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general:gridded_data:start [2021/04/21 11:45] – [Emissions of persistent organic pollutants (POP)] doering | general:gridded_data:start [2021/04/22 12:48] – [Energy and Industry] doering | ||
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- | For the Gridding Tool a methodology has been developed considering PRTR emissions in thespatial distribution of national emissions. Here, the PRTR emissions are first subtracted at a national level from the national emissions. The share of emissions, | + | For the Gridding Tool a methodology has been developed considering PRTR emissions in thespatial distribution of national emissions. Here, the PRTR emissions are first subtracted at a national level from the national emissions. The share of emissions, |
* main group A (energy sector PRTR 1) | * main group A (energy sector PRTR 1) | ||
* main group B (industrial sectors, | * main group B (industrial sectors, | ||
* main group C (intensive livestock production and aquaculture, | * main group C (intensive livestock production and aquaculture, | ||
- | The NFR sectors for which part of the emissions are spatially allocated by means of the PRTR point sources belong to the source groups of energy supply, industry, agriculture and sewage / waste dis-posal. For the hereby affected NFR sectors, the national (residual) emissions are distributed in a first step by suitable distribution parameters on district level. The distribution parameters are predomi-nantly based on statistical data on numbers of employees in the various sectors and departments of industry. Within the districts, the emissions are distributed via land cover class CLC121 (Industrial and Commercial Units) to the level of area sources.Source Group Other Non-industrial Combustion PlantsThe emissions from non-industrial combustion plants (private households, other small consumers, military, agriculture, | + | The NFR sectors for which part of the emissions are spatially allocated by means of the PRTR point sources belong to the source groups of energy supply, industry, agriculture and sewage / waste dis-posal. For the hereby affected NFR sectors, the national (residual) emissions are distributed in a first step by suitable distribution parameters on district level. The distribution parameters are predomi-nantly based on statistical data on numbers of employees in the various sectors and departments of industry. Within the districts, the emissions are distributed via land cover class CLC121 (Industrial and Commercial Units) to the level of area sources.Source Group Other Non-industrial Combustion PlantsThe emissions from non-industrial combustion plants (private households, other small consumers, military, agriculture, |
====Other Non-industrial Combustion Plants ==== | ====Other Non-industrial Combustion Plants ==== | ||
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- | The main emitters of NMVOC emissions | + | The main emitters of NMVOC are the industrial process sector and agriculture. The latter is mainly assigned to area and not to point sources. |
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- | ==== Particle and fine particle emissions | + | ==== Particle and Fine Particle Emissions |
- | Corresponding to the SO< | + | Corresponding to the SO< |
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- | With a decision of the Member States in 2006, PM< | + | With a decision of the Member States in 2006, PM< |
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- | ==== Emissions of Heavy Metals (HM) ==== | + | ===== Emissions of Heavy Metals (HM) |
+ | ====Lead Emissions==== | ||
- | Text will be added. | + | Lead (Pb)-containing compounds are released in particular during combustion processes of coal and fuels. The main emitter here is the transport sector. Due to the toxic effect of these lead aerosols, leaded regular petrol (additive with lead tetraethyl) was banned in West Germany as early as 1988, the ban on leaded premium petrol followed in 1996. The European Union banned leaded petrol on 1 January 2000. Today, part of the Pb emissions still come from the automobile tyre and brake wear sector. This trend can be easily seen in the maps. The distribution parameter is analogous to road exhaust (NFR1A3bi - 1A3biv), the distribution parameter is vehicle mileage. |
- | {{ : | + | Another source of emissions is the metal processing industry - iron and steel. The distribution parameter is partially covered by the PRTR point sources; rest: by number of employees per district (metal production and processing). |
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+ | ====Cadmium Emissions==== | ||
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+ | Cadmium (Cd) is one of the most toxic metals and substances for humans and the environment. The metal occurs in the body as a trace element and is incorporated through food. It is found in tobacco smoke, PVC and plastic and paint pigments. | ||
+ | In the chemical industry, cadmium is a by-product of the extraction of zinc, lead or copper. The most important emission sources in Germany are the sectors of the metal processing industry - iron and steel, and copper production. It is also emitted by petroleum refineries and coal and oil combustion. For the latter, it can be captured via appropriate particle filters and thus reduced. For the dominant emission sources, the distribution is partially covered by PRTR point sources; the rest: by number of employees per district (metal production and processing). | ||
