Explanatory Memorandum to COM(2014)617 - Laying down calculation methods and reporting requirements pursuant to Directive 98/70/EC relating to the quality of petrol and diesel fuels - Main contents
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dossier | COM(2014)617 - Laying down calculation methods and reporting requirements pursuant to Directive 98/70/EC relating to the quality of petrol ... |
---|---|
source | COM(2014)617 |
date | 06-10-2014 |
Contents
- Brussels, 8.10.2014 COM(2014) 617 final/2
- The quantity of each fuel per fuel type
- Simultaneous co-processing of fossil fuels and biofuels
- Quantity of electric energy consumed
- Upstream greenhouse gas emission reductions shall only be counted if they are associated with projects that have started after 1 January 2011
- Greenhouse gas intensity of biofuels
- Simultaneous co-processing of fuels from non-biological origin and biofuels
- Country
- Top Algerian
- Cabinda
- Takula
- Country
- 0.036
- Country
- Light Sour Blend
- Country
- Northblend Nevis
- Canadian Condensate
- Canadian Common
- Country
- Christina Lake
- Premium Albian Synthetic (PAS)
- Seal Heavy(SH)
- Doba Blend
- Taching (Daqing)
- 0.178
- 3.079
- Country
- 0.282
- 0.082
- Country
- Rabi
- Country
- Country
- Bahrgansar/Nowruz (SIRIP Blend)
- Bahr/Nowruz
- Country
- 44.2 NA
- Magwa (Lower Jurassic)
- Burgan (Wafra)
- Bu Attifel
- Amna (high pour)
- Country
- 0.037
- Country
- Country
- Country
- Country
- Country
- Country
- Larosa/Lagun
- 102 Tj (25)
- Country
- Masila Blend
- 30-31
- Methodology
- Baseline greenhouse gas intensity calculation
- x represents the different fuels and energy carriers falling within the scope of the Directive and as defined in the table below
- YES
- YES
- 5. Upstream emission reduction is defined in Annex I Part 1 point 4(d); reporting
- 10. Total volume may exceed the total volume of actual fuel and electric energy consumed as
ANNEXES 1 to 4
CORRIGENDUM
This document corrects document COM(2014)617 final of 6.10.2014
Concerns EN, DE, BG, ES, IT and SV (coverpage - reference and date were missing)
ANNEXES
Methodology for the calculation and reporting of the life cycle greenhouse gas intensity
of fuels and energy by fuel suppliers
to the
Proposal for a Council Directive on laying down calculation methods and reporting
requirements pursuant to Directive 98/70/EC of the European Parliament and of the
Council relating to the quality of petrol and diesel fuels
{SWD(2014) 295 final} {SWD(2014) 296 final}
Annex I
Methodology for the calculation and reporting of the life cycle greenhouse gas intensity
of fuels and energy by fuel suppliers
Part 1:
When calculating a fuel supplier's greenhouse gas intensity of fuels and energy:
1. The greenhouse gas intensity for fuels and energy is expressed in terms of grams of carbon dioxide equivalent per Mega Joule of fuel (gCO2eq/MJ);
2. The greenhouse gases taken into account for the purposes of calculating the greenhouse gas intensity of fuel is carbon dioxide (CO2), nitrous oxide (N2O) and methane (CH4). For the purpose of calculating CO2 equivalence, emissions of those gases are valued in terms of CO2 equivalent emissions as follows:
CO2: 1; CH4: 25; N2O: 298
3. Emissions from the manufacture of machinery and equipment utilized in extraction, production, refining and consumption of fossil fuels shall not be taken into account in the greenhouse gas calculation.
4. A fuel supplier's greenhouse gas intensity from the life cycle of all fuels supplied shall be calculated in accordance with the formula below:
^ (GHGix xAFx MJx ) - UER A supplier’s greenhouse gas intensity (#) = —-------
/ j x
Where:
(a) “#”means the supplier’s identification (person liable to pay duty) defined in Regulation (EC) No 684/2009 as the Trader Excise Number (SEED registration number or VAT ID number in Table 1 point 5 (a) of Annex I to that Regulation for Destination Type codes 1, 2, 3, 4, 5 and 8) which is also the entity liable to pay the excise duty in accordance with Article 8 of Council Directive 2008/118/EC at the time excise duty became chargeable in accordance with Article 7(2) of Directive 2008/118/EC. If this identification is not available Member States shall ensure that an equivalent means of identification is established in accordance with a national excise duty reporting scheme.
(b) “x” means the fuel and energy types falling within the scope of this Directive as expressed in Table 1 - point17(c) of Annex I to Regulation (EC) No 684/2009. If these data are not available, Member States shall collect equivalent data in accordance with a nationally established excise duty reporting scheme.
(c) “MJx” means the total energy supplied and converted from reported volumes of fuel “x” expressed in Mega Joules. This is calculated as follows:
Is derived from data reported pursuant to Table 1 – point 17 (d), (f), and (o) of Annex I to Regulation (EC) No 684/2009. Biofuel quantities are converted to
their lower-heat-value energy content pursuant to the energy densities set out in Annex III to Directive 2009/28/EC1. Quantities of fuels from non-biological origin are converted to their lower-heat-value energy content pursuant to energy densities set out in Appendix 1 to the JEC Well-to-Tank report2.
Processing includes any modification during the life cycle of a fuel or energy supplied causing a change to the molecular structure of the product. The addition of denaturant does not fall under this processing. The volume of biofuels co-processed with fuels from non-biological origin reflects the postprocessing state of the biofuel. The energy quantity of the co-processed biofuel is determined according to the energy balance and efficiency of the coprocessing process as set out in Annex IV (17) of Directive 98/70/EC.
Where multiple biofuels are blended with fossil fuels the quantity and type of each biofuel is taken into account in the calculation and reported by suppliers to the Member States.
The volume of biofuel supplied that does not meet the requirements of Article 7b(1) of Directive 98/70/EC is counted as fossil fuel.
E85 petrol-ethanol blend shall be calculated as a separate fuel for the purpose of Article 6 of Regulation (EC) No 443/2009 of the European Parliament and of the Council3.
If quantities are not collected pursuant to Regulation (EC) No 684/2009, Member States shall collect equivalent data in accordance with a nationally established excise duty reporting scheme.
Is the amount of electricity consumed in road vehicles or motorcycles where an energy supplier reports this amount of energy to the relevant authority in the Member State in accordance with the following formula:
Electric energy consumed = distance travelled (km) x electric energy consumption efficiency (MJ/km).
