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IPCC Inventory Software User Manual Version 2.10 - IPCC

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1. Saale LO E OH Sulphur Hexafluoride SF6 GEI w Nitrogen Trifluoride NF3 E Figure 3 24 Importing custom CO Equivalents 24 Take the following steps to import custom CO Equivalents 1 Click the Open button to browse for XML file to be imported 2 Section GWP Types to import contains the list of all custom GWP types included in the source XML file Select the custom GWP type of interest or just particular gases of interest to be imported 3 Click the Import button to begin import Progress bar will be shown to indicate the progress of import TIP Button Vie XML file can be used to display the contents of the source XML file in Internet browser 3 2 7 7 Import F Gases Data This menu item opens the dialog window that allow importing of country specific F Gases Data ee 2006 Import F Gases Data XML import file C Tmp fgases xml XML import version 1 90 F Gases Data to import Y Slovakia HFCs Y HFC 23 CHF3 Y HFC 32 CH2F2 Y HFC 41 CH3F Y HFC 43 10mee CF3CHFCHFCF2CF3 Y HFC 125 CHF2CF3 Y HFC 134 CHF2CHF2 Y HFC 134a CH2FCF3 Y HFC 152a CH3CHF2 Y HFC 143 CHF2CH2F Y HFC 143a CF3CH3 Y HFC 227ea CF3CHFCF3 Y HFC 236fa CF3CH2CF3 V HFC 245ca CH2FCF2CHF2 Y HFC 152 CH2FCH2F Y HFC 161 CH3CH2F Y HFC 236cb CH2FCF2CF3 Y HFC 236ea CHF2CHFCF3 Y HFC 245fa CHF2CH2CF3 Y
2. 1590 COP Equivalente SAR GWPs 100 year time beeen Database e DA Prepect PEC db poc HK mdb Figure 4 3 Docking the floating window 4 2 3 Auto hiding docking windows Docking windows can be switched to auto hide mode using the pin icon located in top bar This is useful if there is a need for more space for main working area Windows switched to auto hide mode hide themselves when inactive HINT Placing the mouse cursor over strip containing the name of the hidden window automatically scrolls window into view Clicking the pin icon of auto hidden window switches the auto hide mode off 4 2 4 IPCC 2006 Categories Navigation Window tree This window contains full 2006 IPCC Guidelines Category tree structure Figure 4 4 The navigation tree is useful to select the worksheet to work with Worksheets are available within IPCC categories marked blue The worksheet relevant to selected IPCC Category will be displayed in the main working area on the right If there are more worksheets available within selected IPCC Category they are organized in the tabbed working area where each tab represents the particular worksheet Clicking on the Sector Sub sector level of the tree which is marked with gray color will show the CO equivalent time series graph of the Sector Sub sector _ 34 E 1 Energy CN 1 4 Fuel Combustion Activities E 1 4 1 Energy Industries CR 1 4 1 4 Main Activity Electricity and Heat
3. Bes Soe zo ma un um Sue CI LLE wm mom ee vs 201 Harvested Wood Protas a 72505 91950 22505 91982 em oe Sat Eisis SFE PECS zum man 0028 am Re CE E LL mee ee ei e KEE Bos A LO vom ane ones oss Non Enerav Products from Fuels and Solv CARBON DIOXID Figure 3 18 Key Category Analysis s2 3 2 7 Export Import 3 2 7 1 Export Worksheet Data This menu item opens dialog box that allows selecting and exporting part of the current inventory year i e one or more sectors sub sectors or categories into an XML file IPCC 2006 Export Worksheet Data IPCC 2006 Categories to export A 1 Energy E F 2 Industrial Processes and Product Use ENE 2 4 Mineral Industry 7 2 4 1 Cement production 2 4 2 Lime production 2 4 3 Glass Production 2 4 4 Other Process Uses of Carbonates 2 44 4 Ceramics 2 4 4 b Other Uses of Soda Ash 2 4 4 c Non Metallurgical Magnesia Production 2 44 4 Other please specify 2 4 5 Other please specify Chemical Industry 2 B 1 Ammonia Production 2 B 2 Nitric Acid Production 2 B 3 Adipic Acid Production 2 B 4 Caprolactam Glyoxal and Glyoxylic Acid Production 2 B 5 Carbide Production 2 B 6 Titanium Dioxide Production 2 B 7 Soda Ash Production 2 B 8 Petrochemical and Carbon Black Production 2 B 8 a Methanol 2 B 8 b Ethylene 2 B 8 c Ethylene Dichloride and Vinyl Chloride Monomer 2 B 8 d Ethylene Oxide 2 B 8 e Acrylonitrile 2 B 8
4. HFC 365mfc CF3CH2CF2CH3 PFCs Y Perfluorocyclopropane c C3F6 ee ee C Figure 3 25 Importing F Gases Data Take the following steps to import country specific F Gases Data 1 Click the Open button to browse for XML file to be imported 2 Section F Gases Data to import contains the list of all country specific F Gases included in the source XML file Select the F Gases of interest to be imported 3 Click the Import button to begin import Progress bar will be shown to indicate the progress of import TIP Button Vie XML file can be used to display the contents of the source XML file in Internet browser 3 2 8 Administrate Functions in this menu section are available to administrators Superusers only 3 2 8 1 Users This menu item opens dialog window that allows managing login names passwords and rights to work with particular worksheets See Chapter 2 4 for detailed information 3 2 8 2 CO Equivalents This menu item opens the dialog window that allows the administrator to manage CO Equivalents Except for predefined SAR TAR and ARA Equivalents it is possible to define custom types Default type of CO Equivalents currently selected is indicated in the status bar and also in Database Properties dialog box See Chapter 2 3 for detailed information 25 3 2 8 3 Delete inventory This menu item opens the dialog window that allows deleting existing inventories USE THIS FUNCTION WITH CAUTI
5. type conversions e g Forestland converted to Cropland etc will be displayed and not those involving strata within the same land type e g Natural forests converted to plantations This data can then be used by the software to complete the Land Use Matrix and fill in the annual land areas in all the relevant worksheets It is important to note here that the areas entered here are the annually converted areas and therefore a part of the 20 year areas entered into the Area Entry Table Regarding Land Use Subcategory combinations the same restriction rules apply as in Area Entry Table AFOLU Land Use Matrix This worksheet is available in all 3 B Land categories lt is a complete view of Land Use Subcategory Transitions constructed from Area Entry Table or Annual Area Table respectively Area Entry Table Annual Area Table Land Use Matrix Annual change in carbon stocks in organic soils Annual change in carbon stocks in biomass Annual change in carbon stocks in dead organic m lt gt Worksheet Sector Agriculture Forestry and Other Land Use 1990 Category 3 B 2b i Forest Land converted to Cropland Sheet Land Use Matrix Forest Land Cropland FL Custom1 Custom 2 Organic Irrigated rice rice Mineral 1 Mineral 1 Non Rice ecosystem Organic1 Pe Final Area we emm m Ta m SS SS A ae AAA El unmanaged O E E VO 8 Mineral 1 Non Rice ecosystem Organic 1 Perennial 1 Rainfed Upland rice Unmanag
6. 2 4 3 Glass Production E 2A4 SE Process Uses of Carbonates pa 2 4 4 b Other Uses of Soda Ash 2 A 4 c Non Metallurgical Magnesia Pro 2 A 4 d Other please specify ZAS Other please specify 2 B Chemical Industry 2 B 1 Ammonia Production 2 B 2 Nitric Acid Production 2 B 3 Adipic Acid Production J i DRA Canrolactam Glunvral and Glun rwvlir pa r 1 Limestone and other carbonate materials also are D mm consumed in a variety of other industries not covered in Chapter 2 of Volume 3 Examples include carbonates used as fluxes and slagging agents in metals smelting and refining e g iron and steel production and base metals such Industrial Processes and Product Use Mineral Industry 2 4 4 a Ceramics 1of 1 Emission Factor for Carbonate Consumption tonne CO2ftonne carbonate Mass of Carbonate Consumed tonne Type of Use Window Help CO2 CO Emissions Emissions tonne CO2 Gg CO2 Uncertainties C A B D C M0 3 J Ceramics JI 140 ONE lei Jl Other Uses of Soda Ash Non Metallurgical Magnesia Prod _ subtotal AA F a E Ta LS II Ree as copper and as inputs to the chemical industry eg fertiliser The methods outlined here for estimating emissions from the use of carbonates are applicable to these other industries as well It is good practice to allocate emissions from the use of limestone dolomite and ot
7. 3 1 Main window It consists of e Window title Main software title followed by the login name of currently logged in user and optionally name of the currently active child window e Main menu top for accessing all of the software functions modules e Working area center place where all dialogs and child windows are displayed e Status bar bottom bar that contains useful information related to currently open database currently chosen Inventory Year etc 3 2 Main menu structure 3 2 1 Application menu 3 2 1 1 Preferences This opens dialog window that allows the user to adjust preferred working area settings like appearance of dialogs database related preferences and backup default number of decimal places shown in worksheets and reports range of inventory years and coloring and other properties of grids 1 General cen en TTT Start main application window maximized Prompt user on application exit Show login dialog after logout Show Choose Inventory Year dialog after login Show informative message box after choosing Inventory Year Si sl sl E E Figure 3 2 General preferences e Start main application window maximized if checked main application window size will be automatically scaled to fit the whole available screen after starting the software e Prompt user on application exit if checked user is always prompted whether to really exit application o
8. 4 4 4 Ceramics 2 4 4 b Other Uses of Soda Ash 2 44 c Non Metallurgical Magnesia Production 2 4 4 d Other please specify SS SSS 88 8 8888888888888 Figure 3 23 Importing Worksheet Data Take the following steps to import worksheet data 1 Click the Open button to browse for XML file to be imported 2 Check the details such as XML Import Version Source inventory year Number of records and decide whether this import file suits your needs 3 Section Categories to import contains the list of all categories included in the source XML file Select the categories of interest to be imported All categories are selected by default 4 Click the Import button to begin import Progress bar will be shown to indicate the progress of import TIP Button Vie XML file can be used to display the contents of the source XML file in Internet browser 3 2 7 6 Import CO Equivalents This menu item opens the dialog window that allows importing of custom CO Equivalents from an XML file IPCC 2006 Import CO2 Equivalents XML import file C Tmp gwp xml XML import version 1 90 GWP types to import WC CH4 8 N20 CARBON DIOXIDE C02 METHANE CH4 NITROUS OXIDE N20 HFCs PFCs Perfluorocyclopropane c C3F6 PFC 14 CF4 PFC 116 C2F6 PFC 218 C3F8 PFC 3 1 10 C4F10 PFC 318 c C4F8 PFC 4 1 12 C5F12 PFC 5 1 14 C6F14
9. This column contains the selection list of default values where appropriate Emission Factor for selected category and gas can be chosen It is also possible to manually enter custom value if needed Column C CH or CO Emissions expressed in m This is a calculated column Value is calculated automatically using the formula C A B Column D Conversion Factor This is a non editable constant The value depends on selected Gas and is 0 67 10 6 for CH and 1 83 104 6 for CO as defined in 2006 IPCC Guidelines Column E CH or CO Emissions expressed in Gg This is a calculated column Value is calculated automatically using the formula E C D This column also contains el button which enables user to choose NE notation key indicating that the emissions were Not Estimated for the selected gas Column F Methane Recovered This column is available just in case of CH It enables user to enter decimal value representing the amount of methane recovered Column G Methane Emissions to be reported This column is available just in case of CH and it is a calculated column Value is calculated automatically using the formula G E F Column Uncertainties Clicking this button will open dialog box that can be used to enter Activity Data and Emission Factor uncertainties for active row category Default AD uncertainties are prefilled according to 2006 IPCC Guidelines _ 46 Category Default EF uncertainti
10. Uncertainties for Fuel Type Button Uncertainties for Fuel Type can be used to enter Activity Data and Emission Factor uncertainties at the fuel type level that is currently selected User will be provided with the dialog box where uncertainties can be defined _ 43 Uncertainties by Fuel Type Liquid Fuels IPCC Category IA at Electricity Generation Activity Data Uncertainties Lower Upper 15 00 Emission Factors Uncertainties Gas CARBON DIOXIDE C02 v _ A332 gt _ f 148 Lower Upper Figure 6 3 Uncertainties for Liquid Fuels Default Activity Data uncertainties are prefilled according to 2006 IPCC Guidelines Default Emission Factor uncertainties are computed from default values for selected IPCC Category Fuel Type and Gas Default values can be changed and are stored into database automatically after pressing the OK button 6 1 3 Conversion Factor Type User can choose from either NCV or GCV conversion factor type When choosing NCV value in column B of the grid will be prefilled according to selected fuel When choosing GCV user will always be prompted to enter custom conversion factor 6 1 4 Entering data Column Fuel This column contains the selection box where user can choose the desired fuel available within the selected Fuel Type If conversion factor type is set to NCV column B will be prefilled with the corresponding factor after leaving the Fuel column Column A Consumption This column
11. checked tree containing 2006 IPCC hierarchy will be expanded automatically to show the whole hierarchy otherwise only main sectors will be shown initially e Automatically navigate to last visited IPCC 2006 Category if checked last visited IPCC category will be automatically selected upon opening the Worksheet window e Maximum numbers of decimal places defines maximum numbers of decimal places for numbers to be displayed in calculation sheets worksheet grids e Zero padding if checked all decimal numbers in grids will be zero aligned E g 0 1 will become 0 10000 padded with zeros up to the maximum number of decimal places 5 in this case _14 Reports pe ts Default number of decimal places Be Zero padding Open report windows maximized Figure 3 5 Reports preferences e Default number of decimal places numbers in reports will be automatically rounded according to defined number of decimal places here e Zero padding if checked all decimal numbers in grids will be zero aligned E g 0 1 will become 0 100 padded with zeros up to the maximum number of decimal places 3 in this case e Open report windows maximized if checked reporting windows will automatically scale to fit main application window Inventory Year Base year for assessment of uncertainty in trend Figure 3 6 Inventory Year preferences 15 e Start inventory year defines starting in
