3 Air Pollution Regulation In the l

3 Air Pollution Regulation
In the last few decades, especially after the milestone 1970 Clean Air Act in the US, air pollution has been regulated all over the world through a series of laws and regulations.
The European commission has developed a series of framework directives for controlling ambient air pollution and monitoring concentrations. “Daughter” directives have followed that give thresholds, define the reporting requirements, and specify the monitoring methods and number of observations for SO2, NO2, particulate matter (PM), lead, and tropospheric (“low-level”) ozone (O3)18. More information can be found at: http://europe.eu.int/comm/environment/air/ambient.htm.
The United Nations Economic Commission for Europe (UN-ECE) has created protocols to reduce long-range transboundary air pollution. More information can be found at: http://www.emep.int. New developments in air pollution modeling, research, and regulations in Europe are listed at the EUROTRAC-project19.
In the United States, the Environmental Protection Agency (US-EPA) has established air quality standards to protect public health, including the health of “sensitive” populations such as children, older adults, and people with asthma. US-EPA also sets limits to protect public welfare. This includes protecting ecosystems, such as plants and animals, from harm, as well as protecting against decreased visibility and damage to crops, vegetation, and buildings.
US-EPA has set National Air Quality Standards (NAAQS) for six principal air pollutants: nitrogen oxides (expressed as NO2), ozone, sulfur dioxide, PM, carbon monoxide (CO), and lead (Pb). Four of these pollutants (CO, Pb, NO, and SO2) are emitted directly from a variety of sources. Ozone is not directly emitted, but is formed when nitrogen oxides (NOX) and VOCs react in the presence of sunlight. PM is mostly directly emitted, but PM2.5 particles can also be added as secondary pollutants (sulfates, nitrates, and organic particles).
The US-EPA has a large network of monitoring stations measuring the levels of these pollutants in the air (ambient concentrations). A comprehensive annual report and air trends 20 publications are also distributed by the US-EPA. Furthermore, the US-EPA provides estimates and trends of emission rates for various source types21. The United States Clean Air Act22 provides the principal framework for national, state, tribal, and local efforts to protect air quality. Improvements in air quality are the result of effective implementation of clean air laws and regulations, as well as efficient industrial technologies. Under the Clean Air Act, the US-EPA has a number of responsibilities, including the following: • Conducting periodic reviews of the NAAQS for the six principal pollutants that are considered harmful to public health and the environment.
• Ensuring that these air quality standards are met (in cooperation with the state, tribal, and local governments) through national standards and strategies to control air pollutant emissions from vehicles, factories, and other sources.
• Reducing emissions of SO2 and NOX that cause “acid rain”.
• Reducing air pollutants such as PM, SOX, and NOX, which can reduce visibility across large regional areas, including many of the nation’s parks and wilderness areas.• Ensuring that sources of toxic air pollutants that may cause cancer and other adverse human health and environmental effects are well controlled and that the risks to public health and the environment are substantially reduced.
• Limiting the use of chemicals that damage the stratospheric ozone layer in order to prevent increased levels of harmful UV radiation.
More information can be found at http://www.epa.gov/oar/caa/contents.html.