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+ | ====Mercury Emissions==== | ||
+ | Mercury (Hg) belongs to the group of heavy metals that occur both naturally (e.g. volcanic eruptions) and through industrial processes (e.g. mining, burning coal or heating oil) in the environment. A distinction is made between elemental (metallic) mercury (Hg0), inorganic mercury (iHg) and organic mercury compounds such as methylmercury (MeHg). It is mostly emitted bound to fine particles. It is mainly released during energy production from fossil fuels such as coal, oil and natural gas, and during metal-producing processes such as iron and steel production.The spatial distribution is made for energy supply via PRTR point sources (the rest: number of other power plants (<25 MW electric) for public supply per district). | ||
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==== Emissions of persistent organic pollutants (POP) ==== | ==== Emissions of persistent organic pollutants (POP) ==== | ||
+ | Data on POP emissions have a higher uncertainty compared to air pollutants such as SO< | ||
- | Text will be added. | + | ====Polycyclic aromatic Hydrocarbons and Benzo(a)pyrene==== |
- | {{ :general: | + | PAHs are formed during the incomplete combustion of organic material (e.g. coal, heating oil, fuel, wood, tobacco, forest fires). The dominant sources of PAHs in the environment are thus from human activity: wood-burning and combustion of other biofuels. The dominating source is the residential sector - Stationary. The spatial distribution is therefore mainly covered by distribution according to energy carriers (national). |
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+ | Benzoapyrene is considered an indicator substance of polycyclic aromatic hydrocarbons. For this reason, more measurement data and further information are available than for other POPs. In the determination of environmental pollution by this group of substances, benzo[a]pyrene is usually used as a reference. | ||
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+ | ====Polychlorinated biphenyls (PCB) ==== | ||
+ | PCBs are classified as industrial chemicals and were used in various applications in pure form or as additives until the restrictions and bans came into force. Due to their properties (thermal stability, low water absorption and non-flammability), | ||
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+ | ==== PCDD/PCDF ==== | ||
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+ | PCDD/PCDF emissions are formed as by-products in a variety of thermal processes, in the production of organochlorine chemicals, or in any oxidation reactions of hydrocarbon compounds in the presence of chlorine compounds. The magnitude of dioxins emissions is presented in the g I-TEQ range (toxic equivalence, | ||
+ | The major key sources are the Residential - stationary combustion (1.A.4.b i), Other Waste: Building and Car Fires (5.E.2), and Metal Industrie - Iron and Steel (2C1). The spatial distribution is partially covered by information of PRTR point sources and for the residential sector according to energy carriers. | ||
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- | === HCB === | + | ==== Hexachlorobenzene Emissions ==== |
- | The magnitude of HCB emissions | + | Hexachlorobenzene (HCB) is a chemical substance that can also be formed as a by-product in the manufacture of chlorine compounds. It can also be released through incomplete combustion processes and leaching from landfills. |
- | In the maps, the two main emission sources production of secondary aluminum and application of pesticides in agriculture as well as the emission trend are clearly visible. | + | In the maps, the two main emission sources |
Degassing operations in refining plants of secondary aluminum production can produce HCB. The use of hexachloroethane has been prohibited by law in Germany since 2002, which eliminates the source of HCB. | Degassing operations in refining plants of secondary aluminum production can produce HCB. The use of hexachloroethane has been prohibited by law in Germany since 2002, which eliminates the source of HCB. | ||
- | The emission distribution is partly covered by reports from the PRTR, the remaining emissions are calculated using number of employees per district in metal production and processing. | + | The emission distribution is partly covered by reports from the PRTR, the remaining emissions are calculated using number of employees per district in metal production and processing. More information is described under [[sector: |
In agriculture, | In agriculture, | ||
These agents are used to combat fungal infestations, | These agents are used to combat fungal infestations, | ||
- | Emissions from this sector are distributed over the agricultural area. However, this distribution is subject to great uncertainties, | + | Emissions from this sector are distributed over the agricultural area. However, this distribution is subject to great uncertainties, |
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