MEng in Sustainable Energy Systems in Ithaca United States | Cornell University

Sustainable energy initiatives integrate environmental evaluations of pollution mitigation and climate preservation advantages offered by energy technologies, alongside assessing their financial viability for investment. Cornell University strives to pioneer advancements in sustainable development. Beyond the Cornell Energy Systems Institute (CSEI), multiple Cornell research hubs collaborate on related studies and academic programs, such as the Cornell Center for a Sustainable Future and the Cornell Fuel Cell Institute. The Robert Frederick Smith School of Chemical and Biomolecular Engineering plays a pivotal role in these endeavors. By incorporating principles of physical, chemical, and biological energy conversion, heat and mass transfer in fluids and solids, energy capture and storage materials, process evaluation, design, simulation, and comprehensive lifecycle assessments of energy and material flows, chemical engineering education equips students with versatile skills to address diverse energy challenges. Energy-focused research within CBE has practical applications in: Developing chemical engineering processes for renewable and cleaner traditional energy extraction, refinement, and transformation. Creating advanced solar cells, photochemical converters, batteries, and other storage systems using nanoscale components. Generating fuels, energetic materials, and bioproducts from various biomass sources, including energy crops, algae, agricultural residues, and food waste, as well as harnessing energy from Earth's systems like engineered geothermal solutions.