ghg report sample.doc

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2011 Green House Gas Report

ORGANISATION


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CONTENTS :

SECTION HEADER PAGE NO1 THE COMPANY INFORMATIONS 31.1 HISTORY 3

1.2 SHAREHOLDER STRUCTURE 41.3 SUBSIDIARIES AND AFFILIATES 4

2 THE AIM AND THE SCOPE OF GREENHOUSE GAS INVENTORYPREPARATION 42.1 AIM 42.2 SCOPE 42.3 REPORTING FREQUENCY 42.4 REFERENCE DOCUMENT 52.5 TARGET USER OF THE REPORT 52.6 TARGET AUDIENCE WHICH THE REPORT WILL BE ISSUED FOR 52.7 REFERENCE YEAR 52.8 PERSON AND THE GROUPS RESPONSIBLE FROM THE REPORT 52.9 VERIFICATION 53 GREENHOUSE GAS POLICY AND STRATEGIES 63.1 GREENHOUSE GAS POLICY 63.2 GREENHOUSE GAS STRATEGY 64 LIMITS OF THE INSTITUTION 65 THE GREENHOUSE GAS EMISSIONS 7

5.1 THE GREENHOUSE GAS EMISSIONS FOR THE YEAR 2010(REFERENCE YEAR 2010) 95.2 THE GREENHOUSE EMISSIONS FOR THE YEAR 2011 11

6 CALCULATION METHODOLOGIES AND DETERMINATION OF THE

EMISSION FACTORS14


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1. COMPANY INFORMATION:

Organisation is active on the issues of petroleum product sales through retail sales channels. petroleumproducts sales through commercial and industrial sales channels. petroleum and petroleum products storageactivities. production and sales of lubricant. sales of petroleum products in international markets.

LOCATIONS ADDRESS HEAD OFFICEMERSN TERMINALALAA TERMINAL

KRFEZ TERMINALGRESUN TERMINALMARMARA TERMINAL

AEGEAN REGIONAL DIRECTORATECENTRAL ANATOLIA REGIONALDIRECTORATE(Ankara Liaison Office)

ANTALYA REGIONAL DIRECTORATE

EAST REGIONAL DIRECTORATE

1.1 Organisation History:


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Greenhouse gas report covers the direct and energy based emissions within the borders of the institution for

the time interval of 01/01 /2011 - 31/12/2011. The Krkkale forwarding office. Batman liaison office and theMineral Oil Department which is separated from the establishment and now performing in the OrganisationFuch body are considered out of scope of the present inventory.

2.3 Frequency of Reporting:

The frequency of preparation of greenhouse gas report is 1 year.

2.4 Reference Document:

Greenhouse gas report is based on the ISO 14064-1:2006 standard.

2.5 Target User of the Report:

Target users of the greenhouse gas report are the

2.6 Target Audience which the Report will be Issued for:

Greenhouse gas report will be issued to Organisation. Moreover it will be issued in case of:- Request of legal institutions;- Data request within the scope of Global Compact- Data request for sustainability reports.

2.7 Reference Year:

The year 2010 which is covering the period beginning by 01/01/2010 and ended at 31/12/2010 has confirmedthe changements in the operational boundery. By evaluating that the results of the year 2010 will permitmuch more for reliable comparison. it has been considered as the basic year and accordingly Mineral OilD d i i l d d d f h Fi ll i h l l i f h G h


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-Control of Counter: Values read and values in the invoice are compared monthly

- ISO 14064-1 System Verification: The applications of procedures and instructions. calculations tables arechecked according to ISO 14064 management system by the department of Improvement and ManagementSystems at least once a year.

- Control of Activity Data: Activity data is checked quarterly by the Department of Improvement andManagement Systems. Verification date. the responsible and method are recorded to data tables.

- Verification of Method: The verification of methods are the responsibility of the department of Improvementand Management Systems at least once a year. The result is decided according to material error rates.

-Consistency between the Terminals: CO2 tone emission /Mtone is compared between the Terminals by usingthe same method at least once a year.

- Source of Green House Gas and Operational Boundaries: Source of GHG and operational boundaries arereviewed by GHG team at least once a year by using workflow.

During the verification. for the detected non-confirmed results. back to inventory where the error began. GHGinventory is recalculated. If the base year results are affected. inventory is again calculated.

