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sector:energy:fuel_combustion:energy_industries:petroleum_refining [2023/03/17 13:42] – [Recalculations] kotzullasector:energy:fuel_combustion:energy_industries:petroleum_refining [2025/04/30 13:05] (current) – [Recalculations] kotzulla
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 ===== Short description ===== ===== Short description =====
 +
 +{{ :sector:energy:fuel_combustion:energy_industries:refinery.png?nolink&400|}}
  
 Source catagory //Petroleum Refining (1.A.1.b)// comprises both refinery heating plants and electricity and heat production of refinery power plants. Source catagory //Petroleum Refining (1.A.1.b)// comprises both refinery heating plants and electricity and heat production of refinery power plants.
  
-Category Code   Method                                                                           ||||^  AD                                           ||||^  EF                                ||||| +^  NFR Code                               ^  Method  ^  AD  ^  EF  ^ 
-| 1.A.1.b        |  T2                                                                               |||||  NS                                           |||||  CS                                ||||| + 1.A.1.b                                |  T2      |  NS  |  CS  | 
-^                ^  NO<sub>x</sub>  ^  NMVOC  ^  SO<sub>2</sub>  ^  NH<sub>3</sub>  ^  PM<sub>2.5</sub>  ^  PM<sub>10</sub>  ^  TSP  ^  BC    CO    PB    Cd    Hg    Diox  ^  PAH  ^  HCB  ^ +|  {{page>general:Misc:LegendEIT:start}}                        ||||
-| Key Category  -/             -/    L/             -/-              -/-                -/-              |  -/-  |  -/-  |  -/-  |  -/-  |  L/-  |  -/-  |  -/-    -/-  |  -    |+
  
 +----
 +
 +^ NO<sub>x</sub>                          ^  NMVOC  ^  SO<sub>2</sub>  ^  NH<sub>3</sub>  ^  PM<sub>2.5</sub>  ^  PM<sub>10</sub>  ^ TSP  ^  BC    CO    Pb    Cd    Hg    As        Cr    Cu    Ni        Se        Zn    PCDD/ ^  B(a)P  ^  B(b)F  ^  B(k)F  ^  I(x)P  ^  PAH1-4  ^  HCB  ^  PCBs  ^
 +|  -/-                                    |  -/-    ^  L/-              -/-              -/-                -/-              |  -/- |  -/-  |  -/-  |  -/-  ^  L/-  |  -/-  |  **L/-**  |  -/-  |  -/-  |  **L/-**  |  **L/T**  |  -/-  |  -/-      -/-    |  IE      IE      IE      -/-      -/-  |  -/-   |
 +|  {{page>general:Misc:LegendKCA:start}}                                                                                                                                                                                                                                                            ||||||||||||||||||||||||||
  
-{{page>general:Misc:LegendEIT:start}} 
  
-{{ :sector:energy:fuel_combustion:energy_industries:refinery.png?nolink&600|}} 
  
 ===== Methodology ===== ===== Methodology =====
  
-Refinery processes are very complex. Therefore the development of an adequate calculation method is demanding. Since plant specific data are not complete and partly contradictory, a plant specific reporting is not possible. Data is used to determine fuel specific emission factors as general basis of the calculation model. However, in reality, a large number of several fuels and waste fuels with different fuel characteristics is used for combustion processes. Insofar the calculation model is limited. +Refinery processes are very complex. Therefore the development of an adequate calculation method is demanding. Since plant specific data are not complete and partly contradictory, a plant specific reporting is not possible. Data is used to determine fuel specific emission factors as general basis of the calculation model. However, in reality, a large number of fuels and waste fuels with different fuel characteristics is used for combustion processes. Insofar the calculation model is limited. 
 Only some refinery power plants use wet desulfurisation in order to decrease sulfur emissions. Usually the fuels mix ensures the compliance with the limit values.       Only some refinery power plants use wet desulfurisation in order to decrease sulfur emissions. Usually the fuels mix ensures the compliance with the limit values.      
  
