Major Research Initiatives
Center for Air Resources Engineering and Science (CARES)
Integrated, multidisciplinary research applied to improve air quality management through better science and engineering.
Center for Sustainable Energy Systems (CSES)
The mission of the Center is to foster interdisciplinary research and education relating to energy systems for a sustainable future. These activities occur internally and through collaboration between Clarkson University and external partners. The Center focuses on excellence in technology and policy relating to sustainable energy research, development and education at local, national and international levels.
Clarkson’s Smart Housing research efforts are helping to establish how college students use energy and water resources and change their behavior in response to messages and feedback.
An interdisciplinary group of Clarkson faculty and graduate students comprising the Clarkson Biomass Group (CBG) was formed to investigate and promote the conversion of dairy manure and other wastes into biogas in the North Country of New York State. Biogas is typically about 60 % Methane and 40 % Carbon Dioxide. The gas can be burned to provide heat energy or to generate electrical energy, such as by a biogas-fueled engine-generator.
Great Rivers Center
The St. Lawrence River is the conduit through which the Laurentian Great Lakes flow to the ocean. The explicit mission of the Great Rivers Center (GRC) is to ensure that the quality of this freshwater resource is the highest possible. Water quality is defined by chemical purity, ecosystem health, and water ethics. To meet this task the GRC will be a focal point for creative multidisciplinary research, scholarly activity and community outreach.
Rivers and Estuary Observatory Network (REON)
At the confluence of the personal computer revolution of the 1980s and the Internet revolution of the 1990s is the sensor revolution that will connect us with the physical world, giving the world its first electronic nervous system (NSF, 2005). This electronic nervous system is comprised of sensors deployed at multiple scales with varying spatial and temporal resolution producing the capacity to monitor and study various environmental and hydrologic processes at the continental scale, helping inform an optimal network design and specifying support infrastructure. Towards the achievement of these overarching objectives a partnership with Clarkson University, The Beacon Institute for Rivers and Estuaries (REON) and the Shoreline Environmental Research Facility (SERF) was established. Through this collaboration, we will be deploying sensors in the St. Lawrence River, the Hudson River and Corpus Christi Bay.
Additional Faculty Research
Faculty affiliated with the Institute are involved in various disciplines of environmental research.
Jessica Hernandez and Lindsay Toot working under the C.A.M.P. Pre-Freshman program on Phosphate Sensors.