Center for Air Resources Engineering & Science
CARES brings together the world-class expertise that is available at Clarkson. This expertise is focused in air sampling and analysis, receptor modeling, atmospheric deposition, and the application of computational fluid dynamics to air pollution problems.
CARES interacts with the Syracuse Center of Excellence in Environmental and Energy Systems and other institutions such as Cornell University, the University of Rochester, SUNY ESF, and SUNY Albany. Although each institution has their own focused research mission, there are important intersections of their strengths that CARES can utilize to provide a base to build an integrated, state-wide research center to focus the expertise on air quality issues. By enhancing already existing capabilities and forging active collaborative alliances, we can provide critical new information on air resources and innovative new approaches for managing indoor and outdoor air quality within a competitive economic environment.
The presence of contaminants in the atmosphere can produce a wide variety of adverse effects including increased mortality and morbidity in the public, deterioration of buildings and monuments, acidification of lakes and rivers, and forest and crop damage. The health effects of atmospheric contaminants cannot be avoided by staying inside since ambient air is transported indoors along with its pollutants while indoor sources including resuspension can add to the problems.
Although we have substantially improved the ambient air quality over the past 30 years, there are still a number of problems that are attributed to air pollution. Recent studies have found strong correlations between changes in particle concentrations and increased mortality and morbidity. For example, there has been a sharp rise in childhood asthma that has been linked with air pollution, but its causes are as yet unknown.
Clarkson University already has significant intellectual resources to bring to bear on the roblems of air pollution. The Center for Air Resources Engineering and Science brings together a consortium of investigators to provide the focus and coordination to measure, model, and suggest implementation strategies that will lead to improved atmospheric conditions including the ambient atmosphere, indoor atmospheres in homes and hospitals, and controlled atmospheres in commercial manufacturing operations.
In this process, we are developing new modeling, measurement, and flow management tools that provide the basis for new or expanded commercial ventures as well as providing critical information to State and Federal regulatory authorities that will help to improve the quality of life for New Yorkers.
©2012 Clarkson University