The documentation of ISO 14064 system is integrated into Documentation Management Procedure andQuality Records Procedure

Type of Verification Responsible FrequencyMethod Verifications Department of Improvement and Management

Systems At least once ayear

Activity Data Verifications Ref: The Greenhouse Gas Inventory Authority andResponsibility matrix

Quarterely

Greenhouse Gas Source andO i l Li i

Ref: The Greenhouse Gas Inventory Authority andR ibili i

At least once a


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LOCATION ACTIVITY GREENHOUSE GAS EMISSIONS

HEAD OFFICE Office Activities

Stationary Combustion Direct Emission (Natural Gas)

Mobile Combustion Based Direct Emission (Companyvehicles)Process Based Direct Emission (CO 2 tubes. AC FillingLeakages)Energy Indirect Emission (Electricity)

M TERMINAL Fuel storage andsales activities

Stationary Combustion Based Direct Emission (Boiler.Compressor. Generator. Compressor. Fire DieselPump)Mobile Combustion Based Direct Emission (Companyvehicles. Forklift. Vacuum Truck. Patient Transfer Vehicle)Process Based Direct Emission (CO2 tubes. AC FillingLeakages)Energy Indirect Emission (Electricity)

A TERMINAL Fuel storage andsales activities

Stationary Combustion Based Direct Emission (DieselOil. Fire Diesel Pump. Generator. Compressor)Mobile Combustion Based Direct Emission (Companyvehicles. Forklift)Process Based Direct Emission (CO2 tubes. AC FillingLeakages)Energy Indirect Emission (Electricity)

K TERMINAL Fuel storage andsales activities

Stationary Combustion Based Direct Emission (Boiler.Fuel Oil. Diesel Oil. Generator. Fire Diesel Pump)Mobile Combustion Based Direct Emission (Companyvehicles)Process Based Direct Emission (CO2 tubes. AC FillingLeakages)Energy Indirect Emission (Electricity)Stationary Combustion Based Direct Emission (Boiler.Diesel oil. Generator. Fire Diesel Pump)M bil C b i B d Di E i i (C


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M Terminal. A Terminal. K Terminal. G Terminal. ARM Terminal and Mineral Oil Facility Production areasare owned properties. The Headquarter. Regional Directorate. Central Regional Directorate. Antalya Regional

Directorate. East Regional Directorate office areas are being rented. Their control are in Organisation. Themineral oil department which was part of the company merged with the Fuchs company and performing under the name Organisation Fuchs actually. Herewith the data respect to the mineral oil arnt included in the basicyear (2010) and in the calculated year 2011 as well.

5. GREENHOUSE GAS EMISSIONS

Greenhouse gas emission sources are defined in the Organisation Activity Limits Table with the usage of flow schemes and instructions by Greenhouse Gas Team. Emission sources are evaluated in 3 rd class.

1- Direct Greenhouse Gas Emissions1.1 Direct Greenhouse Gas Emissions Stationary Combustion Diesel Oil1.2 Direct Greenhouse Gas Emissions Stationary Combustion Fuel Oil1.3 Direct Greenhouse Gas Emissions Stationary Combustion Natural Gas1.4 Direct Greenhouse Gas Emissions Stationary Combustion LPG1.5 Direct Greenhouse Gas Emissions Stationary Combustion LNG1.6 Direct Greenhouse Gas Emissions Mobile Combustion Diesel Oil

1.7 Direct Greenhouse Gas Emissions Mobile Combustion Gasoline1.8 Direct Greenhouse Gas Emissions - CO 2 Tubes1.9 Direct Greenhouse Gas Emissions Cooling Systems

The Greenhouse Gas emissions are collected into 3 groups as stationary combustion. mobile combustion andprocess based emissions. Stating that the calculation is made according to the IPCC methodologies. it isshown compliance for the respective classification of IPCC (Stationary combustion based. mobile combustionbased).