(d) UER
“UER” is the upstream emission reduction of greenhouse gases claimed by a fuel supplier measured in gCO2eq if quantified and reported in accordance with the following requirements:
Directive 2009/28/EC of the European Parliament and of the Council of 23 April 2009 on the promotion of the use of energy from renewable sources and amending and subsequently repealing Directives 2001/77/EC and 2003/30/EC (OJ L 140, 5.6.2009, p.16). iet.jrc.ec.europa.eu/about-jec/sites/about-jec
2
3
Eligibility
Voluntary greenhouse gas emission reductions at oil and gas production and extraction sites shall only be applied to the upstream emission's part of the default values for petrol, diesel, CNG or LPG.
Upstream greenhouse gas emission reductions originating from any country may be counted as a reduction in greenhouse gas emissions against fuels from any feedstock source supplied by any fuel supplier.
Upstream greenhouse gas emission reductions shall only be counted if they are associated with projects that have started after 1 January 2011
It is not necessary to prove that upstream emission reductions would not have taken place without the Article 7a reporting requirement.
Calculation
Greenhouse gas reductions associated with oil and gas upstream emissions will be estimated and validated in accordance with principles and standards identified in International Standards and in particular ISO 14064, ISO 14065 and ISO 14066.
The UERs and baseline emissions are to be monitored, reported and verified in accordance with ISO 14064 and providing results of equivalent confidence of Regulation (EU) No 600/2012 and Regulation (EU) No 601/2012. The verification of methods for estimating UERs must be done in accordance with ISO 14064-3 and the organisation verifying this must be accredited in accordance with ISO 14065.
(e) “GHGix” is the unit greenhouse gas intensity of fuel “x” expressed in gCO2eq/MJ. Fuel suppliers shall define the unit intensity of each fuel as follows:
Greenhouse gas intensity of fuels from a non-biological origin is the “weighted unit life cycle greenhouse gas intensity” per fuel type listed in the last column of the table under Part 2 point (5) of this Annex.
Electrical energy is calculated as described in Part 2 point (6) below.
The greenhouse gas intensity of biofuels meeting the requirements of Article 7b(1) of Directive 98/70/EC is calculated in accordance with Article 7d of that Directive. In case data on the life cycle greenhouse gas emissions of biofuels was obtained in accordance with an agreement or scheme that has been the subject of a decision pursuant Article 7c(4) of Directive 98/70/EC covering Article 7b(2) of that Directive this data is also be used to establish the greenhouse gas intensity of biofuels under Article 7b(1) of that Directive. The greenhouse gas intensity for biofuels not meeting the requirements of Article
7b(1) of Directive 98/70/EC is equal to the greenhouse intensity of the respective fossil fuel derived from conventional crude oil or gas.
The greenhouse gas intensity of biofuels co-processed with fossil fuels shall reflect the post-processing state of the biofuel.
(f) “AF” represents the adjustment factors for powertrain efficiencies:
Predominant conversion technology | Efficiency factor |
Internal combustion engine | 1 |
Battery electric powertrain | 0.4 |
Hydrogen fuel cell electric powertrain | 0.4 |
Part 2: Reporting by fuel suppliers
(1) Upstream Emissions reductions (UERs)
In order for upstream emissions reductions to be eligible for the purposes of this methodology fuel suppliers shall report to the authority designated by the Member States the:
(i) starting date of the project which must be after 1 January 2011;
(ii) annual emission reductions in gCO2eq;
(iii) duration for which the claimed reductions occurred;
(iv) project location closest to the source of the emissions in latitude and longitude coordinates in degrees to the fourth decimal place;
(v) baseline annual emissions prior to installation of reduction measures and annual emissions after the reduction measures have been implemented in gCO2eq/MJ of feedstock produced;
(vi) non-reusable certificate number uniquely identifying the scheme and the claimed greenhouse gas reductions
(vii) non-reusable number uniquely identifying the calculation method and the associated scheme;
(viii) where the project relates to oil extraction, the average annual historical and reporting year gas-to-oil ratio (GOR) in solution, reservoir pressure, depth and well production rate of the crude oil.
(2) Origin
"Origin" means the feedstock trade name listed in Part 2 point (7) of this Annex but only where fuel suppliers hold the necessary information by virtue of (i) being a person or undertaking importing crude oil from third countries or receiving a crude oil delivery from another Member State pursuant to Article 1 of Council Regulation (EC) No 2964/95; or (ii) arrangements to share information agreed with other fuel suppliers. In all other cases, origin shall refer to whether the fuel is of EU or non-EU origin.
The information collected and reported by fuel suppliers to the Member States concerning the origin of fuels shall be confidential but this shall not prevent the publication by the Commission of general information or information in summary form which does not contain details relating to individual undertakings.
For biofuels origin means the biofuel production pathway set out in Annex IV of Directive 98/70/EC.
Where multiple feedstocks are used, the quantity in metric tonnes of finished product per type of each feedstock produced in the respective processing facility during the reporting year shall be provided.
(3) Place of purchase
"Place of purchase" means the country and name of the processing facility where the fuel or energy underwent the last substantial transformation used to confer the origin of the fuel or energy in accordance with Commission Regulation (EEC) No 2454/93.
(4) Small and medium-sized enterprises
By way of derogation for fuel suppliers that are small and medium-sized enterprises, 'origin' and 'place of purchase' is either EU or non-EU, as appropriate, irrespective of whether they import crude oil or they supply petroleum oils and oils obtained from bituminous materials.
(5) 2010 average life cycle greenhouse gas default values for fuels other than biofuels and electric energy
Raw material source and process | Fuel or energy type placed on the market | Life cycle unit GHG intensity (gCO2eq/MJ) | Weighted life cycle unit GHG intensity (gCO2eq/MJ) |
Conventional crude | Petrol | 93.2 | 93.3 |
Natural Gas-to-Liquid | 94.3 | ||
Coal-to-Liquid | 172 | ||
Natural bitumen | 107 | ||
Oil shale | 131.3 | ||
Conventional crude | Diesel or gasoil | 95 | 95.1 |
Natural Gas-to-Liquid | 94.3 | ||
Coal-to-Liquid | 172 | ||
Natural bitumen | 108.5 | ||
Oil shale | 133.7 | ||
Any fossil sources | Liquefied Petroleum Gas in a spark ignition engine | 73.6 | 73.6 |
Natural Gas, EU | Compressed Gas | 69.3 | 69.3 |
mix | in a spark ignition engine | ||
Natural Gas, EU | Liquefied Gas in | 74.5 | 74.5 |
mix | a spark ignition engine | ||
Sabatier reaction | Compressed | 3.3 | 3.3 |
of hydrogen from | synthetic | ||
non-biological | methane in a | ||
renewable energy | spark ignition | ||
electrolysis | engine | ||
Natural gas using | Compressed | 104.3 | 104.3 |
steam reforming | Hydrogen in a fuel cell | ||
Electrolysis fully | Compressed | 9.1 | 9.1 |
powered by non- | Hydrogen in a | ||
biological | fuel cell | ||
renewable energy | |||
Coal | Compressed Hydrogen in a fuel cell | 234.4 | 234.4 |
Coal with Carbon | Hydrogen in a | 52.7 | 52.7 |
Capture and | fuel cell | ||
Storage of process | |||
emissions | |||
Waste plastic | Petrol, diesel or | 86 | 86 |
derived from | gasoil | ||
fossil feedstocks |
Electrical energy
For the reporting by energy suppliers of electricity consumed by electric vehicles and motorcycles, Member States should calculate national average life cycle default values in accordance with appropriate International Standards.
