sources of MTBEEqual to that of the methanol production pathway used
Disaggregated values for processing (including excess electricity): ‘ep – eee’ as defined in Part C of this Annex
Biofuel production pathwayTypical greenhouse gas emissions(gCO2eq/MJ)Default greenhouse gas emissions(gCO2eq/MJ)
Wheat straw ethanol57
Wood ethanol1217
Wood Fischer-Tropsch diesel00
Wood DME00
Wood methanol00
The part from renewable sources of MTBEEqual to that of the methanol production pathway used
Disaggregated values for transport and distribution: ‘etd’ as defined in Part C of this Annex
Biofuel production pathwayTypical greenhouse gas emissions(gCO2eq/MJ)Default greenhouse gas emissions(gCO2eq/MJ)
Wheat straw ethanol22
Waste wood ethanol44
Farmed wood ethanol22
Waste wood Fischer-Tropsch diesel33
Farmed wood Fischer-Tropsch diesel22
Waste wood DME44
Farmed wood DME22
Waste wood methanol44
Farmed wood methanol22
The part from renewable sources of MTBEEqual to that of the methanol production pathway used
Total for cultivation, processing, transport and distribution
Biofuel production pathwayTypical greenhouse gas emissions(gCO2eq/MJ)Default greenhouse gas emissions(gCO2eq/MJ)
Wheat straw ethanol1113
Waste wood ethanol1722
Farmed wood ethanol2025
Waste wood Fischer-Tropsch diesel44
Farmed wood Fischer-Tropsch diesel66
Waste wood DME55
Farmed wood DME77
Waste wood methanol55
Farmed wood methanol77
The part from renewable sources of MTBEEqual to that of the methanol production pathway used
(1)

The quotient obtained by dividing the molecular weight of CO2 (44,010 g/mol) by the molecular weight of carbon (12,011 g/mol) is equal to 3,664.

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