 ==== Activity data ==== ==== Activity data ====
  
-Fuel inputs for electricity production in refinery power stations are included in Energy Balance line 12 ("Industrial thermal power stations"). Energy Balance line 38 shows energy consumption (for heat production) of refineries (AGEB 2019)[(Arbeitsgemeinschaft Energiebilanzen (Hrsg.): Energiebilanz für die Bundesrepublik Deutschland; URL: http://www.ag-energiebilanzen.de/7-1-Energy-Balance-2000-to-2015.html)]+Fuel inputs for electricity production in refinery power stations are included in Energy Balance line 12 ("Industrial power stations (only for electricity)"). Energy Balance line 38 ("Refineries"shows the energy consumption (for heat production) of refineries[(AGEB2024)]
  
 Fuel inputs for heat production in refinery power plants and for bottom heating in refinery processes, are derived from these figures. Fuel inputs for heat production in refinery power plants and for bottom heating in refinery processes, are derived from these figures.
-Activity rates for refineries for fuel inputs for electricity and heat production in petroleum refining are determined by combining the national statistics of the Federal statistical Office (DESTATIS) and the Federal Office of Economics and Export Control (BAFA).+Activity rates for refineries for fuel inputs for electricity and heat production in petroleum refining are determined by combining the national statistics of the Federal statistical Office (DESTATIS) and the Federal Office of Economics and Export Control (BAFA) [(BAFA2024)].
  
 Energy inputs in facilities for used-oil processing are reported under //[[sector:energy:fuel_combustion:energy_industries:manufacture_of_solid_fuels_and_other_energy_industries|1.A.1.c - Manufacture Of Solid Fuels And Other Energy Industries]]// sector. Energy inputs in facilities for used-oil processing are reported under //[[sector:energy:fuel_combustion:energy_industries:manufacture_of_solid_fuels_and_other_energy_industries|1.A.1.c - Manufacture Of Solid Fuels And Other Energy Industries]]// sector.
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 ==== Emission factors ==== ==== Emission factors ====
  
-The emission factors for refinery power plants have been taken from the research project "Determination and evaluation of emission factors for combustion systems in Germany for the years 1995, 2000 and 2010" (Rentz et al 2002)[(Rentz et al., 2002: Rentz, O. ; Karl, U. ; Peter, H.: Ermittlung und Evaluierung von Emissionsfaktoren für Feuerungsanlagen in Deutschland für die Jahre 1995, 2000 und 2010: Forschungsbericht 299 43 142; Forschungsvorhaben im Auftrag des Umweltbundesamt; Endbericht; Karlsruhe: Deutsch-Französisches Inst. f. Umweltforschung, Univ. (TH); 2002)]. A detailed description of the procedure is presented in Chapter: //[[sector:energy:fuel_combustion:energy_industries:public_electricity_and_heat_production|1.A.1.a - Public Electricity And Heat Production]]//.+The emission factors for refinery power plants have been taken from the research project "Determination and evaluation of emission factors for combustion systems in Germany for the years 1995, 2000 and 2010" (Rentz et al., 2002)[(RENTZ2002)].  
 + 
 +A detailed description of the procedure is presented in Chapter: //[[sector:energy:fuel_combustion:energy_industries:public_electricity_and_heat_production|1.A.1.a - Public Electricity And Heat Production]]//.
  
 Emission factors are available for different fuel types and combustion technologies. The distinction between refinery power plants and bottom heating in refinery processes is necessary since bottom heating systems have considerably higher specific emissions. Emission factors are available for different fuel types and combustion technologies. The distinction between refinery power plants and bottom heating in refinery processes is necessary since bottom heating systems have considerably higher specific emissions.
-A running project which has to evaluate data from emission declarations for the years 2004, 2008, 2012 and 2016 for all refineries will provide refinery gas emission factor data for Submission 2020. The first results show the following range:+ 
 +Results of a research project which has to evaluate data from emission declarations for the years 2004, 2008, 2012 and 2016 for all refineries will provide refinery gas emission factor data. The first results show the following range:
  
 __Table 1: Range of emission factors, in kg/TJ__ __Table 1: Range of emission factors, in kg/TJ__
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 ===== Trend discussion for Key Sources ===== ===== Trend discussion for Key Sources =====
 +
 +Since 1990, fuel consumption has shown a slightly increasing trend overall. While some relevant installations have been decommissioned since 1990 - especially in the territory of the former GDR - production increased nevertheless. And while installation efficiencies were improved, increased production of lighter petroleum products and intensified hydrosulphurisation, which led to increases in specific fuel consumptions. Annual fluctuations of all fuel types can be explained as the result of differences in production quantities. The maximum production of petroleum products to date occurred in 2005, as a result of a shortfall in capacity in the USA, which led to an increase in imports. Thereafter, production decreased by reducing excess capacities like everywhere in Europe.
 +The increasing use of natural gas in recent years led to decreasing emissions of all emissions (except NO<sub>x</sub> ).
  