2- Energy Based Greenhouse Gas Emissions Purchased Electricity3- Other Indirect Greenhouse Gas Emissions (See Chapter 8)


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5.1 The Greenhouse Gas Emission for the Year 2011 (Refence Year:2010)

Direct Greenhouse Gas Emission ( Stationary Combustion based+ Mobile Combustion Based + Process Based) - 2010

LOCATION A B C D E

GREEENHOUSE GAS EMISSION - TONS CO2 EQUIVALENT CO2EQUIVALENT

CO2EQUIVALENT

CO2EQUIVALENT

CO2EQUIVALENT

Total Direct Greenhouse Gas Emission for CO 2 Gas 182.2584 182.2584 27.3677 27.3677 2510.8415 2510.8415 1956.8592 1956.8592 105.7882 105.7882Total Direct Greenhouse Gas Emission for CH 4 Gas 0.0075 0.1585 0.0014 0.0298 0.1117 2.3457 0.0772 1.6210 0.0048 0.0999Total Direct Greenhouse Gas Emission for N 2O Gas 0.0028 0.8589 0.0014 0.4244 0.0284 8.8009 0.0195 6.0308 0.0026 0.8055Total Direct Greenhouse Gas Emission for HFC Gas 0.0000 0.0000 0.0000 0.0000 0.0450 130.5000 0.0000 0.0000 0.0000 0.0000Total Direct Greenhouse Gas Emission for HFE Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000Total Direct Greenhouse Gas Emission for PFC Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000Total Direct Greenhouse Gas Emission in nature of CO2 Equivalent 153 2 2376 1868 67

Total Direct Mobil Combustion Based GreenhouseEmission ( in nature of CO 2 Equivalent) 31 27 147 98 40Total Direct Process based Greenhouse Emission( in nature of CO 2 Equivalent ) 0 1 131 1 0Total Direct Greenhouse Emission( in nature of CO 2 Equivalent ) 184 30 2654 1967 107

HEAD OFFICE 2010 AEGEAN REGION 2010 ANTALYA REGION 2010CENTRAL ANATOLIAN

REGION 2010

EASTERN REGION

2010GREEENHOUSE GAS EMISSION TONS CO2EQUIVALENTCO2

EQUIVALENTCO2

EQUIVALENTCO2

EQUIVALENTCO2

EQUIVALENTTotal Direct Greenhouse Gas Emission for CO 2 Gas 1344.5787 1344.5787 98.5699 98.5699 86.5595 86.5595 131.1652 131.1652 63.4989 63.4989Total Direct Greenhouse Gas Emission for CH 4 Gas 0.1173 2.4641 0.0052 0.1089 0.0073 0.1541 0.0082 0.1721 0.0033 0.0702Total Direct Greenhouse Gas Emission for N 2O Gas 0.0783 24.2633 0.0052 1.6082 0.0051 1.5880 0.0072 2.2217 0.0033 1.0360Total Direct Greenhouse Gas Emission for HFC Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000Total Direct Greenhouse Gas Emission for HFE Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000Total Direct Greenhouse Gas Emission for PFC Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000Total Direct Greenhouse Gas Emission in nature of CO2 Equivalent 46 0 0 0 0

Total Direct Mobil Combustion Based GreenhouseEmission ( in nature of CO 2 Equivalent) 1326 101 89 134 65

Total Direct Process based Greenhouse Emission( in nature of CO 2 Equivalent ) 0 0 0 0 0Total Direct Greenhouse Emission( in nature of CO 2 Equivalent ) 1372 101 89 134 65

Indirect Energy Greenhouse Gas Emissions - 2010

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2011 Green House Gas ReportHEAD OFFICE IST 2010 AEGEAN REGION 2010 ANTALYA REGION 2010CENTRAL ANATOLIANREGION 2010

EASTERN REGION2010

GREEENHOUSE GAS EMISSION TONS CO2 EQUIVALENT CO2EQUIVALENT

CO2EQUIVALENT

CO2 EQUIVALENT

CO2EQUIVALENT

Total Indirect Energy Greenhouse Gas Emission for CO2 Gas 308.4308 308.4308 18.6679 18.6679 9.4144 9.4144 2.8982 2.8982 5.5168 5.5168Total Indirect Energy Greenhouse Gas Emission for CH4Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000Total Indirect Energy Greenhouse Gas Emission for N2O Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000

Total Indirect Energy Greenhouse Gas Emission for HFC Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000

Total Indirect Energy Greenhouse Gas Emission for HFE Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000Total Indirect Energy Greenhouse Gas Emission for PFC Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000Total Indirect Energy Greenhouse Gas Emission( in nature of CO2 Equivalent ) 309 19 10 3 6

Total Greenhouse Gas Emissions - 2010

GREEENHOUSE GAS EMISSION TONS CO2EQUIVALENT CO2EQUIVALENT

CO2EQUIVALENT

CO2EQUIVALENT

CO2EQUIVALENT

TOTAL GREENHOUSE GAS (DIRECT+ENERGYINDIRECT) EMISSION (in nature of CO2 Equivalent) 482 331 4227 2829 317