Alternatively Member States may permit their suppliers to establish unit greenhouse gas intensity values (gCO2eq/MJ) for electricity from data reported by Member States on the basis of:
(i) Regulation (EC) No 1099/2008 of the European Parliament and of the Council of 22 October 2008 on energy statistics or,
(ii) Regulation (EU) No 525/2013 of the European Parliament and of the Council on a mechanism for monitoring and reporting greenhouse gas emissions and for reporting other information at national and Union level relevant to climate change or,
(iii) Commission delegated regulation (EU) No 666/2014 establishing substantive requirements for a Union inventory system and taking into account changes in the global warming potentials and internationally agreed inventory guidelines pursuant to Regulation (EU) No 525/2013 of the European Parliament and of the Council.
Feedstock trade name
Country | Feedstock trade name | API | Sulphur (wt %) |
Abu Dhabi | Al Bunduq | 38.5 | 1.1 |
Abu Dhabi | Mubarraz | 38.1 | 0.9 |
Abu Dhabi | Murban | 40.5 | 0.8 |
Abu Dhabi | Zakum (Lower Zakum/Abu Dhabi Marine) | 40.6 | 1 |
Abu Dhabi | Umm Shaif (Abu Dhabi Marine) | 37.4 | 1.5 |
Abu Dhabi | Arzanah | 44 | 0 |
Abu Dhabi | Abu Al Bu Khoosh | 31.6 | 2 |
Abu Dhabi | Murban Bottoms | 21.4 | NOT AVAILABLE (NA) |
Abu Dhabi | Top Murban | 21 | NA |
Abu Dhabi | Upper Zakum | 34.4 | 1.7 |
Algeria | Arzew | 44.3 | 0.1 |
Algeria
Algeria
Algeria
Algeria
Algeria
Algeria
Algeria
Algeria
Algeria
Algeria
Algeria
Angola
Angola
Angola
Angola
Angola
Angola
Angola
Angola
Angola
Angola
Angola
Angola
Angola
Feedstock trade name
API
Hassi Messaoud
Zarzaitine
Algerian
Skikda
Saharan Blend
Hassi Ramal
Algerian Condensate
Algerian Mix
Algerian Condensate (Arzew)
Algerian Condensate (Bejaia)
42.8
43
44
44.3
45.5
60
64.5
45.6
65.8
65.0
24.6
31.7
Soyo Blend
Mandji
Malongo (West)
Cavala-1
Sulele (South-1)
Palanca
Malongo (North)
Malongo (South)
Nemba
Girassol
Kuito
33.7
33.7
29.5
26
42.3
38.7
40
30
25
38.5
31.3
20
Sulphur (wt %)
0.2
0.1
0.1
0.1
0.1
0.1
NA
0.2
NA
0.2
0.1
0.2
1.3
NA
NA
NA
0.14
NA
NA
NA
NA
0
0
0
Angola
Angola
Angola
Angola
Angola
Angola
Angola
Angola
Argentina
Argentina
Argentina
Argentina
Argentina
Argentina
Armenia
Australia
Australia
Australia
Australia
Australia
Australia
Australia
Feedstock trade name
Hungo
Kissinje
Dalia
Gimboa
Mondo
Plutonio
Saxi Batuque Blend
Xikomba
Tierra del Fuego
Santa Cruz
Escalante
Canadon Seco
Hidra
Medanito
Armenian Miscellaneous
Jabiru
Kooroopa (Jurassic)
Talgeberry (Jurassic)
Talgeberry (Up Cretaceous)
Woodside Condensate
Saladin-3 (Top Barrow)
Harriet
API
28.8
30.5
23.6
23.7
28.8
33.2
33.2
34.4
42.4
26.9
24
27
51.7
34.93
NA
42.3
42
43
51
51.8
49
38
Sulphur (wt %)
NA
0.37
1.48
0.65
0.44
0.36
0.41
NA
NA
0.2
0.2
0.05
0.48
NA
0.03
NA
NA
NA
NA
NA
NA
Country
Australia
Australia
Australia
Australia
Australia
Australia
Australia
Australia
Australia
Australia
Australia
Azerbaijan
Bahrain
Belarus
Benin
Benin
Belize
Belize
Bolivia
Brazil
Brazil
Brazil
Brazil
Brazil
Feedstock trade name
Skua-3 (Challis Field)
Barrow Island
Northwest Shelf Condensate
Jackson Blend
Cooper Basin
Griffin
Buffalo Crude
Cossack
Elang
Enfield
Gippsland (Bass Strait)
Azeri Light
Bahrain Miscellaneous
Belarus Miscellaneous
Seme
Benin Miscellaneous
Belize Light Crude
Belize Miscellaneous
Bolivian Condensate
Garoupa
Sergipano
Campos Basin
Urucu (Upper Amazon)
Marlim
API
43
36.8
53.1
41.9
45.2
55
53
48.2
56.2
21.7
45.4
34.8
NA
NA
22.6
NA
40
NA
58.8
30.5
25.1
20
42
20
Sulphur (wt %)
NA
0.1
0.02
0.03
NA
0.04
NA
0.13
0.1
0.15
NA
NA
0.5
NA
NA
NA
0.1
0.1
0.4
NA
NA
NA
0
0
Brazil
Brazil
Brazil
Brazil
Brunei
Brunei
Brunei
Brunei
Brunei
Brunei
Cameroon
Cameroon
Cameroon
Cameroon
Cameroon
Cameroon
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Feedstock trade name
Brazil Polvo
Roncador
Roncador Heavy
Albacora East
Seria Light
Champion
Champion Condensate
Brunei LS Blend
Brunei Condensate
Champion Export
Kole Marine Blend
Lokele
Moudi Light
Moudi Heavy
Ebome
Cameroon Miscellaneous
Peace River Light
Peace River Medium
Peace River Heavy
Manyberries
Rainbow Light and Medium
Pembina
Bells Hill Lake
Fosterton Condensate
API
19.6
28.3
18
19.8
36.2
24.4
65
32
65
23.9
34.9
21.5
40
21.3
32.1
NA
41
