A cost-efficiency and health benefit approach to improve urban air quality

When ambient air quality standards established in the EU Directive 2008/50/EC are exceeded, Member States are obliged to develop and implement Air Quality Plans (AQP) to improve air quality and health. Notwithstanding the achievements in emission reductions and air quality improvement, additional ef...

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Veröffentlicht in:	The Science of the total environment 2016-11, Vol.569-570, p.342-351
Hauptverfasser:	Miranda, A.I., Ferreira, J., Silveira, C., Relvas, H., Duque, L., Roebeling, P., Lopes, M., Costa, S., Monteiro, A., Gama, C., Sá, E., Borrego, C., Teixeira, J.P.
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Sprache:	eng
Schlagworte:	Air Pollutants - analysis Air Pollution - economics Air quality modelling Cities Cost-Benefit Analysis Emission abatement measures Environmental Monitoring Environmental Restoration and Remediation - economics Health impact functions Humans Portugal
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container_title	The Science of the total environment
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creator	Miranda, A.I. Ferreira, J. Silveira, C. Relvas, H. Duque, L. Roebeling, P. Lopes, M. Costa, S. Monteiro, A. Gama, C. Sá, E. Borrego, C. Teixeira, J.P.
description	When ambient air quality standards established in the EU Directive 2008/50/EC are exceeded, Member States are obliged to develop and implement Air Quality Plans (AQP) to improve air quality and health. Notwithstanding the achievements in emission reductions and air quality improvement, additional efforts need to be undertaken to improve air quality in a sustainable way – i.e. through a cost-efficiency approach. This work was developed in the scope of the recently concluded MAPLIA project “Moving from Air Pollution to Local Integrated Assessment”, and focuses on the definition and assessment of emission abatement measures and their associated costs, air quality and health impacts and benefits by means of air quality modelling tools, health impact functions and cost-efficiency analysis. The MAPLIA system was applied to the Grande Porto urban area (Portugal), addressing PM10 and NOx as the most important pollutants in the region. Four different measures to reduce PM10 and NOx emissions were defined and characterized in terms of emissions and implementation costs, and combined into 15 emission scenarios, simulated by the TAPM air quality modelling tool. Air pollutant concentration fields were then used to estimate health benefits in terms of avoided costs (external costs), using dose-response health impact functions. Results revealed that, among the 15 scenarios analysed, the scenario including all 4 measures lead to a total net benefit of 0.3M€·y−1. The largest net benefit is obtained for the scenario considering the conversion of 50% of open fire places into heat recovery wood stoves. Although the implementation costs of this measure are high, the benefits outweigh the costs. Research outcomes confirm that the MAPLIA system is useful for policy decision support on air quality improvement strategies, and could be applied to other urban areas where AQP need to be implemented and monitored. An integrated assessment modelling system was applied to an urban area to assess the impacts of emission abatement measures, for PM10 and NO2, on air quality and human health by means of a cost-benefit analysis. The largest contribution for health benefits derives from the reduction in PM10 concentrations in the Grande Porto municipalities. [Display omitted] •4 abatement measures to reduce PM10 and NOx emissions characterized in terms of emissions and implementation costs•Air quality and health impacts quantified by air quality modelling, cost-efficiency analysis and health
doi_str_mv	10.1016/j.scitotenv.2016.06.102
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Notwithstanding the achievements in emission reductions and air quality improvement, additional efforts need to be undertaken to improve air quality in a sustainable way – i.e. through a cost-efficiency approach. This work was developed in the scope of the recently concluded MAPLIA project “Moving from Air Pollution to Local Integrated Assessment”, and focuses on the definition and assessment of emission abatement measures and their associated costs, air quality and health impacts and benefits by means of air quality modelling tools, health impact functions and cost-efficiency analysis. The MAPLIA system was applied to the Grande Porto urban area (Portugal), addressing PM10 and NOx as the most important pollutants in the region. Four different measures to reduce PM10 and NOx emissions were defined and characterized in terms of emissions and implementation costs, and combined into 15 emission scenarios, simulated by the TAPM air quality modelling tool. Air pollutant concentration fields were then used to estimate health benefits in terms of avoided costs (external costs), using dose-response health impact functions. Results revealed that, among the 15 scenarios analysed, the scenario including all 4 measures lead to a total net benefit of 0.3M€·y−1. The largest net benefit is obtained for the scenario considering the conversion of 50% of open fire places into heat recovery wood stoves. Although the implementation costs of this measure are high, the benefits outweigh the costs. Research outcomes confirm that the MAPLIA system is useful for policy decision support on air quality improvement strategies, and could be applied to other urban areas where AQP need to be implemented and monitored. An integrated assessment modelling system was applied to an urban area to assess the impacts of emission abatement measures, for PM10 and NO2, on air quality and human health by means of a cost-benefit analysis. 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subjects	Air Pollutants - analysis Air Pollution - economics Air quality modelling Cities Cost-Benefit Analysis Emission abatement measures Environmental Monitoring Environmental Restoration and Remediation - economics Health impact functions Humans Portugal
title	A cost-efficiency and health benefit approach to improve urban air quality
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