HEAD OFFICE IST 2010 AEGEAN REGION 2010 ANTALYA REGION 2010CENTRAL ANATOLIANREGION 2010EASTERN REGION

2010

GREEENHOUSE GAS EMISSION TONSCO2EQUIVALENT

CO2 EQUIVALENT

CO2EQUIVALENT

CO2 EQUIVALENT

CO2 EQUIVALENT


TOTAL GREENHOUSE GAS INVENTORY OF Organisation FOR THE YEAR 2010

2010

(TON - CO 2Equivalent)

SCOPE1 TON CO2 Total Direct Greenhouse Gas Emission of All Facilities (in nature of CO 2 equivalent) 6700SCOPE 2(ELECTRICITY) TONCO2

Total Energy Indirect Greenhouse Gas Emission of all Facilities (in nature of CO 2 Equivalent) 3593

STATIONARY Total Stationary Combustion Based Direct Greenhouse Gas E mission of all Facilities(in nature of CO 2 Equivalent)

4512

MOBILE Total Mobile Combustion Based Direct Greenhouse Gas Emission of all Facilities (innature of CO 2 Equivalent)

2058

PROCESS (CO2. HFC) Total Other Direct Greenhouse Gas Emission of All Facilities (in nature of CO 2equivalent) 132

SCOPE1+2 TOTAL GREENHOUSE GAS (DIRECT+ENERGY INDIRECT) EMISSION OF ALL FACILITIES(in nature of CO 2 Equivalent)- ( Round figure)

10294

5.2 The Greenhouse Gas Emission for the Year 2011

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Direct Greenhouse Gas Emission ( Stationary Combustion based+ Mobil Combustion Based + Process Based) - 2011

GREEENHOUSE GAS EMISSION - TONS CO2 EQUIVALENT CO2 EQUIVALENT

CO2 EQUIVALENT

CO2 EQUIVALENT

CO2 EQUIVALENT

Total Direct Greenhouse Gas Emission for CO 2 Gas 63.5155 63.5155 32.2634 32.2634 2252.2482 2279.6793 1721.6959 1721.6959 120.5868 120.5868Total Direct Greenhouse Gas Emission for CH 4 Gas 0.0026 0.0556 0.0017 0.0349 0.1575 3.3077 0.0684 1.4370 0.0054 0.1126Total Direct Greenhouse Gas Emission for N 2O Gas 0.0010 0.3030 0.0016 0.4826 0.0445 13.7805 0.0188 5.8411 0.0027 0.8474Total Direct Greenhouse Gas Emission for HFC Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000Total Direct Greenhouse Gas Emission for HFE Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000Total Direct Greenhouse Gas Emission for PFC Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000

Total Direct Greenhouse Gas Emission innature of CO2 Equivalent 54 4 1957 1645 82Total Direct Mobil Combustion Based GreenhouseEmission ( in nature of CO2 Equivalent) 26 27 158 118 50Total Direct Process based Greenhouse Emission( in nature of CO2 Equivalent ) 0 0 0 0 0Total Direct Greenhouse Emission( in nature of CO2 Equivalent ) 79 31 2110 1764 131

HEAD OFFICE IST 2011 AEGEAN REGION 2011 ANTALYA REGION 2011CENTRAL ANATOLIANREGION 2011

EASTERN REGION2011

GREEENHOUSE GAS EMISSION - TONS CO2EQUIVALENT CO2EQUIVALENT

CO2EQUIVALENT

CO2EQUIVALENT

CO2EQUIVALENT

Total Direct Greenhouse Gas Emission for CO 2 Gas 1430.7856 1430.7856 92.2481 92.2481 102.6435 102.6435 120.4322 120.4322 69.1209 69.1209Total Direct Greenhouse Gas Emission for CH 4 Gas 0.1111 2.3323 0.0049 0.1020 0.0079 0.1657 0.0069 0.1454 0.0036 0.0764Total Direct Greenhouse Gas Emission for N 2O Gas 0.0801 24.8299 0.0049 1.5051 0.0059 1.8319 0.0065 2.0019 0.0036 1.1278Total Direct Greenhouse Gas Emission for HFC Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000Total Direct Greenhouse Gas Emission for HFE Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000

Total Direct Greenhouse Gas Emission for PFC Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000