33
23
36.5
40.7
33
32
63
Sulphur (wt %)
1.14
0.58
NA
0.52
0.1
0.1
0.1
0.1
NA
0.12
0.3
0.5
NA
NA
0.35
NA
NA
NA
NA
NA
NA
NA
NA
NA
Country
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Feedstock trade name
Rangeland Condensate
Redwater
Lloydminster
Wainwright- Kinsella
Bow River Heavy
Fosterton
Smiley-Coleville
Midale
Milk River Pipeline
Ipl-Mix Sweet
Ipl-Mix Sour
Ipl Condensate
Aurora Light
Aurora Condensate
Reagan Field
Synthetic Canada
Cold Lake
Cold Lake Blend
Canadian Federated
Chauvin
Gcos
Gulf Alberta L & M
Lloyd Blend
Peace River Condensate
API
67.3
35
20.7
23.1
26.7
21.4
22.5
29
36
40
38
55
39.5
65
35
30.3
13.2
26.9
39.4
22
23
35.1
35
22
54.9
Sulphur (wt %)
NA
NA
2.8
2.3
2.4
2.2
2.4
1.4
0.2
0.5
0.3
0.4
0.3
0.2
1.7
4.1
0.3
2.7
NA
1.2
2.8
NA
3
3
1
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Feedstock trade name
API
Sarnium Condensate
Saskatchewan Light
Sweet Mixed Blend
Syncrude
Rangeland – South L & M
57.7
32.9
38
32
39.5
34
Common
55
Waterton Condensate
Panuke Condensate
Federated Light and Medium
Wabasca
Hibernia
BC Light
Boundary
Albian Heavy
Koch Alberta
Terra Nova
Echo Blend
Western Canadian Blend
Western Canadian Select
White Rose
Access
Premium Albian Synthetic
39
65.1
56
39.7
23
37.3
40
39
21
34
32.3
20.6
19.8
20.5
31.0
22
20.9
Sulphur (wt %)
NA
NA
0.5
0.1
0.5
NA
NA
0.3
NA
NA
NA
0.37
NA
NA
NA
NA
NA
3.15
3.33
0.31
NA
NA
2
3
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Canada
Chile
Chad
Chad
China
China
China
China
China
China
Feedstock trade name
API
Heavy
Albian Residuum (ARB)
Blend
20.03
CNRL
Husky Synthetic Blend
20.5
34
31.91
35.5
Suncor Synthetic A (OSA)
Suncor Synthetic H (OSH)
Peace Sour
Western Canadian Resid
Christina Dilbit Blend
Christina Lake Dilbit
Chile Miscellaneous
19.89
33.61
19.53
33
20.7
21.0
38.08
NA
Doba Blend Production)
(Early
24.8
Production)
(Later
20.8
Shengli
Beibu
Chengbei
Lufeng
Xijiang
33
24.2
NA
17
34.4
28
Sulphur (wt %)
2.62
NA
0.11
0.04
4.54
NA
NA
NA
3.80
NA
0.14
0.17
0.1
NA
NA
NA
NA
3
1
China
China
China
China
China
Colombia
Colombia
Colombia
Colombia
Colombia
Colombia
Colombia
Colombia
Colombia
Colombia
Colombia
Colombia
Colombia
Colombia
Colombia
Colombia
Congo (Brazzaville)
Congo (Brazzaville)
Feedstock trade name
Wei Zhou
Liu Hua
Boz Hong
Peng Lai
Xi Xiang
Onto
Putamayo
Rio Zulia
Orito
Cano-Limon
Lasmo
Cano Duya-1
Corocora-1
Suria Sur-1
Tunane-1
Casanare
Cusiana
Vasconia
Castilla Blend
Cupiaga
South Blend
Emeraude
Djeno Blend
API
39.9
21
17
21.8
32.18
35.3
35
40.4
34.9
30.8
30
28
31.6
32
29
23
44.4
27.3
20.8
43.11
28.6
23.6
26.9
Sulphur (wt %)
NA
NA
0.29
0.09
0.5
0.5
0.3
0.5
0.5
NA
NA
NA
NA
NA
NA
0.2
0.6
1.72
0.72
0.5
0.3
Country | Feedstock trade name | API | Sulphur (wt %) |
Congo (Brazzaville) | Viodo Marina-1 | 26.5 | NA |
Congo (Brazzaville) | Nkossa | 47 | 0.03 |
Congo (Kinshasa) | Muanda | 34 | 0.1 |
Congo (Kinshasa) | Congo/Zaire | 31.7 | 0.1 |
Congo (Kinshasa) | Coco | 30.4 | 0.15 |
Cote d’Ivoire | Espoir | 31.4 | 0.3 |
Cote d’Ivoire | Lion Cote | 41.1 | 0.101 |
Denmark | Dan | 30.4 | 0.3 |
Denmark | Gorm | 33.9 | 0.2 |
Denmark | Danish North Sea | 34.5 | 0.26 |
Dubai | Dubai (Fateh) | 31.1 | 2 |
Dubai | Margham Light | 50.3 | 0 |
Ecuador | Oriente | 29.2 | 1 |
Ecuador | Quito | 29.5 | 0.7 |
Ecuador | Santa Elena | 35 | 0.1 |
Ecuador | Limoncoha-1 | 28 | NA |
Ecuador | Frontera-1 | 30.7 | NA |
Ecuador | Bogi-1 | 21.2 | NA |
Ecuador | Napo | 19 | 2 |
Ecuador | Napo Light | 19.3 | NA |
Feedstock trade name
Egypt
Belayim
Egypt
Egypt
Egypt
Egypt
Egypt
Egypt
Egypt
Egypt
El Morgan
Rhas Gharib
Gulf of Suez Mix
Geysum
East Gharib (J-1)
Mango-1
Rhas Budran
Zeit Bay
Egypt
East Zeit Mix
Equatorial Guinea
Zafiro
Equatorial Guinea
Alba Condensate
Equatorial Guinea Ceiba
Gabon
Gamba
Gabon
Gabon
Gabon
Gabon
Gabon
Gabon
Gabon
Gabon
Gabon
Mandji
Lucina Marine
Oguendjo
Rabi-Kouanga
T’Catamba
Rabi Blend
Rabi Light
Etame Marin
API
27.5
29.4
24.3
31.9
19.5
37.9
35.1
25
34.1
39
30.3
55
30.1
31.8
30.5
39.5
35
34
44.3
33.4
34
37.7
36
Sulphur (wt %)
2.2
1.7
3.3
1.5
NA
NA
NA
NA
0.1
0.87
NA
NA
0.42
0.1
1.1
0.1
NA
0.6
0.21
0.06
NA
0.15
NA
Country
Gabon
Gabon
Georgia
Ghana
Ghana
Guatemala
Guatemala
India
Indonesia Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Feedstock trade name
