The impacts of CO2 capture on transboundary air pollution in the Netherlands
article
The focus of this research is to develop a first assessment of the impacts of the implementation of CO2 capture technologies in the Dutch power sector on the transboundary air pollution (SO2,NOX,NH3,NMV OC,PM10 and PM2.5) levels in 2020. Results show that for the power sector SO2 emissions will be very low for scenarios that include large scale implementation of Carbon Capture and Storage (CCS). The annual emissions of NOx are estimated to be lower in all scenarios with greenhouse gas reductions. However, applying the post-combustion technology on existing power plants may result in higher NOx emissions per kWh. Both SO2 and NOx emissions from the power sector are a substantial part of the current national total. Large scale implementation of the post-combustion CO2 capture technology may result in more than 5 times higher NH3 emissions compared to scenarios without CCS and to other capture options (i.e. pre-combustion and oxyfuel combustion). Particulate Matter (PM) emissions are lower in the scenarios with CO2 reduction. A scenario with large scale implementation of the oxyfuel technology shows the lowest emissions of PM. In the scenarios with post-combustion capture Non Methane Volatile Organic Compounds emissions may increase due to the emission of solvents used in the capture process. The main conclusion is that climate policy and air quality policy are entwined and may result in synergies and trade-offs. Quantification of these synergies and trade-offs however encompasses inaccuracies due to data uncertainty and knowledge gaps. © 2009 Elsevier Ltd. All rights reserved.
Topics
Air qualityCO2 capture and storageCriteria pollutantsNational Emission CeilingAir quality policyCarbon capture and storageClimate policyCO capture and storageCriteria pollutantsData uncertaintyGreenhouse gas reductionsKnowledge gapsNational Emission CeilingNetherlandsNon-methane volatile organic compoundsOxyfuel combustionOxyfuel technologyParticulate matter emissionsPost-combustionPower sectorPre-combustionsTrans-boundaryAir qualityCombustionGlobal warmingGreenhouse gasesMethaneParticulate emissionsPermanent magnetsPollutionReductionSmokeTechnologyThermochemistryVolatile organic compoundsCarbon monoxide
TNO Identifier
241388
ISSN
18766102
Source
Energy Procedia, 1(1), pp. 3787-3794.
Pages
3787-3794
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