Application of air quality strategies of Western Europe for modeling of the transboundary air pollution impact on the Russian Federation with the GAINS modelStefan Åström
Application of air quality strategies of Western Europe for modeling of the transboundary air pollution impact on the Russian Federation with the GAINS model
Stefan Åström
Disposition
Emissions of air pollutants, environmental and health effects Scenario description Scenario results Results from the latest reported GAINS model analyses performed by IIASA for the CLRTAP Summary
Emissions of air pollutants, environmental and health effects
Air pollutants cause adverse impact on the environment and human health Human exposure to fine particulate matter is considered to have many adverse impacts on children, adults as well as elderly The GAINS model can (inter alia) calculate emissions of, and impact from small particulate matter The health end points considered in the GAINS model are: reduction of life expectancy from ambient concentrations of particulate matter fatalities from ambient concentration of ozone
Scenario description – Using the GAINS model to explore scenario-specific european impact on Russia
The scenarios present different extreme and intermediate levels of European emissions of primary fine particulate matter and the impact on life expectancy in the Russian Federation in 2010 The scenarios presented are based on the latest national projections delivered to CLRTAP for the revision of the Gothenburg protocol The scenarios focus on controling emissions of primary particulate matter (PM) from stationary sources The technologies used to reduce emissions are established, but implementation time is omitted
The current situation - emissions of fine particulate matter (PM2.5)
In the National 2010 Baseline, the European (incl Russia) emissions of PM2.5 is estimated to be ~3500 kton in 2010 These emissions cause a reduction in average life expectancy of 6.8 months per person in Russia, due to exposure to high background concentrations of PM2.5 (reduction in life expectancy due to ambient air concentration of PM2.5)
What would have happened if Western Europe did not control PM2.5 emissions?
If 29 European countries (not including Russia) would have a VERY low ambition level: The European emissions of PM2.5 would be ~13500 kton of PM2.5 in 2010 These higher emissions would cause a reduction in average life expectancy of 7.8 months per person in Russia (reduction in life expectancy due to ambient air concentration of PM2.5) (very low ambition level includes a use of cyclone emission removal technology in for 50 % of the fuel used in the Power plants, Industry and conversion sectors)
What if some countries were to use all technologies available to reduce primary PM2.5 emissions from stationary sources?
Polish max PM2.5 reduction efforts in 2010: European emissions would have been ~12500 kton PM2.5 reduced ave. life expectancy in Russia would be 7.7 months / person Polish + Belarus max PM2.5 reduction in 2010: European emissions would have been ~12250 kton PM2.5 reduced ave. life expectancy in Russia would be 7.5 months / person (Max PM reduction efforts include use of high efficiency deduster emission removal technology in 100 % of the fuel used in the Power plants, Industry and conversion sectors, as well as a 100 % use of most efficient technology in other sectors)
And what if 29 countries would have used all technologies available to reduce primary PM2.5 emissions from stationary sources?
Euro29 max PM reduction efforts in 2010: European emissions would have been ~2900 kton PM2.5 reduced ave. life expectancy in Russia would be 6.7 months / person
And what if the European part of Russia also would have implemented all technologies?
Four scenarios for the European part of Russia in 2010: 100 % High efficiency deduster in power plants and industry Europe emissions ~2850 kton PM2.5, Russian loss in ave. life expectancy 6.5 months / person Maximum efforts in households and waste management etc Europe emissions ~2750 kton PM2.5, Russian loss in ave. life expectancy 6.1 months / person Maximum efforts in process industry Europe emissions ~2570 kton PM2.5, Russian loss in ave. life expectancy 5.5 months / person) Cumulative effect of the above Europe emissions ~2380 kton PM2.5, Russian loss in ave. life expectancy 4.7 months / person)
And what if the European part of Russia also would have implemented all technologies?
PM2.5 Emission reductions in European Russia will have an impact on the rest of Europe The anticipated years of life lost in Europe outside Russia would be reduced by 10 million life years.
Summary
Emissions of air pollutants cause significant effect on the environment and human health International collaboration has led to reduced emission levels of air pollutants More can still be done to reduce impact of air pollutants For Russia, very much is still to be done by domestic measures The GAINS model can be used to analyse emissions, costs, environmental and health impact from different national and international air quality strategies
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