Olende
Gabonian Miscellaneous
Georgian Miscellaneous
Bonsu
Salt Pond
Coban
Rubelsanto
Bombay High
Minas (Sumatron Light) Ardjuna
Attaka
Suri
Sanga Sanga
Sepinggan
Walio
Arimbi
Poleng
Handil
Jatibarang
Cinta
Bekapai
Katapa
Salawati
Duri (Sumatran Heavy)
API
17.6
NA
NA
32
37.4
27.7
27
39.4
34.5
35.2
42.3
18.4
25.7
37.9
34.1
31.8
43.2
32.8
29
33.4
40
52
38
21.1
Sulphur (wt %)
1.54
NA
NA
0.1
0.1
NA
NA
0.2
0.1
0.1
0.1
0.2
0.2
0.9
0.7
0.2
0.2
0.1
0.1
0.1
0.1
0.1
0.5
0.2
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Indonesia
Iran
Feedstock trade name
Sembakung
Badak
Arun Condensate
Udang
Klamono
Bunya
Pamusian
Kerindigan
Melahin
Bunyu
Camar
Cinta Heavy
Lalang
Kakap
Sisi-1
Giti-1
Ayu-1
Bima
Padang Isle
Intan
Sepinggan - Yakin Mixed
Widuri
Belida
Senipah
Iranian Light
API
37.5
41.3
54.5
38
18.7
31.7
18.1
21.6
24.7
31.7
36.3
27
40.4
46.6
40
33.6
34.3
22.5
34.7
32.8
31.7
32
45.9
51.9
33.8
Sulphur (wt %)
0.1
0.1
NA
0.1
0.1
0.2
0.3
0.3
0.1
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
0.1
0.1
0.03
1.4
1
0
Iran
Iran
Iran
Iran
Iran
Iran
Iran
Iran
Iran
Iran
Iran
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Feedstock trade name
API
Iranian Heavy
Soroosh (Cyrus)
Dorrood (Darius)
Rostam
Salmon (Sassan)
Foroozan (Fereidoon)
Aboozar (Ardeshir)
Sirri
31
18.1
33.6
35.9
33.9
31.3
26.9
30.9
27.1
Iranian Miscellaneous
Basrah Light (Pers. Gulf)
Kirkuk (Pers. Gulf)
Mishrif (Pers. Gulf)
Bai Hasson (Pers. Gulf)
Basrah Medium (Pers. Gulf)
Basrah Heavy (Pers. Gulf)
Kirkuk Blend (Pers. Gulf)
N. Rumalia (Pers. Gulf)
Ras el Behar
Basrah Light (Red Sea)
Kirkuk (Red Sea)
Mishrif (Red Sea)
Bai Hasson (Red Sea)
25.0
NA
33.7
35.1
28
34.1
31.1
24.7
35.1
34.3
33
33.7
36.1
28
34.1
Sulphur (wt %)
1.7
3.3
2.4
1.55
1.9
2.5
2.5
2.3
2.5
2.5
NA
1.9
NA
2.4
2.6
3.5
NA
1.9
NA
2.4
2
2
2
2
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Iraq
Kazakhstan
Kazakhstan
Kuwait
Kuwait
Kuwait
Libya
Libya
Libya
Feedstock trade name
Basrah Medium (Red Sea)
Basrah Heavy (Red Sea)
Kirkuk Blend (Red Sea)
N. Rumalia (Red Sea)
Ratawi
Basrah Light (Turkey)
Kirkuk (Turkey)
Mishrif (Turkey)
Bai Hasson (Turkey)
Basrah Medium (Turkey)
Basrah Heavy (Turkey)
Kirkuk Blend (Turkey)
N. Rumalia (Turkey)
FAO Blend
Kumkol
CPC Blend
API
31.1
24.7
34
34.3
23.5
33.7
36.1
28
34.1
31.1
24.7
34
34.3
27.7
42.5
Mina al Ahmadi (Kuwait Export)
31.4
38
23.3
43.6
Brega
36.1
40.4
Sulphur (wt %)
2.6
3.5
1.9
4.1
1.9
NA
2.4
2.6
3.5
1.9
3.6
0.07
0.54
2.5
NA
3.4
0.2
0.2
2
2
2
0
Libya
Libya
Libya
Libya
Libya
Libya
Libya
Libya
Malaysia
Malaysia
Malaysia
Malaysia
Malaysia
Malaysia
Malaysia
Malaysia
Malaysia
Mauritania
Mexico
Mexico
Mexico
Mexico
Mexico
Netherlands
Feedstock trade name
Sirtica
Zueitina
Bunker Hunt
El Hofra
Dahra
Sarir
Zueitina Condensate
El Sharara
Miri Light
Tembungo
Labuan Blend
Tapis
Tembungo
Bintulu
Bekok
Pulai
Dulang
Chinguetti
Isthmus
Maya
Olmeca
Altamira
Topped Isthmus
Alba
API
43.3
41.3
37.6
42.3
41
38.3
65
42.1
36.3
37.5
33.2
44.3
37.4
26.5
49
42.6
39
28.2
32.8
22
39
16
26.1
19.59
Sulphur (wt %)
0.43
0.3
0.2
0.3
0.4
0.2
0.1
0.07
0.1
NA
0.1
0.1
0.1
NA
NA
0.51
1.5
3.3
NA
NA
1.72
NA
0
Neutral Zone
Neutral Zone
Neutral Zone
Neutral Zone
Neutral Zone
Neutral Zone
Neutral Zone
Nigeria
Nigeria
Nigeria
Nigeria
Nigeria
Nigeria
Nigeria
Nigeria
Nigeria
Nigeria
Nigeria
Nigeria
Nigeria
Nigeria
Nigeria
Nigeria
Nigeria
Feedstock trade name
Eocene (Wafra)
Hout
Khafji
Burgan (Wafra)
Ratawi
Neutral Zone Mix
Khafji Blend
Forcados Blend
Escravos
Brass River
Qua Iboe
Bonny Medium
Pennington
Bomu
Bonny Light
Brass Blend
Gilli Gilli
Adanga
Iyak-3
Antan
OSO
Ukpokiti
Yoho
Okwori
API
18.6
32.8
28.5
23.3
23.5
23.1
23.4
29.7
36.2
40.9
35.8
25.2
36.6
33
36.7
40.9
47.3
35.1
36
35.2
47
42.3
39.6
36.9
Sulphur (wt %)
4.6
1.9
2.9
3.4
4.1
NA
3.8
0.3
0.1
0.1
0.1
0.2
0.1
0.2
0.1
0.1
NA
NA
NA
NA
0.06
0.01
NA
NA
Country | Feedstock trade name | API | Sulphur (wt %) |
Nigeria | Bonga | 28.1 | NA |
Nigeria | ERHA | 31.7 | 0.21 |
Nigeria | Amenam Blend | 39 | 0.09 |
Nigeria | Akpo | 45.17 | 0.06 |
Nigeria | EA | 38 | NA |
Nigeria | Agbami | 47.2 | 0.044 |
Norway | Ekofisk | 43.4 | 0.2 |
Norway | Tor | 42 | 0.1 |
Norway | Statfjord | 38.4 | 0.3 |
Norway | Heidrun | 29 | NA |
Norway | Norwegian Forties | 37.1 | NA |
Norway | Gullfaks | 28.6 | 0.4 |