12. copying data see 3 2 3 2 from existing year containing completed inventory which created in Step 1 3 Use time series data entry to make adjustments to data across years 18 3 2 4 Worksheets menu This menu item opens the Worksheets window containing worksheets as defined in 2006 IPCC Guidelines See Chapter 3 3 for detailed information 3 2 5 Reports menu This menu item allows the user to calculate 2006 IPCC Guidelines Reporting Tables The reporting tables include the possibility to select number of decimal places of the emissions reported the possibility to write and save text into documentation box of the report as well as function to export tables to Excel 3 2 5 1 Summary table This report displays all Greenhouse Gas emissions divided into 2006 IPCC Guidelines Categories up to level 3 The values are calculated from sectoral tables Emissions Emissions Emissions Gg CO2 Equivalents Gg Gg Other Other halogenated halogenated gases with CO2 gases without NOx CO NMVOCs Categories Net CO2 1 2 CH4 equivalent CO2 equivalent conversion conversion factors 3 factors 4 Total National Emissions and Removals O Wee SSS B 1A FuclCombustonAewviies SSSS S A ay des Hara ast ooo oo II MEE MIRE MICA DI E EE IED EE EE O EE a ana nann DI DI 1 A 4 Other Sertara noon An Figure 3 11 Example of Summary Table 3 2 5 2 Short Summary table This reporting table displays all Greenhouse Gas
13. is designed to enter Consumption value as a decimal number representing the Energy Consumption for the selected Fuel It also contains faf button which enables user to choose one of the available notation keys IE C NO Selecting NO or IE disables all editable cells in current row meaning that the Activity Data Emissions for particular fuel are either Not Occurring or are Included Elsewhere Selecting C means that Activity Data are Confidential and will not be exposed in reporting tables Column Consumption Unit This column is designed for entering consumption unit It contains the selection box where one of Gg TJ can be chosen User can manually type in any arbitrary unit of interest Choosing TJ automatically sets conversion factor value column B to 1 Column B Conversion Factor This column is designed for entering conversion factor to convert consumption expressed in activity unit to consumption expressed in energy unit Column C Consumption This is a calculated column Value is calculated automatically using the formula C A B where A represents value entered in Column A and B value entered in Column B Column D CO Emission Factor This column contains the selection list of default values where appropriate emission factor for CO can be chosen It is also possible to manually enter custom value if needed 44 Column Z CO Amount Captured It is possible to enter the amount of CO emissions captured in this
14. navigation section New Land Use Subcategory will be created with the default name 3 Enter desired details of the new Land Use Subcategory 4 Click the Save button to save new Land Use Subcategory into database Editing existing Land Use Subcategory Take the following steps to edit existing Land Use Subcategory 1 Select the Land Use Subcategory of interest in the navigation section 2 Edit data as desired 3 Click the Save button to save changes into database or click the Undo button to discard all changes Making copy of existing Land Use Subcategory It is possible to make a copy of existing Land Use Subcategory Follow the next steps 1 Select the Land Use Subcategory of interest in the navigation section 2 Click the Copy button located at the bottom of the navigation section 3 New copy of selected Land Use Subcategory will be created with the new name 4 Edit data as desired 5 Click the Save button to save new Land Use Subcategory into database Deleting existing Land Use Subcategory 1 Select the Land Use Subcategory of interest in the navigation section 2 Click the Delete button located at the bottom of the navigation section 3 Confirm or cancel deletion when prompted 3 2 8 5 AFOLU Livestock Manager This menu item opens a dialog window which allows managing Livestock for AFOLU category 3 A Livestock This window is also accessible from relevant worksheets under category 3 A Livestock Livestock manager is divided into s
15. same time using mouse or Shift key function within Row Status column of the gird Iconic action button X at row level can be used to delete just the corresponding row De eg In all cases user is provided with the confirmation dialog Figure 4 9 Deleting multiple rows 4 3 7 Value List cells Some of the cells contain Value List where user can choose from the predefined set of values or nomenclature data e g emission factors Such cells have the Value List indicator which when clicked will provide the user with the predefined set of nomenclature data Some of the Value Lists are fixed and user cannot enter data other than that in the list e g Fuels Some are editable e g emission factors Value Lists and user is able to enter custom data that are not GENEE in the value P E SES a Value emm Unit mes Lower Limit pm Upper Limit Ss o Uncontrolled Motor gasoline uncontrolled default value is USEPA 2004h value for a USA light duty ga vehicle car uncontrolled converted using 3 2 kgT assumptions described in table note a Hr account for a significant share of the national population inventory compilers should adjus default emission factor downwards Oxidation Motor gasoline light duty vehicle oxidation i Catalyst default value is based on the USEPA 2004b USA Light Duty Gasoline Vehicle Car Oxi kaft 26 24 Catalyst converted using values and assum 9 described in table note a If motorcycles ac s
16. the particular row relates to Column A Volume of Methane Combusted This column is editable and can store adecimal value representing the volume of methane combusted expressed in m unit It also contains Ed button which enables user to choose one of the available notation keys IE C NO NE Selecting NO IE or NE disables all editable cells in current row meaning that the activity data emissions for current category are either Not Occurring Included Elsewhere or Not Estimated Selecting C means that activity data are Confidential and will not be exposed in reporting tables Column B Conversion Factor This is a non editable constant The value is 0 67 104 6 for CH as defined in 2006 IPCC Guidelines Column C Combustion efficiency factor This is a non editable constant The value is 0 98 for CO and 0 02 for CH as defined in 2006 IPCC Guidelines Column D Stoichiometric Mass Factor This is a non editable constant The value is 2 75 for CO and 1 for CH as defined in 2006 IPCC Guidelines Column E CO Emissions This is a calculated column Value is calculated automatically using the formula E A B C D _ 4g Column Uncertainties Clicking this button will open dialog box that can be used to enter Activity Data uncertainties for active row category Default AD uncertainties are prefilled according to 2006 IPCC Guidelines Default values can be changed and are stored into database automatically after
17. to export all F Gases data or just select the particular F Gases of interest 2 Click the Export button and supply the destination XML file when asked 3 2 7 4 Export NAI Reporting Tables This menu item opens the window that allows calculating and exporting of the national communication table for Parties not included in Annex to the Convention CO2 Emissions CO2 Removals Greenhouse gas source and sink categories 9 Gg Gg 3516442 Figure 3 22 xan ple of NAI Reporting Table 3 2 7 5 Import Worksheet Data This menu item opens the dialog window that allows importing an XML file containing a part of an inventory i e one or more sectors sub sectors or categories into the currently open database and currently chosen Inventory Year roe IPCC 2006 Import Worksheet Data XML import file CATmpvall xml XML import version 1 90 Source inventory year 1990 Number of records 352 IPCC 2006 Categories to import 1 B 1 a i 1 Mining 1 B 1 a 1 2 Post mining seam gas emissions 1 B 1 4 1 3 Abandoned underground mines 1 B 1 2 1 4 Flaring of drained methane or conversion of methane to CO2 1 B 1 a ii 1 Mining 1 B 1 2 11 2 Post mining seam gas emissions 1 B 1 c Solid fuel transformation 1 C 1 a Pipelines 1 C 1 b Ships 1 C 1 c Other please specify 1 C 2a Injection 1 C 2 b Storage 1 C 3 Other 2 4 1 Cement production 2 4 2 Lime production 2 4 3 Glass Production 2
18. 0 from fuel combustion by source categories Tier 1 Data Fuel Type Uncertainties for Liquid Fuels Conversion Factor Type NCV GCV Liquid Fuels Energy Consumption CH4 A B S G wi s D co2 F H Conversion Consum CH4 N20 Emission N20 Factor kg N20 TJ Geng Emissions AN v z gy Ga N2 Unit Consumption NCV C A B kg CO2 TJ Gg CO2 E C D 10 kg CH4 TJ GG si Fuel Unit l 6 7 ICO EI ce FES a a ci CO2 Emission Amount Emissions CH4 Emission Factor Captured Gg CO2 Factor Emissions Gg CH4 G C F 10 6 Factor ption TJU nit TJ Delete selected rows Figure 6 1 Example of Fuel Combustion Activities worksheet 6 1 1 Fuel Type Fuel Type selection box can be used to choose the desired Fuel Type to work with After selecting the Fuel Type only the list of fuels of the selected type is available in the Fuel column in the grid to choose from and the worksheet will contain only rows with fuels of the selected type n Refin Fuel Type Liquid Fuels ture of ach Liquid Fuels er Ener Industr Consumpt Steel z ous Me ls ser and tegsin de Mm Jet Gasoline Jet Kerosene Other Kerosene Figure 6 2 Es Expanded list of available Liquid fuels It is possible to display all fuels in the Fuel list by selecting the last item in the Fuel Type selection box labeled All In this case worksheet will contain rows with fuels of any type 6 1 2
19. 06 IPCC Guidelines Column A Number of Abandoned Mines This column is editable and can contain integer value representing the number of abandoned mines for selected closure interval It also contains 7 button which enables user to choose one of the available notation keys IE C NO Selecting NO or IE disables all editable cells in current row meaning that the Activity Data emissions for particular closure interval are either Not Occurring or are Included Elsewhere Selecting C means that activity data are Confidential and will not be exposed in reporting tables Column B Gassy Mines This column is editable and can contain decimal value representing the percentage of gassy mines from the total number of mines specified in column A Column C Emission Factor This column represents the emission factor Is is filled automatically after choosing one of the predefined closure intervals in column A It is also possible to manually enter custom value if needed Column D Conversion Factor This is a non editable constant The value is 0 67 10 6 for CH as defined in 2006 IPCC Guidelines Column E Methane Emissions This is a calculated column Value is calculated automatically using the formula E A B C D Column F Methane Recovered This column enables user to enter decimal value representing the amount of methane recovered Column G Methane Emissions to be reported _47 This column is a calculated colum
20. 4 3 Working with the grid Fuel Combustion Activities Worksheet Category Fuel Combustion Activities Subcategory 1 A 1 ai Electricity Generation Sheet CO2 CHA and N20 from fuel combustion by source categories Tier 1 Data Fue Type Conversion Facto Type NOV GCV Liquid Fuels Energy Consumption C02 B CG l si 5 Conversion Consump d s e GO H s CH4 e s N20 Consumption CO2 Emission Amount Emissions CH4 Emission Hal N20 Emission jae Factor tion e al Emissions Emissions Mass Volume or der TJ Factor Captured Gg CO2 Factor Ga CH4 Factor Gg N20 Energy Unit Consumption NCV i C A B kg CO2 TJ Gg CO2 E C DAO 6 kg CH4 TJ G C F 10 6 kg N20 TJ I C H 10 6 Fuel Unit Bis e ogn O Mees KI EE eee CM Il Bag g ES ga mg Gs otal T S 393838 8 Figure 4 8 Worksheet grid The worksheet grid represents a powerful tabular tool comprising of Worksheet identification text on top with indication of currently chosen Inventory Year top right Worksheet specific parameters Gas fuel type calculation type parameters etc e Top header of the grid column headers are not editable by user e Navigation Row status column left most indicates the active row that is selected and its status if it is in edit mode if it is a new row or if it is just selected e Rows of the grid containing dat
21. 60000 0 000 0000 0000 0 000 ooon 0 000 0000 0000 BO Aikas OOO E LM E of 00 ooo aasre ooi aoee oso oco ooo ooo aco 1 A 1 b Petroleum Refining 0 000 39700 000 0 000 2752 694 0 119 0 024 0 000 0 000 Figure 3 14 Example of Energy Background Table 1 1 3 2 5 5 Reporting Table 7a Uncertainties This Reporting Table is an aggregated version of Uncertainty Analysis Table 3 2 The list of aggregated categories is based on Table 4 1 of Volume 1 Chapter 4 of 2006 IPCC Guidelines Uncertainties from disaggregated levels are combined by multiplication according to Equation 3 1 of Volume 1 Chapter 3 of 2006 IPCC Guidelines Repomng Table Ta Uncertmenes Base Year 1990 e Yet 1954 D Figure 3 15 Example of Reporting Table 7a Uncertainties 3 2 6 Tools 3 2 6 1 Uncertainty Analysis This menu item allows creating uncertainty Reporting Table 3 2 as defined in the 2006 IPCC Guidelines The values are entered in each Worksheet User should enter uncertainty values for every activity and Emission Factor Default uncertainty values are applied when the user does not enter any uncertainty values There is no limit and no check for uncertainty range i e it is the responsibility of the user to define the appropriate values Default uncertainty values presented in the 2006 IPCC Guidelines for almost all the default EFs and AD are preloaded as default upper and lower limits The proce
22. A 1 6 Parrolen Fhehiring LA 1 0 Manufacture of Soded Fuels and 16 1 4 Manufactura of Solid Fuels 14 1 66 Deter Bandy inure LAZ Manutactu ng industries acd Coratru Lada Iron and Shee LAZE Mon Ferrous Metals Alc Lbescgig Add Palo Paper and Freet Ag a Peed Processing Beverages a Af Hon Metllic Minerals A Tranagon Empren Aah Machinery AA Mirar axcheding fu ia and Qu Vital bied rd ed product Vid k Contrucci n Tuell Tal and Leather L im Mon apesrhed Industry L d Tr eepcei 14 18 Col iaon LAIS international Aviation rer LA inn Dores aio LA 3b Read Tranaportabor m H kemo Pseoecd hara Yasar THD County Shovekia bmventory Yes 1990 Base year for assessment of uncertainty in trend 1990 CO2 Equivalente SAR GWPs 100 year time horizon Database file BrcgecdBC CEO melt Figure 4 1 Basic layout of the screen Navigation window top left enabling browsing the IPCC 2006 Category structure Worksheet grid area top right enabling editing the activity and emission factor data IPCC 2006 Guidelines area below left providing current information from the Guidelines Worksheet Remarks area below middle enabling to edit and save Worksheet remarks Time Series chart area below right displaying CO equivalent time series for selected category 4 2 Working with windows and areas Windows containing top bar with pin and down arro
23. G WITH THE SEENEN eebe 11 SL INIA MINO Wa 11 32 MANMENU STRUCTURE asocio 11 3 2 1 Application menu 11 3 2 1 1 A e o o 11 3 2 1 2 El A RA 16 3 2 1 3 e or A A 16 22 Ree EE 16 3 2 2 1 left TR Ee E 16 3 2 2 2 PP o e a 17 3 2 2 3 PHO PIGS rE E 0 AI E E E E E 17 3 2 2 4 a ate nsaedes epassuentasacdsanhanantsecoamsonbastanseccaenoeaneas ones 18 3 2 3 INVENTO CAMEO narco 18 3 2 3 1 CHOOSING Inventory Ved eienaar inna ie 18 3 2 3 2 Creating new Inventory Year 18 3 2 3 3 Efficient data entry using Inventory Year menu 18 3AA A o In OANA 19 Bez o nn 19 3 2 5 1 la A ence o E e csp seentese EE E E 19 3 2 5 2 SHON E summary TAO UE 19 3 2 5 3 EE 19 3 2 5 4 BACK SOU CAINE S nara 20 3 2 5 5 Reporting Table 7a Uncertainties oocccccccoocccnnnonanononnnonanonnnnnnnncnnnnononrnnnnnnnonannnnnonanenoss 20 e ge 20 3 2 6 1 Uncertainty E Str 20 3 2 6 2 PRETO RECS e ele ei WE 21 3 2 6 3 Key Category TEE erageet EE SEET 21 SZ EOE E 22 3 2 7 1 Export Worksheet Re 22 3 2 7 2 Export ee Pet VE CH 22 3 2 7 3 Export F Gases E 23 3 2 7 4 Export NAI Reporting Table 23 3 2 7 5 mpor Worksheet Data iia a 23 3 2 7 6 Inport COs Equivalente EE 24 3 2 7 7 HPO FG aSCS Daa RE 25 Ke Te 25 3 2 8 1 US ee 25 3 2 8 2 CO gt e IEN 25 3 2 8 3 Delete vento cxiintintsosnewssshnases coo EE E E 26 3 2 8 4 AFOLU tand Typ