 The following diagram gives an overview of the fuel consumption in the refinery sector. The following diagram gives an overview of the fuel consumption in the refinery sector.
  
-{{:sector:energy:fuel_combustion:energy_industries:1a1b_ar.png?400|}}+{{ :sector:energy:fuel_combustion:energy_industries:1a1b_ad.png?800 |Annual fuel consumption in 1.A.1.b}} 
  
-Since 1990, fuel consumption has shown a slightly increasing trend overall. While some relevant installations have been decommissioned since 1990 - especially in the territory of the former GDR - production increased nevertheless. And while installation efficiencies were improved, increased production of lighter petroleum products and intensified hydrosulphurisation, which led to increases in specific fuel consumptions. Annual fluctuations of all fuel types can be explained as the result of differences in production quantities. The maximum production of petroleum products to date, totalling 123.6 million t, occurred in 2005, as a result of a shortfall in capacity in the USA, which led to an increase in imports. Thereafter, production decreased by reducing excess capacities like everywhere in Europe. 
-The increasing use of natural gas in recent years led to decreasing emissions of all emissions (except NO<sub>x</sub> ). 
  
 ===== Recalculations ===== ===== Recalculations =====
  
-Recalculations were necessary for 2020 due to the implementation of the now finalised National Energy Balance. +At the time of compiling the inventory, national energy balance is only available provisionally. Therefore, the finalization of the Energy Balance for 2022 led to recalculations.  In addition, to ensure that consumption of refinery fuels in the official mineral oil statistics is consistently included in the inventory reallocation of fuel data between 1.A.1.b and 1.A.2.g viii took place for the years 2003-2022. 
  
 <WRAP center round info 60%> <WRAP center round info 60%>
-For **pollutant-specific information on recalculated emission estimates for Base Year and 2020**, please see the recalculation tables following [[general:recalculations:start|chapter 8.1 - Recalculations]].+For **pollutant-specific information on recalculated emission estimates for Base Year and 2022**, please see the recalculation tables following [[general:recalculations:start|chapter 9.1 - Recalculations]].
 </WRAP> </WRAP>
  
 ===== Planned improvements ===== ===== Planned improvements =====
  
-It is planned to revise emission factors for all pollutants on the basis of the above mentioned project.+It is planned to revise emission factors for all pollutants on the basis of the above-mentioned project. 
 + 
 +[(AGEB2024> AGEB, 2024: National energy balance and Satellite balance for renewable energy:  https://ag-energiebilanzen.de/en/data-and-facts/energy-balance-2000-to-2030/ )] 
 + 
 +[(BAFA2024>BAFA, 2024: Federal Office of Economics and Export Control (Bundesamt für Wirtschaft und Ausfuhrkontrolle, BAFA): Amtliche Mineralöldaten für die Bundesrepublik Deutschland; 
 +https://www.bafa.de/SharedDocs/Downloads/DE/Energie/Mineraloel/moel_amtliche_daten_2023_12.xlsx?__blob=publicationFile&v=2, Eschborn, 2024.)] 
 + 
 +[(RENTZ2002> Rentz et al. (2002): Rentz, O., Karl, U., Peter, H.: Ermittlung und Evaluierung von Emissionsfaktoren für Feuerungsanlagen in Deutschland für die Jahre 1995, 2000 und 2010: Forschungsbericht 299 43 142; on behalf of the Umweltbundesamt; final report; Deutsch-Französisches Inst. f. Umweltforschung, Univ. (TH); https://publikationen.bibliothek.kit.edu/21412002;  Karlsruhe / Dessau-Roßlau, 2002.)]