Norway | Oseberg | 32.5 | 0.2 |
Norway | Norne | 33.1 | 0.19 |
Norway | Troll | 28.3 | 0.31 |
Norway | Draugen | 39.6 | NA |
Norway | Sleipner Condensate | 62 | 0.02 |
Oman | Oman Export | 36.3 | 0.8 |
Papua New Guinea | Kutubu | 44 | 0.04 |
Peru | Loreto | 34 | 0.3 |
Peru | Talara | 32.7 | 0.1 |
Peru | High Cold Test | 37.5 | NA |
Peru | Bayovar | 22.6 | NA |
Country | Feedstock trade name | API | Sulphur (wt %) |
Peru | Low Cold Test | 34.3 | NA |
Peru | Carmen Central-5 | 20.7 | NA |
Peru | Shiviyacu-23 | 20.8 | NA |
Peru | Mayna | 25.7 | NA |
Philippines | Nido | 26.5 | NA |
Philippines | Philippines Miscellaneous | NA | NA |
Qatar | Dukhan | 41.7 | 1.3 |
Qatar | Qatar Marine | 35.3 | 1.6 |
Qatar | Qatar Land | 41.4 | NA |
Ras Al Khaimah | Rak Condensate | 54.1 | NA |
Ras Al Khaimah | Ras Al Khaimah Miscellaneous | NA | NA |
Russia | Urals | 31 | 2 |
Russia | Russian Export Blend | 32.5 | 1.4 |
Russia | M100 | 17.6 | 2.02 |
Russia | M100 Heavy | 16.67 | 2.09 |
Russia | Siberian Light | 37.8 | 0.4 |
Russia | E4 (Gravenshon) | 19.84 | 1.95 |
Russia | E4 Heavy | 18 | 2.35 |
Russia | Purovsky Condensate | 64.1 | 0.01 |
Russia | Sokol | 39.7 | 0.18 |
Saudi Arabia | Light (Pers. Gulf) | 33.4 | 1.8 |
Saudi Arabia | Heavy (Pers. Gulf) (Safaniya) | 27.9 | 2.8 |
Saudi Arabia | Medium (Pers. Gulf) (Khursaniyah) | 30.8 | 2.4 |
Saudi Arabia
Saudi Arabia
Saudi Arabia
Saudi Arabia
Saudi Arabia
Saudi Arabia
Sharjah
Sharjah
Singapore
Spain
Spain
Spain
Syria
Syria
Syria
Syria
Syria
Syria
Thailand
Thailand
Thailand
Thailand
Thailand
Trinidad
Feedstock trade name
API
Extra Light (Pers. Gulf) (Berri)
and
Light (Yanbu)
Heavy (Yanbu)
Medium (Yanbu)
Berri (Yanbu)
Medium (Zuluf/Marjan)
Mubarek. Sharjah
Sharjah Condensate
Rantau
Amposta Marina North
Casablanca
El Dorado
Syrian Straight
Thayyem
Omar Blend
Omar
Syrian Light
Souedie
Erawan Condensate
Sirikit
Nang Nuan
Bualuang
Benchamas
Galeota Mix
37.8
33.4
27.9
30.8
37.8
31.1
37
49.7
50.5
37
34
26.6
15
35
38
36.5
36
24.9
54.1
41
30
27
42.4
32.8
Sulphur (wt %)
1.1
1.2
2.8
2.4
1.1
2.5
0.6
0.1
0.1
NA
NA
NA
NA
NA
NA
0.1
0.6
3.8
NA
NA
NA
NA
0.12
0.3
Feedstock trade name
Tobago
Trinidad Tobago
and
Trintopec
Trinidad Tobago
and
Land/Trinmar
Trinidad Tobago
and
Tunisia
Tunisia
Tunisia
Tunisia
Turkey
Ukraine
United Kingdom
United Kingdom
United Kingdom
United Kingdom
United Kingdom
United Kingdom
United Kingdom
United Kingdom
United Kingdom
United Kingdom
United Kingdom
United Kingdom
Calypso Miscellaneous
Zarzaitine
Ashtart
El Borma
Ezzaouia-2
Turkish Miscellaneous
Ukraine Miscellaneous
Auk
Beatrice
Brae
Buchan
Claymore
S.V. (Brent)
Tartan
Tern
Magnus
Dunlin
Fulmar
Hutton
API
24.8
23.4
30.84
41.9
29
43.3
41.5
NA
NA
37.2
38.7
33.6
33.7
30.5
36.7
41.7
35
39.3
34.9
40
30.5
Sulphur (wt %)
NA
1.2
0.59
0.1
0.1
NA
NA
NA
0.5
0.05
0.7
0.8
1.6
0.3
0.6
0.7
0.3
0.4
0.3
0.7
1
Country | Feedstock trade name | API | Sulphur (wt %) |
United Kingdom | N.W. Hutton | 36.2 | 0.3 |
United Kingdom | Maureen | 35.5 | 0.6 |
United Kingdom | Murchison | 38.8 | 0.3 |
United Kingdom | Ninian Blend | 35.6 | 0.4 |
United Kingdom | Montrose | 40.1 | 0.2 |
United Kingdom | Beryl | 36.5 | 0.4 |
United Kingdom | Piper | 35.6 | 0.9 |
United Kingdom | Forties | 36.6 | 0.3 |
United Kingdom | Brent Blend | 38 | 0.4 |
United Kingdom | Flotta | 35.7 | 1.1 |
United Kingdom | Thistle | 37 | 0.3 |
United Kingdom | S.V. (Ninian) | 38 | 0.3 |
United Kingdom | Argyle | 38.6 | 0.2 |
United Kingdom | Heather | 33.8 | 0.7 |
United Kingdom | South Birch | 38.6 | NA |
United Kingdom | Wytch Farm | 41.5 | NA |
United Kingdom | Cormorant. North | 34.9 | 0.7 |
United Kingdom | Cormorant. South (Cormorant “A”) | 35.7 | 0.6 |
United Kingdom | Alba | 19.2 | NA |
United Kingdom | Foinhaven | 26.3 | 0.38 |
United Kingdom | Schiehallion | 25.8 | NA |
United Kingdom | Captain | 19.1 | 0.7 |
United Kingdom | Harding | 20.7 | 0.59 |
US Alaska | ANS | NA | NA |
Feedstock trade name
US Colorado
US New Mexico
US North Dakota
US North Dakota
US Texas
US Texas
US Utah
US Federal OCS
US Federal OCS
US Federal OCS
US Federal OCS
US Federal OCS
US Federal OCS
US Federal OCS
US Federal OCS
US Federal OCS
US Federal OCS
US Federal OCS
Uzbekistan
