Curriculum vitae For the compilation album, see
ACCURATELY MONITORING TRACE POLLUTANTS
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- Bu səhifədəki naviqasiya:
- MEASURING ROADSIDE AIR POLLUTION
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ACCURATELY MONITORING TRACE POLLUTANTS
Man-made and naturally occurring volatile organic compounds, such as methanol or acetone, affect air quality and the climate by the formation of ozone and aerosols. The World Meteorological Organization‘s Global Atmosphere Watch monitoring network tracks these trace compounds and aerosols to increase our understanding of climate trends and the success of mitigation strategies. Improving the accuracy of networks monitoring data requires improved links between lab- based calibrations and networked instruments. MEASURING ROADSIDE AIR POLLUTION Air pollution, such as that generated by road vehicles, is known to harm public health, damage biodiversity and contribute to climate change. In response, Europe has made air pollution one of its main concerns and developed an extensive body of legislation, establishing limit values for major air pollutants such as NO 2 and particulate matter, to improve human health and environmental quality. Download the full case study Air pollution, such as that generated by road vehicles, is known to harm public health, damage biodiversity and contribute to climate change. In response, the EU has made air pollution one of its main concerns and developed an extensive body of legislation to improve human health and environmental quality. Central to this regulatory framework is the European Air Quality Directive (2008/50/EC), which establishes limit values for major air pollutants such as NO 2 and particulate matter. Air pollution continues to be responsible for more than 430,000 premature deaths each year in Europe. Automotive vehicles are a major source of air pollution - of particular concern are the fine particles emitted by diesel and direct injection petrol engines. To improve public health and environmental quality, the EU regulates pollution from road vehicles and new passenger cars must meet the European emission standards (the standard currently in force is known as Euro 6 ) before they can be type approved. Supporting global efforts to reduce greenhouse and polluting gas emissions, the EU‘s Industrial Emissions Directive introduces new limits and reporting rules. Europe‘s gas plant operators are expected to identify and measure leaks, but tougher limits require greater measurement accuracy beyond that of current authorised methods. Advanced optical measurement techniques exist but these need robust performance evaluation and protocols for use before consideration as methods for demonstrating compliance with the Directive. The EU‘s Industrial Emissions Directive, which aims to protect human health and the environment, requires pollution reporting from oil and gas plant operators against regulated emissions limits. Strict standards are being established for monitoring total plant emissions, but current measurement techniques lack the required accuracy to meet new lower emission limits. Optical measurement techniques can meet requirements, but to be authorised for use, must first be rigorously validated. Mercury, a highly toxic metal, can be released into the environment from human sources. European and international treaties are in force to limit its emission, introducing the need for reliable mercury monitoring. Cheap and easy to use sensors that can be deployed anywhere in the world and capable of operating without power supplies are needed for monitoring atmospheric mercury levels. Mercury is highly toxic and once released into the environment bioaccumulates into fish and seafood. Released from burning fossil fuels and broken fluorescent light fittings its emissions are regulated by international treaties and EU Directives. For industrial polluters to demonstrate regulatory compliance mercury emissions are carefully monitored. But the continuing use of an empirical equation for calibration and non-optimised chemical analysis methods hinder a robust measurement hierarchy. |