24. Guidelines Default Emission Factor uncertainties are computed from default values for selected category Default values can be changed and are stored into database automatically after pressing the OK button 6 7 CO Transport Injection and Storage This Worksheet covers all categories within the category 1 C Carbon Dioxide Transport and Storage Worksheet is available for each sub category at the most disaggregated level 50 CO Transport Injection and Storage Worksheet Sector Energy 1990 Category 1 0 CO2 Transport Injection and Storage Sheet Table 1 4a Energy Background Table 1 0 CO Transport Injection and Storage Data Activity Gq Annual mass of CO Annual mass of CO2 Annual mass of fugitive CO2 emissions to Uncerta eegen transported injected etc 1 the atmosphere or sea bed Gq inties ES 1 C 1 TransportofCO2 Ritz Ir D W RW 1010 Otter pleasespecify 20 ES 1 C2 Injection and Storage Pa er Il AE IS MRE O IN A AS AE O O A AA 1 In the cell for Annual mass of CO injected etc for 1C2b Storage the cumulative amount of CO stored should be entered Time Se es data entry Figure 6 8 Example of CO Transport Injection and Storage worksheet 6 7 1 Entering data Column Annual Mass of CO Transported This column is relevant for categories 1 C 1 a 1 C 1 b and 1 C 1 c It is editable and can store decimal value representing the annual mass of CO transported Col
25. ON Choose the inventory year from the drop down box below and press OK 1990 130 tables were cleared worksheet_remark_ext 0 rows deleted worksheet_remark 73 rows deleted worksheet_ref_approach_auoiliany 15 rows deleted worksheet_ref_approach 38 rows deleted _calculation_type 5 rows deleted worksheet_402_3 5 rows deleted worksheet_4D2 2 6 rows deleted worksheet_402 1 5 rows deleted worksheet_407_ tow 2 rows deleted worksheet_407_ params 1 rows deleted worksheet_401_ef1 1 rows deleted worksheet_407_ef 4 rows deleted worksheet_401 12 rows deleted worksheet_402 base 11 rows deleted worksheet_4C2 33 rows deleted worksheet_4C _ 1 2 rows deleted worksheet_401_2 5 rows deleted mmm Figure 3 26 Deleting inventory 3 2 8 4 AFOLU Land Type Manager This menu item opens a dialog window which allows managing Land Use Subcategories for AFOLU category 3 B Land This window is also accessible from relevant worksheets under category 3 B Land Parameters defined here are used in all relevant worksheets Common Land Type Data Fe Land Country Territory Slovakia Continent Europe i L Custom FL Custom 2 Land Use Subcategory FL Custom 1 Organic Cropland Climate Region Cool Temperate Moist E Soil Type High Activity Clay Mineral H Grassland Wetlands Forest Land Data Settlements Ecosystem type User defined Continent nspecified H Other Land bs Species Pinus E Age c
26. ORKSHEET FOR OTHE AIEO TEE ZAL NA toa duanobadedsteoesadaudeasecoudsutetadsentevcsees Fe AFOLCUARESENTRY TABLE ee 3 WAPOLULANNUAL e EE 7 4 AFOLU REGION LIVESTOCK MMS ASSOCIATIONS ccccsscsccsccscassuccessusceccscascastescecescassuseaseuseecescassassesoscescans 7 9 ORGANIC N APPLIED TO MANAGED SOILS ee Eege ee 1 Background and Purpose IPCC National Greenhouse Gas Inventories Programme and its Technical Support Unit located at IGES in Hayama Japan initiated the development of new GHG Inventory Software IPCC Inventory Software The purpose of this software is to implement Tier1 and Tier2 methodologies in the 2006 IPCC Guidelines for National Greenhouse Gas Inventories for the preparation of national GHG inventories according to 2006 IPCC Guidelines either for complete inventories or for separate categories or groups of categories The primary target groups of users are inventory compilers who wish to apply default 2006 IPCC Guideline methods trainers and trainees on national GHG inventory compilation and Parties not included in Annex of the Convention having limited resources without their own inventory systems The basic inventory data model looks like Figure 1 1 IPCC2006 Category Greenhouse Gas Inventory Year Activity Rate X Emission Factor Emission Figure 1 1 Basic data relations The basic approach of the software is to enable filling out the 2006 IPCC Guielines category
27. Production a 1 4 1 1 Electricity Generation a 14 141 Combined Heat and Power Generation CHP AA a iii Heat Plants Se 1 4 1 b Petroleum Refining E 1 4 1 0 Manufacture of Solid Fuels and Other Energy Industries pa 1 1 c 1 Manufacture of Solid Fuels i 1 A 1 cii Other Energy Industries CH 1 4 2 Manufacturing industries and Construction 1 4 2 3 Iron and Steel e 1 4 2 b Non Ferrous Metals gt 14 20 Chemicals Se 1 4 2 0 Pulp Paper and Print 1 4 2 6 Food Processing Beverages and Tobacco 14 2f Non Metallic Minerals 1 42 g Transport Equipment Figure 4 4 IPCC 2006 Category tree DI 4 2 5 IPCC 2006 Guidelines window This window contains the information relevant to currently selected IPCC 2006 Category Such information can be defined using Guidelines Information Texts dialog accessible from Administrate menu Chapter 3 2 8 6 1 Limestone and other carbonate materials also are consumed in a variety of 2 other E industries not covered in Chapter 2 of Volume 3 Examples include carbonates used as fluxes and slagging agents in metals smelting and refining e g iron and steel production and base metals such as copper and as inputs to the chemical industry eg fertiliser The methods outlined here for estimating emissions from the use of carbonates are applicable to these other industries as well It is good practice to allocate emissions from the use of limestone dolomite
28. SARGWPs these are set as default e TAR GWPs e AR4GWPs 2 3 2 Adding custom CO Equivalent type To add custom CO Equivalent type follow the next steps 1 Click Add type button 2 Enter the unique name of the new type when asked and click OK new custom CO Equivalent type will appear within the Type list 3 Use grid to go through all gases within all Gas groups and enter desired CO Equivalent Values 2 3 3 Deleting custom CO Equivalent type To delete custom CO Equivalent type follow the next steps 1 Use Type list to select custom CO Equivalent type to be deleted 2 Click Delete type button and commit or cancel deletion when asked 2 3 4 Setting default CO Equivalent type To set the default CO Equivalent type to be used for calculations within the whole software follow the next steps 1 Use Type list to select desired CO Equivalent type 2 Click Set as default button to set it as default new default CO Equivalent type will be indicated in the status bar located at the bottom of the main software window 2 4 Define users Use Administrate Users menu to access User Management system which is designated for adding new users and editing and deleting existing users in the currently open database E IPCC 2006 User Management Selected User Details Superusers Login Compiler clas db E E Allowed worksheets Users Compiler VR eme Kee d e o e ETA Fuel Combustion Activities b E 1 B Fugitive
29. Task Force on National Greenhouse Gas Inventories IDCC 3 CA INTERGOVERNMENTAL PANEL ON Climate change wmo UNEP I PCC Inventory Software User Manual Version 2 10 Compiled by SPIRIT Inc Bratislava Slovak Republic January 2013 Supervised by Technical Support Unit of the IPCC Task Force on National Greenhouse Gas Inventories Contents 1 BACKGROUND AND PURPOSE eege eegnen 4 2 GETTING STARTED WITH THE SOFTWARE sicsnccsscecasessscvenssnccanschecasnsesssedsuannseesneuenessenseedeadearedsdnseccssacsee 5 SN DK E WE 5 2144 E ee 5 22 e e 5 2 1 3 E EIIE OTY Eege cine 5 2 2 CHECK AND MODIFY INVENTORY PREFERENCES eege EES 6 2 3 CHECK AND SET DEFAULT CO y EQUIVALENT Scsi 6 EE Ge FRC COSEQUIValent e 7 2 3 2 Adding custom CO Equivalent type EEN 7 2 3 3 Deleting custom CO Equivalent tyPe scccccccsseseccccseeseseccccseesecccsseeseccssauusecsesssaueecsssauneeesssaensees 7 2 3 4 Setting default CO Equivalent type ssececcccsseeseccccnsessccccnensecescauuseccssausecessssauseesessuunseessaaanseees 7 ZA E USE aorta 7 PA NSE OF SI AAA AO A Po 8 212 od EE RODEOS acia 8 EE FOG TW ee 8 244A PARNO da EE 9 2 4 5 Deleting existing user 9 2 4 6 Resetting password Of existing user 9 Za DISTRIBUTE DATABASE eege 9 2d e ee E r EA E EE T 9 2 5 2 Share one database vs maintaining multiple dotofbgees 9 2 5 3 Using the software in an inventory fegnm 9 3 WORKIN
30. a e e e e gem D ei 2 aF Application Database Inventory Year Worksheets Erpenz Joels Espormport Adeginitrte Window Help e x Fui Combuibon Aabrii s d TI tp e H Worksheet a LA Feud Combusti n Activities Gel Zesum 1990 2 181 Energy Industries Ell Caage Fu Camiin Astui A 144105 Man str ect and Ha Dee 1 4 1 1 Bey C 5 raha EL d IW e Gemmi Electricity Generation Stewed CO HA and NAG for fl combs by acute Categorias Tee E Ginn Lomberd Heal and Post 4 1 3 iii Heat Pisati 1 4 1 5 Petroleum sirg A 1A 1g Mnfec tec Solid Fueli red 1441 61 Maradona of Solid Fuels 14165 Other Energy indus ines LAJ Maradacioneag k r and Cornett 128 ron and Steel m I I inde MEN aire Ze Satire D J E ke MAT ri Ldb Hihat Metals NM emm E _ a oo REN 2 1636 Chemicals e 1Agd Pulp Poser ard Piet live Fee Proesisrg Fresas f Coe Je A te itGe LU Ain ite Hei ee 1LAZT orhkMerap Mnerals Lag Tinipon Ejupin 1 4 4 h Machinery TAZ Mining metin fuels aed Qu 14 7 wee md wood Geist LAZk Construcon TAZI Techie ard Lester Tazi H n apecrhed Industry l J143 Traraport FA mal a ai Su Creal Zoro c Ani International Hristom Inter i th 8 18 2nn Domibe Aviko Ghat 14 1b Flosd Tran goriabon e wa 18 Era 03 CAI Exit i Kee Ps Bang Yes TS Camine Hovwal a Iuenteeg Terr 1900 Be year fee assecomert ef uncertainty in trend
31. a e g activity data emission factors emissions Each row represents one particular activity There are different types of cells in the row like editable cells calculated value cells and text cells The different types of cells are distinguished by different color There could be additional icon placed in the cell to highlight some warning to the user e Small button with the key icon which allows setting the Notation Key for related parameter e Editable cells white background fields enabling to edit activity data emission factors and other parameters e Calculated cells green background e g emissions calculated from activity data and emission factors using the relevant formula These are not editable but automatically calculated e Column containing iconic action buttons O this action button can be used to edit remark for currently selected record If record already contains some remark the action button will be coloured green ES O this action button saves current row changes into database O this action button undoes all current row changes o X this action button deletes current row from database 36 e Summary row on the bottom showing totals of activity data and emissions in the worksheet where applicable 4 3 1 Row Status column Left most column of the grid is the Row Status column that indicates the current activity being performed within selected row There are several icons indicating the st
32. and other carbonates to the industrial source category where they are emitted e g iron and steel production mM 2 2 4 4 d should contain estimates of emissions that do not fit into any of the major sources presented in Table 2 7 in Chapter 2 of Volume 3 Insert additional rows if necessary 3 For the Tier 1 method it is consistent with good practice for inventory compiles to assume that 85 percent of carbonates consumed are limestone and 15 percent of carbonates consumed are dolomite For the Tier 1 method for soda ash use Other Uses of Soda Ash this default fraction 0 85 0 15 should not be applied and the default value for sodium carhonate should he used For default emission Figure 4 5 IPCC 2006 Guidelines window 4 2 6 Worksheet Remarks window This bottom middle window can be used to enter additional textual information or reference for whole selected worksheet within currently chosen inventory year Remark for Worksheet 1 4 17 a International Aviation Pa a a APA Save Figure 4 6 Remark window 4 2 7 Time series window This window contains the chart with emission time series across all inventory years for the particular gas expressed in Gg CO Equivalents calculated according to CO Equivalent type that is set as default 35 Emissions Gq CO2 Equivalents Kyoto Protocol Base Year 195 Gos CARBONDOXDE A OOOO Ooo OA Figure 4 7 Time Series window
33. anure Management System 2 Edit System and Definition as desired Repeat for other user defined Manure Management Systems as desired 3 Click the Save button to save changes into database or click the Undo button to discard all changes Only user defined Manure Management Systems can be modified _29 e Deleting existing user defined Manure Management System 1 Click on the existing user defined Manure Management System 2 Click the iconic delete button located in the last cell of active row Repeat for other user defined Manure Management Systems if necessary 3 Click the Save button to commit delete operation into database or click Undo to undelete all user defined Manure Management Systems marked for deletion Livestock Manager The biological oxidation of manure collected as a liquid with either forced or natural aeration Natural aeration is limited to aerobic and facultative ponds and wetland systems and is due primarily to photosynthesis Hence these systems SE become anoxic during periods without sunlight n n Le Ke Only Manure Management Systems can be e Regions Livestock Manager Livestock Subcategories Livestock Amounts Manure Management System me TE Bieber IT BM TestRecionl Ill a E E OT Figure 3 30 Regions This tab allows defining regions and thus dividing country into smaller parts which differ by average temperature e Adding new Region 1 Use last add tem
34. ark for row 6 1 5 Road Transport There was a specific request for the 1 A 3b Road transport category to enable Worksheets editable not only for the most disaggregated level such as 1 A 3 b i 1 Tier 2 but also Tier 1 calculation implemented at the more aggregated level of category such as 1 A 3 b i or even 1 A 3 b The user starts entering data at the desired level taking into account the following conditions Entering data at higher levels will be available only if no data within lower levels exist yet If there are already data at lower levels user will be informed by means of message box that it is not possible to enter data at the current level because data already exist at the lower level s Time series chart will be displayed instead of Worksheet in this case And vice versa in case user will choose the lower level and data already exist at the higher level he will be informed by means of message box that it is not possible to enter data at that level because there are already data at the higher level 6 2 CH and CO Emissions from Coal Mining and handling This worksheet covers categories 1 B 1 a i 1 Underground Mining 1 B 1 a i 2 Underground Post mining 1 B 1 a i 4 Emissions of drained Gas CH 1 B 1 a ii 1 Surface Mining 1 B 1 a ii 2 Surface Post mining 45 CH4 and CO2 Emissions Worksheet Sector Energy 1990 Category Fuel Combustion Activities Subcateg