Total Direct Greenhouse Gas Emission innature of CO 2 Equivalent 46 0 0 0 0

Total Direct Mobil Combustion Based GreenhouseEmission ( in nature of CO 2 Equivalent) 1326 94 106 106 56

Total Direct Process based Greenhouse Emission

( in nature of CO 2 Equivalent )0 0 0 0 0

Total Direct Greenhouse Emission( in nature of CO 2 Equivalent ) 1372 94 106 106 56

Indirect Energy Greenhouse Gas Emissions - 2011 HEAD OFFICE IST 2011 AEGEAN REGION 2011 ANTALYA REGION 2011 CENTRAL ANATOLIAN EASTERN REGION

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2011 Green House Gas ReportREGION 2011 2011


CO2EQUIVALENT

CO2EQUIVALENT

CO2EQUIVALENT

Total Indirect Energy Greenhouse Gas Emission for CO2 Gas 244.0909 244.0909 13.3929 13.3929 10.2374 10.2374 2.7568 2.7568 6.1569 6.1569Total Indirect Energy Greenhouse Gas Emission for CH4Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000Total Indirect Energy Greenhouse Gas Emission for N2O Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000Total Indirect Energy Greenhouse Gas Emission for HFC Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000


GREEENHOUSE GAS EMISSION TONS CO2 EDEER CO2 EDEER

CO2 EDEER

CO2 EDEER

CO2 EDEER

Total Indirect Energy Greenhouse Gas Emission for CO2 Gas 330.2391 330.2391 294.8915 295.0000 1657.5261 1657.5261 764.4583 764.4583 234.7039 234.7039Total Indirect Energy Greenhouse Gas Emission for CH4Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000Total Indirect Energy Greenhouse Gas Emission for N2O Gas 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000Total Indirect Energy Greenhouse Gas Emission for

HFC Gas0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000


Total Greenhouse Gas Emissions - 2011Location A B C D E


CO2 EQUIVALENT

CO2 EQUIVALENT

CO2 EQUIVALENT

TOTAL GREENHOUSE GAS (DIRECT+ENERGY 410 325 3768 2529 365

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2011 Green House Gas ReportINDIRECT) EMISSION (in nature of CO2 Equivalent)

HEAD OFFICE IST 2011 AEGEAN REGION 2011 ANTALYA REGION 2011CENTRAL ANATOLIANREGION 2011EASTERN REGION

2011GREEENHOUSE GAS EMISSION TONS CO2 EQUIVALENT

CO2EQUIVALENT

CO2 EQUIVALENT

CO2 EQUIVALENT

CO2EQUIVALENT


TOTAL GREENHOUSE GAS INVENTORY OF Organisation FOR THE YEAR 2011

2011

(TON - CO 2Equivalent)

SCOPE1 TON CO2 Total Direct Greenhouse Gas Emission of All Facilities (in nature of CO 2 equivalent) 5623

SCOPE 2(ELECTRICITY) TONCO2

Total Energy Indirect Greenhouse Gas Emission of all Facilities (in nature of CO 2 Equivalent) 3527

STATIONARY Total Stationary Combustion Based Direct Greenhouse Gas Emission of allFacilities (in nature of CO 2 Equivalent) 3800

MOBILETotal Mobile Combustion Based Direct Greenhouse Gas E mission of allFacilities (in nature of CO 2 Equivalent) 1799

PROCESS (CO2. HFC) Total Other Direct Greenhouse Gas Emission of All Facilities (in nature of CO 2equivalent) 1

SCOPE1+2 TOTAL GREENHOUSE GAS (DIRECT+ENERGY INDIRECT) EMISSION OF ALLFACILITIES (in nature of CO 2 Equivalent)- ( Round figure) 9121

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6. CALCULATION METHODOLOGIES AND DETERMINATION OF EMISSION FACTORS

During the selection of calculation methodologies different methods are tried by changing emissionfactors and lower calorific values. The methodology which is applicated for the year 2010 is taken intoconsideration for the year 2011 together with 2006 IPCC Guidelines for National GreenhouseInventories as reference.

The methods which can be used while calculating the Greenhouse Gas Inventory are calculation.measuring or the combination of all. Meanwhile there is no flue gaz data available. The measurementsare made in the periods according to the legal requirements. thus the calculation method is defined. In

the calculation method the alternative methods are taken into consideration and the most adequatemethod minimasing the measurement uncertainty is selected. At the selection of emission factor. incase of plant (Tier 3 and national (Tier 2) sources remains insufficient the international factors (Tier 1)is used respectively.