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Niobrara
Four Corners
Bakken
North Dakota Sweet
WTI
Eagle Ford
Covenant
Beta
Carpinteria
Dos Cuadras
Hondo
Hueneme
Pescado
Point Arguello
Point Pedernales
Sacate
Santa Clara
Sockeye
Uzbekistan Miscellaneous
Jobo (Monagas)
Lama Lamar
Mariago
Ruiz
Tucipido
Venez Lot 17
API
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
12.6
36.7
27
32.4
36
36.3
Sulphur (wt %)
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
1.5
1.3
0.3
0.9
2
1
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Feedstock trade name
Mara 16/18
Tia Juana Light
Tia Juana Med 26
Officina
Bachaquero
Cento Lago
Lagunillas
La Rosa Medium
San Joaquin
Lagotreco
Lagocinco
Boscan
Leona
Barinas
Sylvestre
Mesa
Ceuta
Lago Medio
Tigre
Anaco Wax
Santa Rosa
Bombai
Aguasay
Anaco
BCF-Bach/Lagl7
API
16.5
32.1
24.8
35.1
16.8
36.9
17.8
25.3
42
29.5
36
10.1
24.1
26.2
28.4
29.2
31.8
31.5
24.5
41.5
49
19.6
41.1
43.4
16.8
Sulphur (wt %)
3.5
1.1
1.6
0.7
2.4
1.1
2.2
1.7
0.2
1.3
1.1
5.5
1.5
1.8
1.2
1.2
1.2
NA
0.2
0.1
1.6
0.3
0.1
2.4
1
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Feedstock trade name
BCF-Bach/Lag21
BCF-21.9
BCF-24
BCF-31
BCF Blend
Bolival Coast
Ceuta/Bach 18
Corridor Block
Cretaceous
Guanipa
Lago Mix Med.
Menemoto
Cabimas
BCF-23
Oficina/Mesa
Pilon
Recon (Venez)
Tjl Cretaceous
Tia Juana Pesado (Heavy)
Mesa-Recon
Oritupano
Hombre Pintado
Merey
API
20.4
21.9
23.5
31
34
23.5
18.5
26.9
42
30
23.4
23.8
19.3
20.8
23
32.2
13.8
34
25
39
12.1
28.4
19
29.7
17.4
Sulphur (wt %)
2.1
NA
1.9
1.2
1.8
2.3
1.6
0.4
0.7
1.9
1.8
2.2
1.8
1.9
0.9
NA
1.6
0.6
2.7
1.3
0.3
2.2
1
2
2
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Feedstock trade name
Lago Light
Laguna
Bach/Cueta Mix
Bachaquero 13
Ceuta - 28
Temblador
Lagomar
Taparito
BCF-Heavy
BCF-Medium
Caripito Blend
Laguna/Ceuta Mix
Morichal
Pedenales
Quiriquire
Tucupita
Furrial-2 (E. Venezuela)
Curazao Blend
Santa Barbara
Cerro Negro
BCF22
Hamaca
Zuata 10
Zuata 20
Zuata 30
API
41.2
11.2
24
13
28
23.1
32
17
16.7
22
17.8
18.1
10.6
20.1
16.3
17
27
18
36.5
15
21.1
26
15
25
35
Sulphur (wt %)
0.4
0.3
1.2
2.7
1.6
0.8
1.2
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
2.11
1.55
NA
NA
NA
Country
Venezuela
Venezuela
Venezuela
Venezuela
Venezuela
Vietnam
Vietnam
Vietnam Vietnam
Vietnam
Yemen
Yemen
Yemen
Yemen
Yemen
Any
Any
Any
Any
Any
Any
Feedstock trade name
Monogas
Corocoro
Petrozuata
Morichal 16
Guafita
Bach Ho (White Tiger)
Dai Hung (Big Bear)
Rang Dong Ruby
Su Tu Den (Black Lion)
North Yemeni Blend
Alif
Maarib Lt.
Shabwa Blend
Oil shale
Shale oil
API
15.9
24
19.5
16
28.6
38.6
36.9
37.7
35.6
36.8
40.5
40.4
49
34.6
NA
NA
Natural Gas: piped from source
NA
Natural Gas: from LNG
Shale gas: piped from source
Coal
NA
NA
NA
Sulphur (wt %)
3.3
NA
2.69
NA
0.73
0.1
0.5
0.08
0.05
NA
0.1
0.2
0.6
0.6
NA
NA
NA
NA
NA
NA
0
Annex II Calculation of the baseline greenhouse gas intensity of fossil fuels
(a) The baseline greenhouse gas intensity is calculated based on Union average fossil fuel consumption of petrol, diesel, gasoil, LPG and CNG, where:
x
Where:
x represents the different fuels and energy carriers falling within the scope of the Directive and as defined in the table below
GHGix is the unit greenhouse gas intensity of the annual supply sold on the market of fuel x or energy carrier falling within the scope of this Directive expressed in gCO2eq/MJ. The values for fossil fuels presented in Annex I Part 2 point (5) are used.
MJx is the total energy supplied and converted from reported volumes of fuel x expressed in Mega Joules.
(b) Consumption data The consumption data used for calculation of the value is as follows:
Fuel | Energy Consumption (MJ) | Source |
diesel | 7 894 969 x 106 | 2010 Member States reporting to UNFCCC |
non-road gasoil | 240 763 x 106 | |
petrol | 3 844 356 x 106 | |
LPG | 217 563 x 106 | |
CNG | 51 037 x 106 |
Greenhouse gas intensity
The greenhouse gas intensity for 2010 shall be: 94.1 gCO2eq/MJ
Annex III Member State reporting to the Commission
1. Member States report by 30 June each year the data listed in point 3. Data must be reported for all fuel and energy placed on the market in the Member State. Where multiple biofuels are blended with fossil fuels, the data for each biofuel must be provided.