35. ase to maintain consistency across inventory compilers This approach can easily lead to inconsistency amongst compilers and therefore is not recommended 2 5 3 Using the software in an inventory team The safe and simple way to share the data between users is to share one database The following steps 2 through 4 should be performed iteratively Figure 2 7 shows the data flow in an inventory team 1 The project manager should initialize the database as described in Chapter 2 1 2 4 2 The project manager provides the database MDB file to each user 3 After users update the data to their database this data should be exported as XML file see Chapter 3 2 7 4 The manager imports the XML file to update the database This will reduce the chances of losing or overwriting the data unintentionally Project Manager e Initial setting e Management of database Complete Inventory Waste Sector Figure 2 7 Using the software in an inventory team 10 3 Working with the Software 3 1 Main window Main window is a Multiple Document Interface window which acts as a container for all other software dialogs and windows et Database Inventory Year Worksheets pots Fe Esoriimpor gon Window Help Country Slovakia Inventory Year 1995 Base year for assessment of uncertainty in trend 1990 CO2 Equivalents SAR GWPs 100 year time horizon Database file D Projects IPCC2006 db ipcc2006 mdb _ Figure
36. ategories navigation window to select desired IPCC 2006 Category Text mapped to this category will be displayed in the large text area on the right 2 Click Edit button to open rich text editor and edit text as necessary Use formatting options font color of rich text editor as desired y Default y SY Qu Edit Value as Formatted Text Edit Value as Raw Text 1 Limestone and other carbonate materials also are consumed in a variety of other industries not covered in Chapter 2 of Volume 3 Examples include carbonates used as fluxes and slagging agents in metals smelting and refining Leg iron and steel production and base metals such as copper hand as inputs to the chemical industry eg fertiliser The methods outlined here for estimating emissions from the use of carbonates are applicable to these other industries as well It is good practice to allocate emissions from the use of limestone dolomite and other carbonates to the industrial source category where they are emitted e g iron and steel production 2 2 A 4 d should contain estimates of emissions that do not fit into any of the major sources presented in Table 2 7 in Chapter 2 of Volume 3 Insert additional rows if necessary 3 For the Tier 1 method it is consistent with good practice for inventory compiles to assume that 85 percent of carbonates consumed are limestone and 15 percent of carbonates consumed are dolomite For the Tier 1 method for soda ash
37. atus as follows e D indicates active row This row is just selected not in edit mode e el Currently selected row is in edit mode Edit mode is activated as soon as a value in any cell is changed by user indicates that the row is an add new row that is used as a template for new row El add new row in edit mode Edit mode is activated as soon as user starts to enter values into cells of add new row 4 3 2 Adding new row If the worksheet allows the user to add new rows the add new row can be found as the last row of the grid marked with A Status Row icon This row acts as a template for the new row As soon as the user starts entering data in cells of an add new row edit mode is activated and Status Row icon changes to sel After filling all the required cells new row is saved into database automatically after navigating to another row or after pressing the Li button or after grid looses focus Validation of entered data is performed before the new row is stored into database In case of any error in the supplied data user will be informed to correct it 4 3 3 Canceling adding new row Adding of new row can be canceled anytime using the ESC Escape key or 2 or LX action buttons In case of using ESC key the behavior is as follows e If the active cell is in edit mode hitting ESC cancels editing of that cell and undoes changes on that cell New row remains in edit mode e Pressing ESC again while none of the
38. base If database is open use this menu item to close the current database Current logged in user will be logged out automatically All database related functions and modules of the software will become disabled 16 If database is closed use this menu item to browse for and open new database All database related functions will become available again after valid user logs in Automatic database upgrade Starting from version 2 10 software supports automatic conversion of databases coming from the previous versions of the software versions 2 00 and later are supported This means users can comfortably use their existing databases from previous versions without putting any extra effort to transfer existing data When database from older version of the software is open in new version of the software user will be prompted to start automatic database conversion After database is successfully converted it will become fully compatible with the new version of the software 3 2 2 2 Save as This menu item allows the user to save database under a different file name to a different location It is possible to compress ZIP saved database file to save space This opens the possibility to maintain several independent versions of the database Database is password protected however it is possible to remove password protection during saving Database with password protection removed cannot be opened by the software 3 2 2 3 Properties This menu it
39. cells is in edit mode cancels adding new row removing it from the worksheet In case of using iconic action buttons the new row will be cancelled immediately no matter if any cell is in edit mode 4 3 4 Editing existing row Edit mode L is activated as soon as the user starts modifying data in editable cells Modified row is saved into database as soon as the user leaves the row being edited or by pressing the d button or after grid looses focus Validation of entered data is performed before the row is updated in the database In case of any error in the supplied data user will be informed to correct it 4 3 5 Canceling editing existing row Undoing cell changes ESC key or L action button can be used to undo row changes In case of using ESC key the behavior is as follows e If the active cell is in edit mode hitting ESC cancels edit mode of that cell and undoes changes made to cell data if any o If there are no more cells changed in edited row this also cancels row editing o If there are more cells that have been changed while editing row hitting ESC again undoes changes in all changed cells and cancels row editing returning it to its original state In case of using 2 action button changes in all cells will be undone automatically at once and edit operation on row will be canceled 4 3 6 Deleting rows Pressing the Delete selected rows button or hitting the DEL key deletes all rows selected More rows can be selected at the
40. column This amount will be subtracted from total CO emissions in the current row record Column E CO Emissions This is a calculated column Value is calculated automatically using the formula E C D 106 Z This column also contains 7 button which enables user to choose NE notation key indicating that the emissions were Not Estimated for CO Column F CH Emission Factor This column contains the selection list of default values where appropriate emission factor for CH can be chosen It is also possible to manually enter custom value if needed Column G CH Emissions This is a calculated column Value is calculated automatically using the formula G C F 1046 This column also contains Fi button which enables user to choose NE notation key indicating that the emissions were Not Estimated for CHA Column H N O Emission Factor This column contains the selection list of default values where appropriate emission factor for N O can be chosen It is also possible to manually enter custom value if needed Column N20 Emissions This is a calculated column Value is calculated automatically using the formula C H 10 6 This column also contains button which enables user to choose NE notation key indicating that the emissions were Not Estimated for N20 Column with action buttons This column contains iconic action buttons which can be used to perform Save Undo Delete of row and to define Rem
41. d is responsible for defining and managing additional users working with this instance of application Please supply superuser login name and password in the textboxes Figure 2 1 Define Super User 2 1 2 Choose country In this step it is necessary to choose desired Region and Country Territory following Figure 2 2 below Country is relevant for F Gases AFOLU and Waste worksheets Selected country has no direct impact on other worksheets Energy IPPU Please note that this country list is based on the UN list which is available at http unstats un org unsd methods m49 m49regin htm Choose Country Terntory Figure 2 2 Choose Country 2 1 3 Create Inventory Year In this step it is necessary to create initial Inventory Year Figure 2 3 After creating Inventory Year software is successfully initialized and prepared for use or for additional tuning described in the next chapters 5 New Inventory Year Create empty inventory year Woo a e Ly aa Figure 2 3 Creating Inventory Year 2 2 Check and modify Inventory Preferences Use Application Preferences menu to access Application preferences Figure 2 4 Switch to Inventory Year tab as shown in the picture below Start inventory year 1990 End inventory year 2011 Base year for assessment of uncertainty in trend 1990 Figure 2 4 Setting Inventory Preferences Check and modify following values if necessary 1 Us
42. d to Managed Soils This worksheet is available under 2006 IPCC Guidelines Category 3 C 4 Direct N O Emissions from managed soils It is used for computation of organic N applied to Managed Soils to be used in all relevant worksheets under 3 C category 55 Organic N applied to Managed Soils 1 of 3 Direct N20 Emissions from Managed Soils 2 of 3 Direct N20 Emissions from Managed Organic Soils 3 of 3 Direct N20 Emissic 4 gt Worksheet Sector Agriculture Forestry and Other Land Use Category Livestock Subcategory 3 0 4 Direct N20 Emissions from managed soils Sheet Organic N applied to Managed Soils Data Sum of N for all MMS excent PRP V 10142155 Fraction of managed aa iefault 0 F Sum of N for PRP Sheep and other animals SO maen Fraction of managed manure used for fuel default 0 5 Sum of N for PRP Cattle Poultry and Pigs CPP 2202729 Compost applied kg N yr 1 X 2 500 Sewage Sludge applied kg N yr 1 Y 2 000 Other Organic amendments ko N yr 1 Z 4 000 Fraction of managed manure used for construction default 0 T Fraction applied to Soils 1 R S T U N from Organic N additions applied to Soils Fon kg N yr 1 W U X Y Z Fraction of N from Organic additions above applied to flooded rice Figure 7 6 Organic N applied to Managed Soils The green cells are computed from the worksheets under category 3 A 2 Manure Management The white cells are editable allowing to specif
43. duction 1 4 1ai Electricity Generation 27273 761 0 329 0 410 0 000 0 000 0 000 0 000 Lat Combined Heat and Power Generation CHP 1 4 Lali Heat Plants 2928 816 TA Tb Petroleum Refining 0 500 j 1 A 1 c Manufacture of Solid Fuels and Other Energy Industries 1 4 1 c i Manufacture of Solid Fuels 0 000 0 000 0 000 0 0001 0 000 0 0001 0 000 Figure 3 13 Example of Energy Sectoral Table 1 2006 IPCC Guidelines for the National Greenhouse Gas Inventories 19 3 2 5 4 Background tables This set of reporting tables displays activity rates fuel types if applicable and Greenhouse Gas emissions divided into detailed 2006 IPCC Guidelines categorization up to the most disaggregated level The values are taken from the Worksheets There is a special Reporting Table 1 4b for category 1 C CO transport and storage which is editable Table 1 2 Energy Background Table 1 4 3 1 4 5 Table 1 3 Energy Background Table 1 B Table 1 4b Energy Background Table 1 C Overview Table 1 5 Energy Ba IPCC 2006 Categories q Activity TJ Gester al RT Solid Liquid Gas Other Fossil Fuels Peat Biomass CO2 CH4 N20 H4 N20 CO2 CH4 1 A Fuel Combustion Activities ML 1AT Main Activity Bcc and Heat Production Bo e Eeri Generi n O 28426000 21850000 0 000 ooo 0 000 0000 25644 186 026s 0 397 1629575 0066 0 013 0 000 00 B 1212 Corte Hestand Power 0000 0000 0 000 0 000 0 000 s4s
44. dure of calculation uncertainty in Table 3 2 is explained on page 3 29 of Chapter 3 in Volume 1 of the 2006 IPCC Guidelines More information on how to enter Uncertainties within each type of worksheet can be found in Chapter 3 3 of this document To perform Uncertainty Analysis click the Refresh Data button Uncertainty Analysis Approach 1 Table 3 2 Base year for assessment of uncertainty in trend 1990 Year T CE A Activity Data Emission Factor Combined IPCC 2006 Categories or removals d Uncertainty Uncertainty Uncertainty Gg CO2 equivalent Gg D 1 A Fuel Combustion Activities 1 A 1 a i Electricity Generation Liquid Fuels IM 1 4 1 2 Electricity Generation Solid Fuels Number of decimal places 3 Y Zero padding Figure 3 16 Example of Ucertainty Analysis table 3 2 6 2 Reference Approach The Reference Approach is a top down approach using a country s energy supply data to calculate the emissions of CO from combustion of mainly fossil fuels The Reference Approach is a straightforward method that can be applied on the basis of relatively easily available energy supply statistics 1 A Reference Approach Reference Approach Data Estimating Excluded Carbon Comparison Sector Energy Category code 1A Sheet 1 of 1 CO2 from energy sources Reference Approach Step 1 PP z Conversion ege inten antes ee Internationa Stock on Apparent Factor Consumption Bunkers Consump
45. e Start inventory year numeric box to set starting inventory year Default is 1990 2 Use End inventory year numeric box to set ending inventory year Default is current year 3 Use Base Year for assessment of uncertainty in trend numeric box to define Base Year for assessment of uncertainty in trend Default is 1990 After setting the start inventory year to lower value e g 1980 it is recommended to create new inventory for that year before starting working with the worksheets menu nventory Year Create New or before distributing the database to other compilers After lowering start inventory year and creating new inventory for that year you can delete default empty 1990 Inventory created in step 2 1 3 using Administrate Delete inventory menu if necessary 2 3 Check and set default CO Equivalents Currently active default CO Equivalent Type is indicated in the status bar located at the bottom of the main software window Use Administrate CO Equivalents menu to access management of CO Equivalents Type Gas Group CO2 CH4 amp N20 CO2 Equivalent CARBON DIOXIDE CO2 METHANE CH ees 21 NITROUS OXIDE N20 Gas Group E Ethers and Halogenated Ethers 8 HFCs CO2 Equivalent WICH A BBFC RCH A Won A HFC 125 CHF2CF3 Figure 2 5 CO Equivalents 2 3 1 Fixed CO Equivalent types The Type list contains 3 fixed types with fixed CO Equivalent values that cannot be changed or deleted e