6.1Direct Greenhouse Gas Emissions Stationary Combustion Based:

SelectedMethod

Formula: Emission Source Consumption Amount * Emission Factor * OxidationFactor

2006 IPCC Guidelines for National Greenhouse Gas InventoriesEmissionFactor

For the Head Office and Regional Directorates:2006 IPCC Guidelines for National Greenhouse Gas InventoriesChapter 2: Stationary Combustion - Volume 2: EnergyTable 2.4: Default emission factors for stationary combustion in the commercial /institutional categoryFor the Terminals;Table 2.2; Default emission factors for stationary combustion in the energyindustries

f


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The fuel used in the stationary combustion declared by the suppliers is taken in the account respect tothe concentration levels.

And the reason of not using the lower calorific values issued in UNFCC- National InventorySubmissions 2011 is that the values issued for Fuel Oil and LNG (Liquefied Natural Gas) are notavailable.

Thus the lower calorific values in calculations are selected from 2006 IPCC Guidelines for NationalGreenhouse Gas Inventories.

Material discrepancy:

As the LNG lower calorific is not issued in anywhere except IPCC. it is calculated by method 1. Therate of greenhouse gas based on total LNG consumption to total Organisation greenhouse gas is%20.5. It does not compose a risk in respect of Material discrepancy in the organizational level.

The greenhouse gas calculation made with IPCC lower calorific value for fuel oil no:4 is 1% lower asper the calculation made with the Energy Efficiency Legislation Annex-2 value. It does not compose arisk at the source level.

Greenhouse gas calculation made with IPCC lower calorific value for diesel oil is 3% lower as per thecalculation made with Energy Efficiency Legislation Annex-2 value; and 4.45% lower as per thecalculation made with UNFCC lower calorific value.

References:http://unfccc.int/national_reports/annex_i_ghg_inventories/national_inventories_submissions/items/58 88.php

6.2 Direct Greenhouse Gas Emissions Mobile Combustion Based:
http://unfccc.int/national_reports/annex_i_ghg_inventories/national_inventories_submissions/items/5888.phphttp://unfccc.int/national_reports/annex_i_ghg_inventories/national_inventories_submissions/items/5888.phphttp://unfccc.int/national_reports/annex_i_ghg_inventories/national_inventories_submissions/items/5888.phphttp://unfccc.int/national_reports/annex_i_ghg_inventories/national_inventories_submissions/items/5888.phphttp://unfccc.int/national_reports/annex_i_ghg_inventories/national_inventories_submissions/items/5888.php


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With Tier 2 approach CH4 and N2O km based emission factors are issued on the report published atthe National Greenhouse Gas Inventory.1990 to 2009; National Inventory Report; National Statistical

Institute; 2011 Table 3.10. Emission Factors for Vehicle Categories. But the approach on km basisarent taken into account. The calculation is made according to the IPCC fuel consumption basedapproach with taken into consideration that the consumption of the engines varies with starting andwith the drivers different modes. CH4 and N2O km based emission factors is taken from IPCC with Tier 1 approach.

Material discrepancy The rate of the mobil combustion based CH 4 and N2O emissions to the Greenhouse Gas is 0.67%.

Thus producing discrepancy in return. The calculation made for the Diesel according to IPCC is 1%higher than the calculation made respect to UNFCC-Srilanka NIR report.

Lower Calorific Value:The lower calorific values issued by Nation within Legislation Regarding Measures to be Taken InOrder to Increase Efficiency in Energy Consumption of Industrial Institutions (Official Newspaper 25.10.2008/27035) Annex-2 Lower Calorific Values of Energy Sources and Conversion Coefficients toPetroleum Equivalent as not being the values presented in UNFCC- National Inventory Submissions2011. it is not used.

Thus the lower calorific values in calculations are selected from 2006 IPCC Guidelines for NationalGreenhouse Gas Inventories.

6.3 Direct Greenhouse Gas Emissions :

SelectedMethod

Formula: Emission Source Consumption Amount * Global Warming PotentialGHG Protocol

Emission CO2 GWP:1


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Tier 2 approach is selected for the emission factors used in the calculation of the consumed electricityemission. The emission factors issued by API and by UNFCC for Srilanka are compared. Calculation

made by IEA emission factor is 6.3% lower as per the calculation made with UNFCC and 7.1% higher than API results respectively.