2. The data listed in point 3 is reported separately for fuel or energy placed on the market by suppliers within a Member State (including joint suppliers operating in a single Member State) and supply placed on the markets of two or multiple Member States by joint suppliers (inter-Member State joint suppliers). Inter-Member State joint supplier data must be further disaggregated to the level of the Member State of each joining supplier.
3. For each fuel, Member States report the following data to the Commission aggregated according to point 2 and as defined in Annex I:
(a) Fuel or energy type;
(b) Volume or quantity of electric energy;
(c) Greenhouse gas intensity;
(d) Upstream emission reductions;
(e) Origin;
(f) Place of purchase.
Annex IV Template for reporting information for consistency of the reported data
Fuel - Single Suppliers
Entry | Joint Reporting (YES/NO) | Country | Supplier 1 | Fuel type7 | Fuel CN code7 | Average GHG intensity | Upstream Emission Reduction5 | Reduction on 2010 average | |
by litres | by energy | ||||||||
1 | |||||||||
CN code | GHG intensity4 | Feedstock | CN code | GHG intensity 4 | sustainable (YES/NO) | ||||
Component F.1 (Fossil Fuel | Component B.1 (Biofuel Component) | ||||||||
Component) | I I I | ||||||||
Component F.n (Fossil Fuel | Component B.m (Biofuel Component) | ||||||||
Component) | I I I | ||||||||
Entry | Joint Reporting | Country | Supplier 1 | Fuel type 7 | Fuel CN code7 | Average GHG | Upstream Emission 5 | Reduction on 2010 | |
by litres | by energy | ||||||||
k | I | ||||||||
k | CN code2 | GHG intensity | Feedstock | CN code2 | GHG intensity 4 | sustainable (YES/NO) | |||
Component F.1 (Fossil Fuel | Component B.1 (Biofuel Component) | ||||||||
Component) | I I I | ||||||||
Component F.n (Fossil Fuel | Component B.m (Biofuel Component) | ||||||||
Component) | I | ||||||||
Fuel - Joint Suppliers
Entry
Joint Reporting (YES/NO)
Country
Supplier 1
Fuel type
Fuel CN code7
Quantity2
by litres
by energy
Average
GHG intensity
Upstream Emission
5
Reduction on 2010 average
YES
Subtotal
GHG CN code 4
intensity
Component F.1 (Fossil Fuel Component)
Component F.n (Fossil Fuel Component)
Feedstock
CN code
GHG
___
sustainable (YES/NO)
Component B.1 (Biofuel Component)
Component B.m (Biofuel Component)
Entry
Joint Reporting
(YES/NO)
Country Supplier 1
Fuel type
Fuel CN code7
Quantity2
Average GHG
___
Upstream Emission
Reduction on 2010
average
YES
Subtotal
CN code2
GHG intensity
Component F.1 (Fossil Fuel Component)
Component F.n (Fossil Fuel Component)
Feedstock
CN code2
GHG intensity
sustainable (YES/NO)
Component B.1 (
l Component)
Component B.m (
l Component)
Electricity
Joint Reporting (YES/NO) | Country | Supplier1 | Energy type 7 | Quantity 6 | GHG intensity | Reduction on 2010 average |
by energy | ||||||
NO |
Joint Supplier Information | ||||||
Country | Supplier1 | Energy type 7 | Quantity 6 | GHG intensity | Reduction on 2010 | |
by energy | ||||||
YES | ||||||
YES | ||||||
Subtotal |
7
4
7
by litres
by ener
X
4
Origin – Single Suppliers8
Entry 1 | component F.1 | Entry 1 | component F.n | Entry k | component F.1 | Entry k | component F.n | ||||
Feedstock Trade Name | API density 3 | Tonnes | Feedstock Trade Name | API density 3 | Tonnes | Feedstock Trade Name | API density 3 | Tonnes | Feedstock Trade Name | API density 3 | Tonnes |
Entry 1 | component B.1 | Entry 1 | component B.m | Entry k | component B.1 | Entry k | component B.m | ||||
Bio Pathway | API density 3 | Tonnes | Bio Pathway | API density 3 | Tonnes | Bio Pathway | API density 3 | Tonnes | Bio Pathway | API density 3 | Tonnes |
Origin – Joint Suppliers8
Entry I | component F.1 | Entry I | component F.n | Entry X | component F.1 | Entry X | component F.n | ||||
Feedstock Trade Name | API density 3 | Tonnes | Feedstock Trade Name | API density 3 | Tonnes | Feedstock Trade Name | API density 3 | Tonnes | Feedstock Trade Name | API density 3 | Tonnes |
Entry I | component B.1 | Entry I | component B.m | Entry X | component B.1 | Entry X | component B.m | ||||
Bio Pathway | API density 3 | Tonnes | Bio Pathway | API density 3 | Tonnes | Bio Pathway | API density 3 | Tonnes | Bio Pathway | API density 3 | Tonnes |
Place of Purchase9
Entry | Componen t | Refinery/ Processing Facility Names | Country | Refine ry/ Processing Facility Names | Country | Refinery/ P roce ssi n g Facility Names | Country | Re fine ry/ Processing Facility Names | Country | Refine ry/ Processing Facility Names | Country | Refinery/ Processing Facility Names | Country |
1 | F.1 | ||||||||||||
1 | F.n | ||||||||||||
1 | B.1 | ||||||||||||
1 | B.m | ||||||||||||
k | F.1 | ||||||||||||
k | F.n | ||||||||||||
k | B.1 | ||||||||||||
k | B.m | ||||||||||||
I | F.1 | ||||||||||||
I | F.n | ||||||||||||
I | B.1 | ||||||||||||
I | B.m | ||||||||||||
X | F.1 | ||||||||||||
X | F.n | ||||||||||||
X | B.1 | ||||||||||||
X | B.m |
Total energy reported and reduction achieved per Member State
Volume (by energy)10 | GHG intensity | Reduction on 2010 |
Format Notes
Template for supplier reporting is identical to the template for Member State reporting. Shaded cells do not have to be filled in.
1. Supplier identification is defined in Annex I Part 1 point 4(a);
2. Quantity of fuel is defined in Annex I Part 1 point 4(c);
3. API density is defined pursuant to testing method ASTM D287;
4. Greenhouse gas intensity is defined in Annex I Part 1 point 4(e);
specifications are defined in Annex I Part 2 point (1)
6. Quantity of electricity is defined in Annex I Part 2 point (6);
7. Fuel types and corresponding CN codes are defined in Annex I Part 1 point 4(b);
8. Origin is defined in Annex I Part 2 point (2) and Annex I Part 2 point (4);
9. Place of Purchase is defined in Annex I Part 2 point (3) and Annex I Part 2 point (4);
this sum could include volumes from suppliers reporting jointly with suppliers from other Member States.