46. e WANA arras 26 3 2 8 5 AFOLU Livestock Man el aca A o STE 27 3 2 8 6 Guidelines IATONMaAtlON TOS a ace eens T ee a ee ie diet 30 3 2 9 WY NO et 32 3210 EI A A O ias rte 32 WORKING WITH THE WORKSHEETS indic 33 AL BASICTAYOUT OF THE WORKING AREA ui a ca 33 AZ WORKING WITH WINDOWS REDER EE EEN 33 4 2 1 Undocking een 33 4 22 Docking floating WINDOWS EE 34 423 AUTO RIGING docking WINDOWS A ios 34 4 2 4 IPCC 2006 Categories Navigation Window free 34 4 2 5 IPCC 2006 Guidelines WINdOW ooccconccncccnoncnoncnonaconaconacononconaconaronnncnnnoconaronarcnnoconaronaronnccnnacanos 35 4 2 6 Worksheet REIMOLKS WINDOW ai dias 35 ADT ASA A A O A EA 35 dee WORKING WITH THE GRID inirapan a dcir 36 4 3 1 Row Status column EE 37 AS2 O e A ee a 37 AB GER gedet ee Seele ite 37 4 34 Editing existing el 37 4 3 5 Canceling editing existing row Undoing cell CHANGES eeeesssseesseeseeeerererrrrrrrrrrrrrrrrrrrerrrereeees 37 436 Deleting TOWS as 37 ABT A 38 AO ANOTOTON KO VS oirne T EE 38 AA TIMESERIES DATA ENT e dl edo 39 4 4 1 PALO NC Ss A A A a bended Dawe aahwwytedes 39 AAD e e Et 39 AAS ee ee EE 39 AAA IDO rOn EX COL eher eege 40 AAS CODY GHGPOS CC JUNCOS a eege 40 E O A O A O 40 WORKSHEET TYPES coa 41 5 1 SINGLE ACTIVITY WORKSHEET WITH DYNAMIC ROWG cssccsccscosccevessasscescerssusasccsccsccescersersavscersensascascc
47. ed Grassland Improved Test Grassland Unimproved Unmanaged Wetlands Flooded Land 1 Other Land 1 Other Land 2 Peatland1 Initial Area Net Change Figure 7 4 Land Use Matrix Columns of the Land Use Matrix represent the Initial land use during inventory period Summary row Initial Area at the bottom of the matrix gives the total initial area for each Land Use Subcategory in the beginning of the inventory period Rows of the Land Use matrix represent the final land use at the end of inventory period Last Summary column Final Area gives the total final area for each Land Use Subcategory at the end of inventory period Net change represents the total net change in each Land Use Subcategory area during the inventory period 7 4 AFOLU Region Livestock MMS associations This worksheet is available in all 3 A Livestock categories It is used for defining the associations between Regions Livestock and MMS systems defined in Livestock Manager see Chapter 3 2 8 5 Region Livestock MMS Associations CH4 Emissions from Manure Management Direct N20 Emissions from Manure Management Systems Agriculture Forestry and Other Land Use Livestock 3 4 2 ai Dairy cows 1of1 A Region Average Temperature EEE e e e e e e e e D em G e a A en Number of Animals Typical Animal Mass Excretion Rate per mass per Gay Excretion Rate per animal per year T AM T k
48. em can be used to display dialog window containing properties of the currently open database Database properties Database file Database version Database size Compact and repair Date created 7 5 2012 10 29 06 Date modified 7 5 2012 14 32 38 Last backup 7 5 2012 CO Equivalents SAR GWPs 100 year time horizon Inventory Years 1990 Compiler Compiler grequs Figure 3 8 Database properties Following information is available e Database file full path to currently open database file MDB e Database version version of the database file e Database size size of the database file in bytes e Date created the date when the database was created e Date modified the date of the last modification of data in the database e Last backup the date of the last database backup e CO2 Equivalents currently selected GWP type GWP types can be managed using the Administrate CO2 Equivalents menu e Inventory Years the list of inventory years in the currently open database e Users the list of defined users in the currently open database _17 Button Compact amp Repair can be used to compact to reduce size on disk or repair the database file in case it is corrupted 3 2 2 4 Logout This menu item logs out currently logged in user 3 2 3 Inventory Year menu This menu allows the user to choose current inventory year as well as to create new inventory year 3 2 3 1 Choosing Invento
49. emissions divided into 2006 IPCC Guidelines Sub sectors up to level 2 The values are aggregated from Summary table Emissions Emissions Emissions Gg CO2 Equivalents Gg Gg Other Other halogenated halogenated D Categories Net CO2 142 CH4 N20 HFCs PFCs SF6 gases with CO2 gases without NOx co NMVOCs SO equivalent CO2 equivalent conversion conversion factors 3 factors 4 IB Total National Emissions and Removals OOOO Vee OCs TA Fuel Combustion ets BEIER Ei zig PP fofo 0 000 oo Hl 18 Fuciivecmissionstromfels ESE A VS A A A EE 1C CorvondioxdeTrenspotendSirege O 0000 0 000 0 000 0 000 2 Industrial Processes and Product Use 2 Industrial Processes andProdutUse Oooo O O ES EE VE VI E E EE E AD FChamiasl Les sl vente R 7C nmi N TAN AQ 124 nana nana NANTI NANAI ANN nana nana Figure 3 12 Example of Short summary table 3 2 5 3 Sectoral tables This set of reporting tables is available for each sector and displays Greenhouse Gas emissions divided into detailed 2006 IPCC Guidelines categorization up to the most disaggregated level The values are taken from the Background tables Energy sectoral table contains additional functionality regarding Precursors NOx CO NMVOCs SO2 These can be manually edited here Emissions Gg Categories gek CH4 N20 NOx CO NMVOCs 1 A Fuel Combustion Activities 1 A 1 Energy Industries 1 A 1 a Main Activity Electricity and Heat Pro
50. emissions from fuels E 1 C Carbon dioxide Transport and Stora EW 2 Industrial Processes and Product Use 9 2 4 Mineral Industry 3 2 B Chemical Industry 9 2 C Metal Industry MF 2 D Non Energy Products from Fuels an 2 E Electronics Industry gt 9 2 F Product Uses as Substitutes for Ozo gt gt 9 2 G Other Product Manufacture and Use 7 2 H Other E 3 Agriculture Forestry and Other Land Use A 3 4 Livestock E 3 0 Aggregate sources and non C02 em 2 3 D Other CETA Waste o k E 4A Solid Waste Disposal E 4 E Other please specify EIB Other H E 5 A Indirect N20 emissions from the atm 5 5 B Other please specify 1 Je Figure 2 6 User Management 2 4 1 List of Users This section contains the list of all users defined in the database divided into two groups e Superusers contains the list of all Superusers User marked blue represents currently logged in user Following restrictions apply for Superusers Currently logged in user is prohibited to remove itself from the Superusers group for security reasons Currently logged in user is prohibited to delete itself All worksheets are allowed automatically without possibility to change the list of allowed worksheets e Users contains the list of ordinary users Following restrictions apply Access to Administrate section of the software is prohibited Can see and edit only worksheets speci
51. er data into Excel by clicking the Export to Excel button Data for that parameter then can be modified in Excel and imported back into the software Example of exported XLS is in the following figure B Sector Energy 2 Fuel Combustion Activities 3 14 141 Electricity Generation d CO2 CH4 and N20 from fuel combustion by source categories Tier 1 5 Parameter Consumption Mass Volume or Energy Unit 6 T Fuel Consumption Unit 1990 1991 1992 1993 1994 1995 8 Crude Oil Gg 250 210 260 260 250 9 Ormulsion Gg 410 300 350 350 300 410 10 Anthracite Gg 1100 1100 1200 1200 1000 1100 11 Coking Coal Gg 2100 2100 2200 2200 2000 2100 12 Other Bituminous Coal Gg 3100 3050 3100 3100 3000 3100 13 Sub Bituminous Coal Gg 4100 4020 4100 4100 4000 4100 14 Lignite TJ 5200 5200 15 Lignite Gg 5100 5100 5100 5000 16 Oil Shale Tar Sands Gg 510 510 560 580 500 510 17 Brown Coal Briquettes Gg 610 600 650 650 600 610 39 Figure 4 12 Exported parameter in Excel 4 4 4 Import from Excel Pressing the Import from Excel button allows importing of previously exported parameter back into the software Software asks for the input XLS file and if it meets the conditions it will be imported The format of data as Excel file can be obtained by exporting Excel file See Chapter 4 4 3 4 4 5 Copy and Paste functions Time Series Data Entry table implements the Copy and Paste functions which can be used to transfer data from to table between t
52. es are computed from default values for selected IPCC Category and Gas Default values can be changed and are stored into database automatically after pressing the OK button Column with action buttons This column contains iconic action buttons which can be used to perform Save Undo of row and to define Remark for row 6 3 CH Emissions from Abandoned Underground Coal Mines This worksheet covers category 1 B 1 a i 3 Abandoned Underground Mines CH4 Emissions From Abandoned Coal Mines Worksheet Sector Energy 1990 Category Fuel Combustion Activities Subcategory 1 B 1 i 3 Abandoned underground mines Sheet CHA emissions from abandoned underground coal mines Tier 1 A B Cc D Methane F Methane recovered Gg CH4 Methane emissions to be reported Gg CH4 Closure Interval Number of abandoned Gassy Emission Factor Conversion Factor Emissions mines Coal Mines m3 Y ear Gg CH4 m3 Gg CH4 E A B C D NN ze 2 Best WII ER Bee NL ERT ga 34 A E ee ee mme SSES Ts C EE Figure 6 5 Example of Abandoned Underground Mines worksheet 6 3 1 Entering data Column Closure Interval This column contains the selection list where closure interval can be selected It is editable enabling user to type in custom interval if needed Selecting one of the predefined closure intervals automatically fills the Column C Emission Factor with appropriate default value as defined in 20
53. everal tabs Parameters defined here are used in all relevant worksheets Livestock 97 Livestock subcategory Livestock subcategory eech Category Annual Average Populatio n head Typical Animal Mass Average Populatio n head Excretion Rate per mass per day kg NA 1000kq animal mass Excretion Rate per mass per day kg N1000kg animal mass Nex T Excretion Rate per animal per year kg Mianimal yri Mex T TAM T 1000 365 ER Mex T Excretion Rate per animal per year kg Mianimal yri Remark AN i 1 000 365 ER Category Mules and Asses H H H EI E Figure 3 28 Livestock Subcategories This tab allows defining custom Livestock subcategories under each 2006 IPCC Guidelines main Livestock category e Adding new Livestock Subcategory 1 2 3 Expand the desired main Livestock Category Use last add template row to add new Livestock Subcategory Enter Livestock Subcategory name annual average population N T typical animal mass TAM T excretion rate per mass per day ER and optionally remark Excretion rate per animal per year Nex T will be computed automatically Repeat for other main categories as desired Click the Save button to save new defined Livestock Subcategories into database e Editing existing Livestock Subcategory 1 2 3 Click on the existing Livestock Subcategory under main Livestock Category of interes
54. f Carbon Black B 9 Fluorochemical Production 2 B 9 a By product emissions 2 B 9 b Fugitive Emissions 1 el mM wS iise 3 a al al el el D 2 C 1 Iron and Steel Production Figure 3 19 Exporting worksheet data Take the following steps to export part of an inventory year 1 Select one or more category of interest Categories containing worksheets data are marked blue 2 Click the Export button and supply the destination XML file when asked 3 2 7 2 Export CO Equivalents This menu item opens dialog box that allows exporting of custom not fixed CO Equivalents into an XML file The structure of hierarchy is Custom CO Equivalent Type Gas groups Gases IPCC 2006 Export CO2 Equivalents E v CO2 CH4 amp N20 CARBON DIOXIDE C02 METHANE CH4 NITROUS OXIDE N20 Ethers and Halogenated Ethers Perfluorocyclopropane c C3F6 PFC 14 CF4 PFC 116 C2F6 PFC 218 C3F8 PFC 3 1 10 C4F10 PFC 318 c C4F8 PFC 4 1 12 C5F12 PFC 5 1 14 C6F14 ecursors Sissi al al al S si Vi Me n Sulphur Hexafluoride SF6 3 Nitrogen Trifluoride NF3 SF5CF3 Other GHGs GE 22 Figure 3 20 Exporing custom CO Equivalents Take the following steps to export c
55. fied as Allowed Worksheets 2 4 2 Selected User Details e Login represents the login name Login name must be unique within one particular database e Superuser defines the user as a Superuser if checked e Allowed Worksheets defines the list of worksheets user can see and edit applies to ordinary users only 2 4 3 Adding new user Take following steps to define new user 1 Enter the desired unique login name into the Login textbox 2 Use Superuser checkbox to define user as a Superuser checked or ordinary user unchecked 3 In case of ordinary user define Allowed Worksheets for the user to work with 4 Click Set password button to explicitly set password for new user 5 Click Add new button to save new user into database 2 4 4 Editing existing user Take following steps to edit existing user 1 Click on the desired user within List of users 2 Change desired user details 3 Click Save button to save changes into database 2 4 5 Deleting existing user Take following steps to delete existing user 1 Click on the desired user within List of users 2 Click Delete button to delete user 3 Commit or cancel deletion when asked 2 4 6 Resetting password of existing user Take following steps to reset existing user s password 1 Click on the desired user within List of users 2 Click Set password to reset password to new one 3 Enter and confirm new password when asked 2 5 Distribute database After performing all s
56. g N 1000kg animal mass 1 Nex T day 1 kg N animal 1 yr 1 G E 1000 F 365 A E E EE CSR K L N in organic Bedding solid storage and deep bedding MMS Managed Manure N available geg otherwise zero NMMS NBeddingMS kg N yr kg N animal 1 yr Animal I T AM T T head kg A L D G 1 1 J 100 D 1 K Typical Animal Mass Excretion Rate per mass per day Excretion Rate per animal per year TAM T kg N 1000kg animal mass 1 Nex T day 1 kg N animal SE yr 1 G E 1000 F 365 Region Average Temperature Figure 7 5 AFOLU Region Livestock MMS associations The grid contains three bands e Region band it allows to choose region from existing regions defined in Livestock manager Region contains livestock e Livestock band it allows to assign custom livestock defined in Livestock manager to the particular region specifying the number of animals belonging to that region and the animal mass Default values for animal mass and excretion rate are taken from Livestock manager e MMS band it allows to assign custom MMS defined in Livestock manager to the particular livestock specifying name and parameters Default values of parameters are taken from Livestock manager Defined associations and parameters are then used in Direct N20 emissions from Manure Management Systems worksheet under 3 A 2 Manure management subcategories 7 5 Organic N applie
57. he IPCC Inventory Software and other third party software e g Microsoft Excel Copy function Data can be copied into the clipboard by highlighting desired cells and pressing Ctrl C keys Data stored in the clipboard can than be pasted into any third party software that supports data pasting There are 2 ways of highlighting cells to be copied e Using mouse use left most column to highlight cells by rows or column headers to highlight cells by columns e Using keyboard click the starting cell from which you want to start highlighting the region If the cell is editable it will switch to edit mode disabling the highlighting function Therefore it is necessary to press ESC to exit edit mode While cell is not in edit mode but selected use Shift keyboard arrows to highlight the desired region of cells Paste function Data can be pasted from clipboard into the Time Series Data Entry table in case the structure of data is tabular e g copied from Microsoft Excel 1 Select the starting cell for which data paste should start 2 If the cell is editable it will switch to edit mode It is necessary to exit edit mode using ESC key before pasting data 3 If you decide to define a paste region by highlighting cells using the Shift keyboard arrows be sure your region matches the structure stored in the clipboard number of columns and rows must match 4 Use Ctrl V to paste data Cells that are read only automatically calculated green cells or o