References:UNFCC National Inventory Submissions 2011. National Common Reporting Format (CRF).Summary 2 Summary Report For CO2 Equavalent Emmissionshttp://unfccc.int/national_reports/annex_i_ghg_inventories/national_inventories_submissions/items/5888.php

National General Directorate; Research Planning and Coordination Chamber Statistics DirectoarteNation Electricity Production Transmission Statistics 2009 / Distribution of Electricity EnergyProduction to Preliminary Energy Sources and Manufacturer Institutions (2009)/http://www.teias.gov.tr/istatistik2009/index.htm

API Emisyon faktr: 0.46 ton/MWhCompendium of Greenhouse Gas Emissions Methodologies for the Oil and Gas Industry American

Petroleum Institute August 2009 Table 7-5. OECD Member Country International Electric GridEmission Factors (Generation Basis) and heat generation

References:http://www.iea.org/co2highlights/co2highlights.pdf

Material discrepancy: Calculation made by IEA emission factor is 6.3% lower as per the calculation made with UNFCC. It
http://unfccc.int/national_reports/annex_i_ghg_inventories/national_inventories_submissions/items/5888.phphttp://unfccc.int/national_reports/annex_i_ghg_inventories/national_inventories_submissions/items/5888.phphttp://www.teias.gov.tr/istatistik2009/index.htmhttp://www.iea.org/co2highlights/co2highlights.pdfhttp://unfccc.int/national_reports/annex_i_ghg_inventories/national_inventories_submissions/items/5888.phphttp://unfccc.int/national_reports/annex_i_ghg_inventories/national_inventories_submissions/items/5888.phphttp://www.teias.gov.tr/istatistik2009/index.htmhttp://www.iea.org/co2highlights/co2highlights.pdf


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deemed as stationary combustion the result will be affected at most by 0.04%. And this does notcompose a material fault.

8. GREENHOUSE GAS EMISSONS BEING EXCLUDED

2 factors are considered while determining the emissions being excluded during the greenhouse gascalculations.

1. Emission being unable to be calculated technically2. Emissions being at ignorable level

Therefore the other indirect Greenhouse Gas Emissions are indicated but the calculation is not made.

Biological (Domestic) Treatment PlantThe CH4 and N2O emissions to be composed as the result of bacteria activity within the biologicaltreatment system are at ignorable level as per the 2006 IPCC Guidelines for National GreenhouseGas Inventories. Volume 5: Waste. Page 6.8 Table 6.1 CH 4 and N2O Emission Potentials For Wastewater And Sludge Treatment And Discharge Systems standard.

Fugitive EmissionsFugitive (VOC) emission factors for heavy (fuel oil. diesel oil) and light liquids (gasoline) are definedwithin the 27277 numbered and 03.07.2009 dated Legislation of Control of Air Pollution Based onIndustry. Sources that can cause leakage are defined as filling arms. tank relief valves. valves.flanges. pump. sample receipt points. compressor. But as defined in Compendium of GreenhouseGas Emissions Methodologies for the Oil and Gas Industry American Petroleum Institute August 2009Page:8.119 and 5.55 the refined products does not include CO 2 and CH4. Fugitive emissions (VOC)do not have greenhouse gas effect.


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Operational data Measurement uncertaintiesSource Definition Operational Data

SourceUncertainty of theOperational Data

Referance

Indirect Purchased Electricity Electricity Counter +/- 0.5% Electricity Counter Legislation Regarding Scales to be Used in Electricity Market Article 11 Active energy counters. IEC-EN 60687 0.5 classMobile Combustion Vehicles Diesel Oil Filling Arm Counter +/- 0.025% FMC Technolog ies Smithmeter PD Meter Prime 4 SpecificationsStationary Combustion Fuel Oil Scale Calibration Report

Measurement Uncertainty

Scale Calibration Report

Stationary Combustion Diesel Oil MeasurementContainer +/- 0.01%Report of Republic of Srilanka Ministry of Industry and Trade Measurement Settings BranchDirectorate

Stationary Combustion Diesel Oil Heat Transmeter +/- 0.2% Smit Meter Temperature Sensor /Transmeter SpecificationStationary Combustion LNG Scale Calibration ReportMeasurement Uncertainty

