Energy use and environmental impacts of the transportation sector. Topics include vehicle design, dynamics and efficiency; combustion and emission formation; powertrain design, internal combustion engines, fuel cells and batteries; conventional and alternative fuels; travel demand, travel modes, transportation planning, system analysis and land use interactions; life cycle assessment and well-to-wheels analysis.
This course can be applied towards:
MECH 337 (Thermodynamics).
Dr. Shantanu Jathar joined the mechanical engineering department as an Assistant Professor. He has a Ph.D. from Carnegie Mellon University where he used numerical models and laboratory experiments to understand the atmospheric formation of organic aerosols from combustion sources such as cars, trucks, aircraft and wildfires. He worked as a post-doctoral scholar at the University of California, Davis where he was funded by the California Air Resources Board to improve the treatment of particulate matter in air quality models used for regulatory purposes. His research interests lie at the intersection of energy and the environment. By leveraging laboratory experiments and regional/global air quality models, he intends to study the atmospheric evolution and properties of air pollutants arising from energy systems, all in the interest of addressing future energy and environmental policy.
Learn more at: http://www.engr.colostate.edu/me/dr-shantanu-jathar/