58. her carbonates to the industrial source category where they are emitted e g iron and steel production 2 2 4 4 d should contain estimates of emissions that do not fit into any of the major Emissions Gq CO2 Equivalents Country Slovakia Inventory Year 1990 Base year for assessment of uncertainty in trend 1990 CO2 Equivalents SAR GWPs 100 year time horizon Database file Figure 3 33 Example of IPCC 2006 Guildelines Window content 3 2 9 Window Use this menu to e Minimize all minimizes all windows to display main working area e Close all closes all open windows e Windows list quickly activate the particular window by selecting it from the window list 3 2 10 User manual Help this file About Important information about the Version of IPCC Inventory Software installed Version 2 0 4510 17184 from 7 maja 2012 2006 IPCC Guidelines Developed by SPIRIT Inc Under IPCC contract Figure 3 34 About Box Ee 4 Working with the Worksheets 4 1 Basic layout of the working area SI 2006 IPCC Sofware for National Greenhouse Gas Inventories gregus Weeksherts 1 A ki e CET DEE AS sisis a A di Application Datakase Inventory est Worksheets Reports Tee ExpertImpert Adppinistete Wangen Help lees Fuel Combustion Acti 1 Energy L Fuel Combustion Acirmibes LAT Engigy Indus ried 1418 rre Seal Das 11 Heat Planes ul Typa Let Fushi L
59. ignificant share of the national vehicle popu inventory compilers should adjust the given RES EA emission factor downwards A Low Mileage Light Motor gasoline light duty vehicle vintage 19 Duty Vehicle default value is based on the USEPA 20045 Vintage 1955 or USA Light Duty Gasoline Vehicle Car Tie 5 7 kgTJ using values and assumptions described int H motorcycles account for a significant share national vehicle population inventory compil adjust the given default emission factor dowr Figure 4 10 Value List containing emission factors 4 3 8 Notation Keys Notation Keys can be set by clicking the button of the particular cell This enables to set Activity Data and Emissions Notation Keys Activity Data Notation Keys Can be one of IE NE C e E Activity is included elsewhere all Activity Data and Emission Factor related columns will be blank and not editable in this case e NE the same as for IE e C Activity data are confidential they will not be exposed in reporting tables Emissions Notation Keys Can be NE this means that emissions are not estimated All Emission Factor related cells will be blank and not editable Activity Data remain editable _ 38 4 4 Time Series Data Entry Majority of worksheets supports time series data entry This means that parameters of worksheets can be edited across existing inventory years Time series data entry worksheet can be activated by pressi
60. lass yr Unspecified Natural Forest Growing stock level m3 ha Unspecified l Plantation Carbon fraction of aboveground forest biomass tonne C tonne d m Ratio of below ground biomass to above ground biomass R kt root d m t shoot d m Biomass conversion and expansion factor for wood and fuelwood removal BCEFr t m3 wood volume Above ground biomass in forests ft d m ha Above ground biomass growth in plantation natural forests d m Jaar Reference soil organic carbon SOC stock C ha Litter carbon stocks of mature forests tC ha Relative stock change factor Land use FLU Management FMG nowy 1000 Figure 3 27 Land Type Manager Land Type Manager window consists of the following sections 26 e Navigation section contains the list of Land Use Subcategories divided into corresponding main Land Type categories Forest Cropland Activation of the particular Land Use Subcategory shows relevant details e Common Land Type Data contains data that is common for all Land Types Country Climate Region a e Particular Land Use Subcategory data contains details of the particular Land Use Subcategory that is selected in the navigation section Adding new Land Use Subcategory Take the following steps to define new Land Use Subcategory 1 Select one of the main Land Use Categories in the Navigation section 2 Click the Add button located at the bottom of the
61. lso are consumed in a variety of other industies not covered in Chapter 2 of Volume 3 Examples include carbonates used as fluxes and slagging agent in metals smelting and refining e g iron and steel production and base metals such as copper and as inputs to the chemical industry eg fertiliser The methods outlined here for estimating emissions from the use of carbonates are applicable to these other industries as well lt is good practice to allocate emissions from the use of limestone dolomite and other carbonates to the industnal source category where they are emitted e g iron and steel production 2 2 4 4 d should contain estimates of emissions that do not fit into any of the major sources presented in Table 2 7 in Chapter 2 of Volume 3 Insert additional rows if necessary EH 2 B Chemical Industry 2c Metal Industry 2 D Non Energy Products from Fuels and EH 2 E Electronics Industry Cie Product Uses as Substitutes for Ozone 2G Other Product Manufacture and Use ME E 2 H Other EI 3 Agriculture Forestry and Other Land Use D 4 Waste E 5 Other 3 For the Tier 1 method it is consistent with good practice for inventory compiles to assume that 85 percent of carbonates consumed are limestone and 15 percent of carbonates consumed are dolomite For the Tier 1 method for soda ash use Other Uses of Soda Ash this default fraction 0 85 0 15 should not be applied and the default value for sodium carbonate
62. n Value is calculated automatically using the formula G E F Column with action buttons This column contains iconic action buttons which can be used to perform Save Undo Delete of row and to define Remark for row 6 3 2 Uncertainties Clicking the button labeled Uncertainties located at the bottom of the worksheet opens dialog box that can be used to enter Activity Data and Emission Factor uncertainties for category Default AD uncertainties are prefilled according to 2006 IPCC Guidelines Default EF uncertainties are computed from default values for selected Closure Interval Default values can be changed and are stored into database automatically after pressing the OK button 6 4 CO Emissions from CH Flaring This worksheet covers the category 1 B 1 a i 4 Underground Mines Hang of drained methane or conversion of methane to CO Worksheet Sector Energy 1990 Category Solid Fuels Subcategory 1 B 1 314 Haring of drained methane or conversion of methane to CO Sheet CO emissions and unbumt CH4 emissions from drained methane flared or catalytically oxidised E Cc D CO Combustion efficiency Stoichiometric Mass Emissio ns factor Factor A B Volume of Methane Conversion combusted Factor m3 Gg CH4 m3 D CARBON DIOXID I METHANE CH4 Total Time Se es data entry Figure 6 6 Example of CO Emissions from CH4 Flaring worksheet 6 4 1 Entering data Column Gas Represents a Gas to which
63. ng the Time Series Data Entry button located under the grid This will open the following window ZS 1 4 1 a 1 Electricity Generation Sector Energy Category code 1 A 1 ai Electricity Generation Sheet CO2 CH4 and N20 from fuel combustion by source categories Tier 1 Parameter Consumption Mass Volume or Energy Unit Consumption Unit 1990 1991 1992 1993 1994 1995 ao 201 260 Ct 250 IE 201 ee Consumption Mass Volume or Eneray Unit Figure 4 11 Time Series Data Entry 4 4 1 Parameters Parameter list contains the list of all editable parameters contained in the worksheet By choosing the particular parameter the grid wil display the selected parameter values across existing inventory years grouped by all available combinations of row identifiers Values in white cells are editable 4 4 2 Row Indentifiers Grid columns preceding years are so called Row Identifiers that uniquely identify the Worksheet rows across all existing years representing all existing combinations of identifiers across years In case parameter value is not editable within the particular row shaded this means that the combination of relevant row identifiers does not occur in that particular year For example according to Figure 4 11 there is no existing record for combination of Lignite and Consumption unit Gg in years 1990 and 1995 4 43 Export to Excel It is possible to export the selected paramet
64. nties Uncertainties can be entered at row level using the corresponding Uncertainties button located within the last column of grid 5 4 2 Example IPCC categories e 1 B 1 a Underground mines e 1 C Carbon Dioxide Transport and Storage 5 5 Worksheets missing notation keys There are several IPCC categories where notation keys functionality has not been implemented These include e 3 A Livestock e 3 B Land e 3 C 1 Emissions from biomass burning e 3 D 1 Harvested Wood Products e 4 A Solid Waste Disposal on Sites Applicability and use of notation keys in these categories needs to be further examined discussed 5 6 Worksheets missing uncertainties There are several worksheets where uncertainties have not been implemented These include e 3 D 1 Harvested Wood Products e 4 A Solid Waste Disposal on Sites Applicability and use of uncertainties in these categories needs to be further examined discussed 6 Example Worksheets This chapter contains the examples of several worksheets 6 1 Fuel Combustion Activities This worksheet covers all categories within the category 1 A Fuel Combustion Activities Worksheet is available for each sub category at the most disaggregated level see Road Transport for exception 42 Fuel Combustion Activities Worksheet Sector Energy 1990 Category Fuel Combustion Activities Subcategory 1 A 1 ai Electricity Generation Sheet CO2 CH4 and N2
65. ory 1 8B 1ai 1 Mining Sheet CH4 emissions from underground and surface coal mining and handling Tier 1 Data Gas METHANE CH4 si HANE METHANE CH4 si v A B e D e F e Amount of Coal Emission RH Conversion sarap Methane weg rd emm Uncertainties Produced Factor CM Factor G pe recovered cea tonne m3 tonne gt Gg CH4 m3 sar D Gg CH4 Ca EF y 260 000 6 7E 7 122 Y EJ HL m ele E Cem Rp S Time Series data entry Figure 6 4 Example of CH amp CO Emissions from Coal Mining and handling worksheet 6 2 1 Gas Selection box labeled Gas is available and enables user to choose the appropriate gas CH or CO Grid header information will be appropriately adjusted according to selected Gas 6 2 2 Entering data Column A Amount of Coal Produced This column enables user to enter decimal value representing the amount of coal produced in tones Amount of coal produced is the same for Mining and Post Mining subcategory Changing the value in any row automatically changes value in all rows It also contains Ed button which enables user to choose one of the available notation keys IE C NO Selecting NO or IE disables all editable cells in current row meaning that the activity data emissions for current category are either Not Occurring or are Included Elsewhere Selecting C means that activity data are Confidential and will not be exposed in reporting tables Column B Emission Factor
66. ory Industry Segment and gas can be chosen It is automatically filled with the default value as defined in 2006 IPCC Guidelines It is possible to manually enter custom value if needed Column E CH Emissions This is a calculated column Value is calculated automatically using the formula C A D This column also contains 7 button which enables user to choose NE notation key indicating that the CH emissions were Not Estimated Column F N O Emission Factor This column contains the selection list of default values where appropriate emission factor for selected Subcategory Industry Segment and gas can be chosen It is automatically filled with the default value as defined in 2006 IPCC Guidelines It is possible to manually enter custom value if needed Column G N O Emissions This is a calculated column Value is calculated automatically using the formula G A F This column also contains Fd button which enables user to choose NE notation key indicating that the N O emissions were Not Estimated Column with action buttons This column contains iconic action buttons which can be used to perform Save Undo Delete of row and to define Remark for row 6 6 2 Uncertainties Clicking the button labeled Uncertainties located at the bottom of the worksheet opens dialog box that can be used to enter Activity Data and Emission Factor uncertainties for category Default Activity Data uncertainties are prefilled according to 2006 IPCC
67. plate row to define new Region Enter region name average temperature and optionally remark Repeat to add more regions 2 Click the Save button to save new regions into database e Editing existing Region 1 Click on the existing Region 2 Edit name average temperature remark Repeat for other existing regions as necessary 3 Click the Save button to save changes into database or click the Undo button to discard all changes e Deleting existing Region 1 Click on the existing Region 2 Click the iconic delete button located in the last cell of active row Repeat for other regions if necessary 3 Click the Save button to commit delete operation into database or click Undo to undelete all regions marked for deletion 3 2 8 6 Guidelines Information Texts This menu item opens a special dialog where rich text can be edited for each of the 2006 IPCC Guidelines Categories Such texts will then be displayed for currently active 2006 IPCC Guidelines Category in the IPCC 2006 Guidelines Window within Worksheets window 30 Reo E D 1 Energy CH 2 Industrial Processes and Product Use E 2 A Mineral Industry 24 1 Cement production gt LAZ Lime production e 2A3 Glass Production CH 2AA Other Process Uses of Carbonat E q 2 A4 a Ceramics 2 4 b Other Uses of Soda Ash 24 0 Non Metallurgical Magnesi 24 4 Other please specify i 24 5 Other please specify 4 Limestone and other carbonate materials a
68. ppearing in the table such as a A Land Use Subcategory cannot change from one climate soi combination to a different climate soil combination For example a Land Use Subcategory defined in the Land Type Manager as Boreal Organic soil cannot change to Warm Temperate Mineral Soil no matter how the land use change occurs its post conversion land type will always be restricted to Boreal Organic soil b There can be no conversions from Unmanaged to Managed meaning that land as soon as it is converted will be Managed and the conversion will therefore be categorized as Managed to Managed c Areas of Unmanaged Land remaining Unmanaged Land are also entered in the Area entry Table to maintain area consistency between years although these are not used in any Worksheet 7 3 AFOLU Annual Area Table This worksheet is available in all 3 B Land categories which contain worksheets based on annual area change It is used for defining annual land area changes between Land Use Subcategories defined in Land Type Manager see Chapter 3 2 8 4 53 Area Entry Table Agriculture Forestry and Other Land Use Land 3 6 2 bi Forest Land converted to Cropland Annual rea Table Annual Area Final land use Change ha Figure 7 3 AFOLU Annual Area Table The user needs to enter the annual land conversions in the year T Here only the conversions involving land