Scale Calibration Report

Mobile Combustion Vehicles Gasoline Filling Arm +/- 0.025% FMC Technologies Smithmeter PD Meter Prime 4 SpecificationsStationary Combustion Natural Gas Natural gas counter +/- 2.0% TS 5910 EN 1359 Gas Counters with diaphragmStationary Combustion LPG - +/- 7.0% IPPC Uncertainty Data (From GHG uncertainty table)CO2 Tubes Service Report +/- 7.0% IPPC Uncertainty Data (From GHG uncertainty table)Cooling Gas HFC 227 EA Service Report +/- 7.0% IPPC Uncertainty Data (From GHG uncertainty table)

Emission Factor Measurement UncertaintiesSource Definition Emission Factor

SourceEmission Factor Uncertainty Reference

Indirect Purchased Electricity API +/- 7% IPPC Uncertainty Data (From GHG uncertainy table)Mobile Combust ion Vehicles Diesel Oil Fil ling Arm Counter +/- 5% 2006 IPCC Guidelines for National Greenhouse Gas Inventories Volume 2: Mobile Combust ion

Page:3.29 Default CO2 emission factors given in Table 3.2.1. RoadTransport Default Carbon Dioxide Emission Factors have an uncertainty of 2-5 percent). due touncertainty inthe fuel composition

Stationary Combustion Fuel Oil Scale +/- 5% 2006 IPCC Guidelines for National Greenhouse Gas Inventories Volume 2 StationaryCombustion Table 2.13 Page 2.39

Stationa ry Combustion Diesel Oil Filling Arm Counter +/- 5% 2006 IPCC Guide lines for National Greenhouse Gas Inventories Volume 2 StationaryCombustion Table 2.13 Page 2.39

Stationary Combustion LNG Scale +/- 5% 2006 IPCC Guidelines for National Greenhouse Gas Inventories Volume 2 StationaryCombustion Table 2.13 Page 2.39

Mobile Combustion Vehicles Gasoline Filling Arm +/- 5% 2006 IPCC Guidelines for National Greenhouse Gas Inventories Volume 2: Mobile CombustionPage:3.29 Default CO2 emission factors given in Table 3.2.1. RoadTransport Default Carbon Dioxide Emission Factors have an uncertainty of 2-5 percent). due to

uncertainty in the fuel compositionStationa ry Combustion Natural Gas Natural g as counter +/- 5% 2006 IPCC Guide lines for National Greenhouse Gas Inventories Volume 2 StationaryCombustion Table 2.13 Page 2.39

Stationary Combustion LPG - +/- 7.0% IPPC Uncertainty Data (From GHG uncertainy table)CO2 Tubes Service Report +/- 7.0% IPPC Uncertainty Data (From GHG uncertainy table)Cooling Gas HFC 227 EA Service Report +/- 7.0% IPPC Uncertainty Data (From GHG uncertainy table)

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13.1 Calculation Uncertainty of Organisation for the year 2010 Location Name Measurement Uncertainty* Tone CO2 (Measurement Uncertainty* Tone CO2 )2 Tone CO2M Terminal 136.0597901 18512.26648 4.088.46

A Terminal 21.18979064 449.0072275 328.25G Terminal 15.20418729 231.1673111 312.65K Terminal 21.74299118 472.7576654 476.51M Terminal 109.7491571 12044.87748 2.785.92H Office 60.57823573 3669.722645 1.640.65 A Region 3.877245858 15.03303544 94.06E Region 3.133775114 9.820546467 67.70E Region 5.004001304 25.04002905 115.28Central Region 6.226464997 38.76886636 131.36TOTAL 35468.46129 10.040.83Square root Total ( Uncertainty * ton CO2)2) 188.3307232Uncertainty %

1.875649008

13.2 Calculation Uncertainty of Organisation for the year 2011Location Name Measurement Uncertainty* Tone CO2 (Measurement Uncertainty* Tone CO2 )2 Tone CO2M Terminal 120.3129751 14475.21197 1.973.70 A Terminal 21.38748226 457.4243975 334.11G Terminal 17.28625405 298.8145789 366.43K Terminal 24.01141217 576.5479142 419.39M Terminal 99.05931256 9812.747405 2.550.37Center 66.17849051 4379.592607 1.732.62 Antalya Region 4.889111428 23.90341056 116.06D Region 2.805981927 7.873534574 61.74E Region 4.791318892 22.95673673 107.61Central Region 4.808659566 23.12320682 108.18TOTAL 30078.19576 7.770.22Square root Total ( Uncertainty * ton CO2)2) 173.4306656Uncertainty %

2.231992463

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ghg report sample.doc

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