69. pressing the OK button Column with action buttons This column contains iconic action buttons which can be used to perform Save Undo of row and to define Remark for row 6 5 Uncontrolled Combustion and Burning Coal Dumps This worksheet covers the category 1 B 1 b Uncontrolled combustion and burning coal dumps and its functionality is basically the same as for Fuel Combustion Activities with restriction to enter Solid Fuels only 6 6 Oil and Natural Gas This worksheet covers all categories within the category 1 B 2 Oil and Natural Gas Worksheet is available for each sub category at the most disaggregated level Oil and Natural Gas Category Fugitive Emissions from Fuels Oil and Natural Gas Subcategory 1 8 2 4 Venting Sheet CO2 CH4 and N20 from fugitive emissions from fuels by source categories Tier 1 Ap meinen pa po M a Emission Factor Emission Factor uae Emission Factor Gate Industry Segment Subcategory Activity Unit for AD Gg CO2 Unit CO2 Emissions Gg CH4 Unit ae Emissions Ga N20 Unit Wa ap for AD Gg CO2 for AD Gg CH4 for AD Gg N20 y j nw Cr Weighted zl Figure 6 7 Example of Oil and Natural Gas worksheet 6 6 1 Entering data Columns Industry Segment and Subcategory Subcategory column contains the selection list where Subcategory and corresponding Industry Segment can be chosen according to selected category Column A Activity This column i
70. r not e Show login dialog after logout if checked new login dialog will appear automatically after currently logged in user logs out e Show choose inventory year dialog after login if checked user is prompted to choose inventory year to work with If unchecked previously used inventory year will be activated automatically e Show informative message box after choosing Inventory Year if checked user is informed of currently active inventory year after activating particular inventory year activated automatically or by user action be Database Open last used database at application startup Show login dialog after opening database E Show database properties dialog after opening database E Show Open Database dialog after closing curent database Prompt before closing current database Backup Prompt for backup if last backup olderthan 7 Zu deis El Always prompt for backup after opening database Figure 3 3 Database preferences Open last used database at application startup if checked previously database will be open automatically at startup otherwise user will have to explicitly open the desired database Show login dialog after opening database if checked login dialog will be displayed automatically after opening the database file otherwise user will have to explicitly open login dialog via menu Show database properties dialog after opening database if checked dialog containing c
71. rce Activity Data AD Eeer ZS S i Ge Gg lunit for AD Gq Misuse OO sooo O O O O OS AOI J I E E e ER A T A x wQ _ 2 EE Uncertainties DECLC SEIECTEO TOWS Figure 7 1 Example of worksheet for other categories 7 1 1 Entering data Column Source Description of activity should be specified in this column Descriptions must be unique within IPCC Category and Gas selected Column A Activity Data AD This column is editable and can store decimal value representing the activity data related to defined source It also contains button which enables user to choose one of the available notation keys IE C NO Selecting NO or IE disables all editable cells in current row meaning that the activity data emissions for particular source are either Not Occurring or are Included Elsewhere Selecting C means that activity data are Confidential and will not be exposed in reporting tables Column Unit for AD This column can store the unit for Activity Data User is allowed to enter own unit if necessary Column B Emission Factor This column can store decimal value representing the emission factor for specified source and gas Column C Emissions This is a calculated column Value is calculated automatically using the formula C A B This column also contains I button which enables user to choose NE notation key indicating that the emissions were Not Estimated for specified source and gas Col
72. ry Year Click Choose menu item to display the following dialog box Choose the inventory year from the drop down box below and press OK Figure 3 9 Choose Inventory Year After choosing the desired Inventory Year and pressing the OK button all related software modules will update their current information and data corresponding to new Inventory Year 3 2 3 2 Creating new Inventory Year Click Create new menu item to display the following dialog box New inventory Create empty inventory year Copy data from inventory year Create Figure 3 10 Create new Inventory Year Take the following steps to create new Inventory Year 1 Choose available Inventory Year from the New Inventory Year list The list does not contain years that were already created and interval is from Start inventory year to End inventory year as defined in Application Preferences Inventory year tab 2 Decide whether to create empty inventory year or copy of existing inventory year using the appropriate radio button 3 Incase of copy choose the source inventory year from the corresponding list of available inventory years 4 Click Create button to create new inventory year After creating new year it will be automatically set as Current Inventory Year 3 2 3 3 Efficient data entry using Inventory Year menu The efficient and optimal way to enter data is 1 Complete inventory for one basic year at first 2 Create additional years by
73. s editable and can store decimal value representing the activity data related to the selected Subcategory and Industry Segment It also contains Wi button which enables user to choose one of the available notation keys IE C NO Selecting NO or IE disables all editable cells in current row meaning that the activity data emissions for particular industry segment subcategory are either Not Occurring or are Included Elsewhere Selecting C means that activity data are Confidential and will not be exposed in reporting tables Column Unit for AD This column can store the unit for Activity Data Default value is taken from Table 4 2 7 Volume 2 of 2006 IPCC Guidelines User is allowed to enter own unit if necessary Column B CO Emission Factor _ 49 This column contains the selection list of default values where appropriate emission factor for selected Subcategory Industry Segment and gas can be chosen It is automatically filled with the default value as defined in 2006 IPCC Guidelines It is possible to manually enter custom value if needed Column C CO Emissions This is a calculated column Value is calculated automatically using the formula C A B This column also contains Ed button which enables user to choose NE notation key indicating that the CO emissions were Not Estimated Column D CH Emission Factor This column contains the selection list of default values where appropriate emission factor for selected Subcateg
74. secesserses 41 5 1 1 UNCETA ES SA A A A A A RNB 41 SLZ EXOMPIe PEE COLCGOMICS A A A EE 41 5 2 SINGLE ACTIVITY WORKSHEET WITH STATICROWISl 41 5 2 1 UNC ATEOS ege 41 522 EELER 41 53 IMUETISACIVI WORKSHEET alii dis 41 5 3 1 EE 41 Side EXE IPCC CATA si 41 524 VIUERSGATEGORY WORKSHEE Tura 42 5 4 1 UN CERAS td dans 42 SA2 EXGMDIC IPCCCO TODO Eeer ee een ee 42 5 9 WORKSHEETS MISSING NOTATION KE Sia a ds 42 5 6 WORKSHEETS MISSING UNCERTAINT IES geneet ee 42 EXAMPEEWORKSHEE TS 0 A MAA 42 Ok sFUEL COMBUSTION ACTIVITIES cteccocscecresatcsececur andeetancessscteceses a a 42 OLT EE 43 61 2 Uncertainties for RE 43 6 1 3 Conversion eeler 614 A ee e E EE EE EE A 00 e TIONS DOME AA e E E A A N E tees 6 2 CHa AND CO EMISSIONS FROM COAL MINING AND HANDLING cccceceecesceccuccecesceceeeseuseeseucseeseeseesnseeceeeass 6 2 1 LE RRNA Rene Ren o o e oe 6 2 2 Entering data 6 3 CH EMISSIONS FROM ABANDONED UNDERGROUND COAL MINES 6 3 1 Entering data 6 3 2 Uncertainties GA COs EMISSIONS FROM GH FIARING so ices ated eae ada 6 4 1 Entering data 6 5 UNCONTROLLED COMB 6 6 OILAND NATURAL GAS 6 6 1 Entering data 6 6 2 Uncertainties USTION AND BURNING COAL DUMPs non nono ror corro nr ron nono nrrnrrnnronrananono 67 ECOS TRANSPOR L INJECTION AND STORAGE ula 6 7 1 Entering data SPECIAL WORKSHEETS nrerin e EA i EAE a EAEN KOEIE 7 1 W
75. should be used For default emission factor for various carbonates see Table 2 1 in Chapter 2 of Volume 3 4 It is suggested that inventory compiles ensure that data on carbonates reflect pure carbonates and not carbonate rock If data are only available on carbonate rock a default purity of 95 can be assumed For clays a default carbonate content of 10 can be assumed if no other information is available It is good practice to report emissions from the consumption of carbonates in the source category where the carbonates are consumed and the CO2 emitted So where Limestone is used for the liming of soils emissions should be reported in the respective source category of the Agriculture Forestry and other Land Use AFOLU Sector where carbonates are used as fluxes or slagging agents eg in iron and steel chemicals or for environmental pollutioncontrol etc emissions should be reported in the respective source categories where the carbonate is consumed Table 2 7 in Chapter 2 Volume 3 should be consulted The potential also exists for double counting Inventory compiles should carefully consider how national statistics on limestone dolomite and other carbonate uses were developed For example a data source for the iron and steel industry may contain the total q ity of limestone consumed as a flux especially to the degree Figure 3 31 Guidelines Information Texts Editing text for particular Category 1 Use IPCC 2006 C
76. static row s This type of worksheet represents one particular activity and contains only single static row of data or set of multiple static rows describing the particular single activity Additional rows cannot be added and existing rows cannot be deleted 5 2 1 Uncertainties Uncertainties can be entered at worksheet level using the corresponding Uncertainties button located within the last column or at the bottom of the Worksheet 5 2 2 Example IPCC categories e 1 B 1 a i 4 CO Emissions from CH Flaring e 1 B 1 c Solid fuel transformation e 2 G 2 a Military applications 5 3 Multi activity worksheet This type of worksheet represents multiple independent but related activities that fall within one particular IPCC category and can contain static or dynamic sets of data rows If dynamic it is possible to add additional rows and delete existing rows 5 3 1 Uncertainties Uncertainties apply at worksheet level using the corresponding Uncertainties button located at the bottom of the Worksheet 5 3 2 Example IPCC categories e 2 A 1 2 A 3 e 2 B e ZC e 2 D e 2E e 2 F e 2 G 1 2 G 2 b 2 G 2 c e 3 C 2 3 C 7 e 4B e 4C A1 e 4D 5 4 Multi category worksheet This type of worksheet deals with more than one IPCC category at once where each row represents the particular 2006 IPCC Guidelines Subcategory Rows are static additional rows cannot be added and existing rows cannot be deleted 5 4 1 Uncertai
77. t Edit name annual average population N T typical animal mass TAM T excretion rate per mass per day ER and remark as desired Repeat for other Livestock Subcategories as desired Click the Save button to save changes into database or click the Undo button to discard all changes e Deleting existing Livestock Subcategory 1 2 3 Click on the existing Livestock Subcategory under main Category of interest Click the iconic delete button located in the last cell of active row Repeat for other subcategories if necessary Click the Save button to commit delete operation into database or click Undo to undelete all subcategories marked for deletion Manure Management System _ 28 Livestock Manager The manure from pasture and range grazing animals is allowed to lie as Sech deposited and is not managed EI Daily spread Manure is routinely removed from a confinement facility and is applied to cropland or pasture within 24 hours of excretion Solid storage The storage of manure typically for a period of several months in unconfined piles or stacks Manure is able to be stacked due to the presence of a sufficient amount of bedding material or loss of moisture by evaporation Dry lot A paved or unpaved open confinement area without any significant vegetative cover where accumulating manure may be removed penodically Manure is stored as excreted or with some minimal addition of water in either tanks or earthen ponds ou
78. teps described in the previous chapters the database is ready to be used or distributed to additional inventory compilers participating on national inventory if necessary 2 5 1 Saving database Use Database Save As menu to save currently open database to a new file 1 Select destination folder and file 2 Choose whether to remove password protection see note below 3 Decide whether to compress ZIP database file compressed database file must be uncompressed unzipped before opening it in the software NOTE Do not remove password protection in case saved database is about to be used within the software Removing the password protection will prevent the database from opening in the software Software strictly accepts password protected database only for security reasons 2 5 2 Share one database vs maintaining multiple databases Now you can decide how you would prefer the database to be distributed There are the following possibilities 1 Share database file on a network drive copy your database file created in chapter 2 5 1 to some shared folder on the network where other inventory compilers have read write access This alternative is strongly recommended because after making administrative changes all compilers are automatically affected 2 Send a copy of database file created in chapter 2 5 1 to each of the inventory compilers e g via e mail Administrative changes must be performed within each copy of the datab
79. ther non editable cells will be ignored Important only existing rows can be updated by pasting data If source data in clipboard contains more rows or columns than Time Series Data Entry table these will not be created Creating of new rows by pasting data is not supported thus not possible 4 4 6 Chart Chart at the bottom of the Time Series Data Entry window contains the visual representation of selected parameter values for the selected grid row across all years It can be used for visual checking of value variations across all years Consumption Mass Volume or Energy Unit Anthracite Gg Figure 4 13 Time Series Chart A0 5 Worksheet types 5 1 Single activity worksheet with dynamic rows This type of worksheet represents one particular activity lt can consist of one or multiple rows of data where each row represents the part of activity based on stratification of distinct parameters e g Fuel for 1 A Fuel Combustion Activities It is dynamic in that additional rows can be added or existing rows can be deleted 5 1 1 Uncertainties Uncertainties can be entered at worksheet level using the corresponding Uncertainties button located at the bottom of the worksheet 5 1 2 Example IPCC categories e 1 A Fuel Combustion Activities e 1 B 1 a i 3 Abandoned Underground Mines e 1 B 1 b Uncontrolled combustion and burning coal dumps e 1 B 2 Oil and Natural Gas 5 2 Single activity worksheet with
80. ting typically in an enclosed channel with forced aeration and continuous mixing ML Comeosina zt Composting Intensive Composting in windrows with regular at least daily turning for mixing and windrow aeration Fy Composting Passive Composting in windrows with infrequent turning for mixing and aeration windrow Figure 3 29 Manure Management Systems This tab allows choosing manure management systems to be used in computation of N20 emissions from Manure Management Systems The list contains the predefined set of default Manure Management Systems as defined in the 2006 IPCC Guidelines Additionally it allows the user to define user defined Manure Management Systems e Choosing the Manure Management Systems 1 Use left column containing checkboxes to mark all desired Manure Management Systems that are relevant for your case and that will be used for computation of N O emissions from Manure Management Systems 2 Chosen Manure Management Systems are highlighted green for better visual feedback e Adding new user defined Manure Management System 1 Use last add template row to add new user defined Manure Management System Enter System and optionally Definition Repeat for other user defined Manure Management Systems as desired 2 Click the Save button to save new defined user defined Manure Management Systems into database e Editing existing user defined Manure Management System 1 Click on the existing user defined M
81. tion Td Ma TJ Fuel Types MATI CPE H F G E Liquid Fuels 22 item s 369103 1 Primary Fuels fl Secondary Fuels ET CI Aviation Gasoline 4 1 Values in column K are taken from column E of Estimating Excluded Carbon worksheet Emissions Ga CO2 Equivalents Wu Fuels Sold Fuels e Gaseous Fuels 1990 1991 1992 1993 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 Mother Fossil Fue Base year for assessment of uncertainty in trend 1990 Figure 3 17 Example of Reference Approcah table 3 2 6 3 Key Category Analysis It is good practice for each country to identify its national key categories in a systematic and objective manner by performing a quantitative analysis of the relationships between the level and the trend of each category s emissions and removals and total national emissions and removals Two Approaches for performing the key category analysis have been developed Both Approaches identify key categories in terms of their contribution to the absolute level of national emissions and removals and to the trend of emissions and removals The methods are described in Chapter 4 3 Volume 1 of 2006 IPCC Guidelines To perform Key Category Analysis click the Refresh Data button Cumulative IPCC Category code IPCC Category y E Total i Column SE Sere BENEA EE S7Er Other Applications ease speciy HFCs me o IO SI Energy Industries Solid Fel
82. tside the animal housing usually for periods less than one year Uncovered anaerobic lagoon A type of liquid storage system designed and operated to combine waste stabilization and storage Lagoon supernatant is usually used to remove manure from the associated confinement facilities to the lagoon Anaerobic lagoons are designed with varying lengths of storage up to a year or greater depending on the climate region the volatile solids loading rate and other operational factors The water from the lagoon may be recycled as flush water or used to irrigate and fertilise fields Collection and storage of manure usually with little or no water typically below a slatted floor in an enclosed animal confinement facility usually for periods less than one year Animal excreta with or without straw are collected and anaerobically digested in a large containment vessel or covered lagoon Digesters are designed and operated for waste stabilization by the microbial reduction of complex organic compounds to CO and CH4 which is captured and flared or used as a fuel The dung and urine are excreted on fields The sun dried dung cakes are burned for fuel As manure accumulates bedding is continually added to absorb moisture over a production cycle and possibly for as long as 6 to 12 months This manure management system also is known as a bedded pack manure management system and may be combined with a dry lot or pasture No Composting invessel Compos
83. umn Annual Mass of CO Injected This column is relevant for categories 1 C 2 a 1 C 2 b and 1 C 3 It is editable and can store decimal value representing the annual mass of CO injected Column Annual Mass of fugitive CO emissions to the atmosphere or sea bed This column is relevant for all categories It is editable and can store decimal value representing annual mass of fugitive CO emissions to the atmosphere or sea bed expressed in Gg unit Column Uncertainties Clicking this button will open dialog box that can be used to enter Activity Data uncertainties for active row category Default AD uncertainties are prefilled according to 2006 IPCC Guidelines Default values can be changed and are stored into database automatically after pressing the OK button Column with action buttons This column contains iconic action buttons which can be used to perform Save Undo of row and to define Remark for row 7 Special Worksheets 7 1 Worksheet for Other Categories There are many 2006 IPCC Guidelines Categories labeled Other please specify where user can provide additional Activity data emission factors and calculate emissions for activities that do not fit into any of the specific 2006 IPCC Guidelines Categories 51 Sector Industral Processes and Product Use 1 9 9 0 Category Mineral Industry Subcategory 2 A 5 Other please specify Sheet 1of1 Data on A B e Unit for AD Emission Factor Emissions Sou
84. umn with action buttons This column contains iconic action buttons which can be used to perform Save Undo Delete of row and to define Remark for row 7 2 AFOLU Area Entry Table This worksheet is available in all 3 B Land categories It is designated for defining 20 year Land Area Transitions between Land Use Subcategories defined in Land Type Manager see Chapter 3 2 8 4 52 Land Lise Conversion Matrix Annual increase in carbon stocks in biomass Agriculture Forestry and Other Land Use Land 3 6 1 4 Forest land Remaining Forest land Area Entry Table Final land use sst esm j j a Organic Land Type Manager Figure 7 2 AFOLU Area Entry Table The user needs to enter land areas for Land remaining in a Land use category and for Land converted to other Land Use Subcategories in the 20 year sense At a minimum data for the year currently chosen is needed Land stays in a conversion subcategory for 20 years default transition time period provided in the 2006 IPCC Guidelines unless reconverted into some other Land use category except for peatlands where it remains in the conversion subcategory for a default period of 5 years This data can then be used by the software to complete the Land Use Matrix and fill in the 20 year land areas in all the relevant worksheets The software applies some basic rules on the Land Use Subcategory combinations to restrict the number of possible transitions a
85. urrently open database details will be shown automatically after opening database file Show Open Database dialog after closing current database if checked Open Database dialog will be automatically shown after closing current database Prompt before closing current database if checked user will be asked to confirm the closing of the current database otherwise the database will be closed without warning Prompt for backup if last backup older than N day s user is automatically asked to make a backup of the database if last backup is older than N day s Always prompt for backup after opening database if checked user is asked to make a backup of the database every time the database is open no matter how old the last backup BEER Worksheets Application preferences Open worksheets window after login Open worksheets window maximized Expand full IPCC 2006 Category tree structure by default Automatically navigate to last visited IPCC 2006 Category Maxdmum number of decimal places 5 Zero padding C Figure 3 4 Worksheet preferences e Open worksheets window after login if checked window containing worksheets will be automatically open after user logs in otherwise user will have to open worksheets window via menu e Open worksheets window maximized if checked worksheets window will automatically scale to fit main application window e Expand full IPCC 2006 category structure by default if
86. use Other Uses of Soda Ash this default fraction 0 85 0 15 should not be applied and the default value for sodium carbonate should be used For default emission factors for various carbonates see Table 2 1 in Chapter 2 of Volume 3 4 It is suggested that inventory compilers ensure that data on carbonates reflect pure carbonates and not carbonate rock If data are only available on carbonate rock a default purity of 95 can be assumed For clays a default carbonate content of 10 can be assumed if no other informaton is available It is good practice to report emissions from the consumption of carbonates in the source category where the carbonates are consumed and the CO2 emitted So where Limestone is used for the liming of soils emissions should be reported in the respective source category of the Agriculture Foresty and _ L se IL se Figure 3 32 Rich text editor 3 Click OK to save changes or Cancel to discard all changes In both cases the editor will close itself automatically 31 Defined texts will be automatically displayed in the IPCC 2006 Guidelines Window for IPCC 2006 Category that is currently activated in the IPCC 2006 Sa navigation tree ad Application Database Inventory Year ara Reports Tools ee Administrate i Other Process Uses of Carbonates E 2 Industrial Processes and Product Use E 2 A Mineral Industry 2 4 1 Cement production 2 A 2 Lime production
87. ustom CO Equivalents 1 Select the desired Custom GWP type of interest or just the particular Gases within gas groups 2 Click the Export button and supply the destination XML file when asked 3 2 7 3 Export F Gases data This menu item opens the dialog box that allows exporting of F Gases country specific data year of introduction etc into an XML file The structure of hierarchy is Region Country Gas group Gases Currently active country as indicated in the status bar of the main software window is automatically preselected IPCC 2006 Export F Gases Data San Marino Slovakia Y HFCs HFC 23 CHF3 HFC 32 CH2F2 HFC 41 CH3F HFC 43 10mee CFICHFCHFCF2CF3 HFC 125 CHF2CF3 HFC 134 CHF2CHF2 HFC 134a CH2FCF3 HFC 152a CH3CHF2 HFC 143 CHF2CH2F HFC 143a CF3CH3 HFC 227ea CF3CHFCF3 HFC 236fa CF3CH2CF3 HFC 245ca CH2FCF2CHF2 HFC 152 CH2FCH2F HFC 161 CH3CH2F HFC 236cb CH2FCF2CF3 HFC 236ea CHF2CHFCF3 HFC 245fa CHF2CH2CF3 HFC 365mfc CF3CH2CF2CH3 d u Y Ei Ed E d WM d Y Y d m d E Y Y E Ei y V Perfluorocyclopropane c C3F6 PFC 14 CF4 PFC 116 C2F6 PFC 218 C3F8 PFC 3 1 10 C4F10 PFC 318 c C4F8 PFC 4 1 12 C5F12 PFC 5 1 14 C6F14 F Slovenia E Spain lt q qee e SS Figure 3 21 Exporting F Gases data Take the following steps to export F Gases data 1 Select one or more countries of interest
88. ventory year Default is 1990 e End inventory year defines ending inventory year Default is current year e Base Year for assessment of uncertainty in trend defines base year used in Uncertainty Analysis Default is 1990 Grid Look preset Office 003 Blue Theme Header Text color _ White Arial 8 5pt Back color 1 M es 135 214 Back color2 E 7 59 150 Le Selected row Text color MM Black me Back color 1 _ LightCyan Computed cells Text color E k Back color 1 P LightGreen Back color2 Control Use thousands separator Back color2 LightSkyBlue Figure 3 7 Grid e Look preset provides the user with the set of standard predefined look presets to choose from e Header defines the look of the grid header e Selected row defines the look of the selected grid row e Computed cells defines the look of grid cells that are computed calculated e Use thousands separator if checked thousand separator will be used to separate thousands in all numbers in grids Thousands separator follows the operating system s Control Panel Regional Settings 3 2 1 2 Language This allows the user to switch between different languages Default language is English Supplementary software called Translation Editor which is included in setup can be used to define other languages and translate texts 3 2 1 3 Ext Exits the software 3 2 2 Database menu 3 2 2 1 Open Close Data
89. w icons are dockable windows It is possible to reorder such windows and completely change the layout of the screen to suit users needs or preferences In the next chapters information on how to use dockable windows is provided 4 2 1 Undocking windows Dockable windows can be undocked Undocked window is called floating window Floating window can be placed anywhere within the screen and it always stays on top of other forms within the application There are several ways to make docked window floating 1 Double clicking the top bar of the dockable window 2 Holding the left mouse button down over top bar and moving it to the desired location 3 Clicking on down arrow icon in the top bar displays the menu containing Floating menu item Clicking this item undocks window Figure 4 2 Auto Hide Figure 4 2 Dockable window menu HINT Double click on the top bar of floating window docks the window to the place where it was docked previously Mee a 4 2 2 Docking floating windows While dragging the floating window docking indicators appear within each docking area guiding the user to choose where to dock the window It is necessary to place mouse cursor over one of the arrows within docking indicator The box then will be displayed to show the user where the window being dragged will be placed after releasing the mouse ED 2006100 Software lor Maisara Greenhouse Gas imenberes grogus Werlabest
90. worksheets with the activity and emission factor data In addition it also supports many other functions related to database administration Quality Control data export import as well as data reporting as shown on the Figure 1 2 ac Completeness Value check Tools for Uncertainty analyses and Reference approach Reporting Tables Export XML Import XML Work Sheets Energy IPPU AFOLU WASTE DATABASE Export to e NAI format e CRF format Figure 1 2 Basic software modules 2 Getting started with the software The following chapters describe the steps necessary to initialize the software and the database After performing these steps the database is ready for distribution and sharing among inventory compilers participating in the national inventory if desired maintaining consistency among users 2 1 First run After installing the IPCC Inventory Software you are ready to launch the software for the first time You will be asked to perform several mandatory actions described in the following sections to initialize the software and the database 2 1 1 Define Superuser It is necessary to define a Superuser that is responsible for defining additional users and has full control over the application and corresponding database Figure 2 1 The application is being run for the first time tis necessary to define superuser Superuser has full control over database and application an
91. y additional parameters needed for computation of total N applied 56

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