Course Description

EME 812 explores the main physical principles of core solar energy conversion systems, including direct power conversion photovoltaics, concentrating photovoltaics (CPV), and thermal conversion to electricity via concentrating solar power strategies (CSP). It also covers the fundamentals of enabling technologies such as light concentration, solar tracking, power conversion cycles, power conditioning and distribution.

Solar Resource Assessment and Economics

Credit: Photovoltaic System by andreas160578 is licensed under CC0

Course Description

Are you interested in Solar Energy? Solar Resource Assessment and Economics explores the methods, economic criteria, and meteorological background for assessing the solar resource with respect to project development of solar energy conversion systems for stakeholders in a given locale. It provides students with an in-depth exploration of the physical qualities of the solar resource, estimation of the fractional contributions of irradiance to total demand, and economic assessment of the solar resource.

Utility Solar Thermal and Industrial Solar Processes

Credit: Photovoltaic Panels by U.S. Department of Energy is public domain

Course Description

Solar thermal energy is a vast renewable energy resource that has been harvested by human civilizations for centuries. Now as energy conversion technologies quickly develop, we look at solar thermal energy as a significant contributor to the future world's energy profile. Solar heat, when properly collected and stored, can provide cost-effective benefits to a wide array of industrial and residential applications.

Course Description

EME 807 overviews a wide range of contemporary technologies in the context of sustainability and examines metrics for their assessment. The course explores the main principles that guide modern science and technology towards sustainable solutions. It covers such topics as resource management technologies, waste and wastewater treatment, renewable energy technologies, high performance buildings and transportation systems, application of informatics and feedback to sustainable systems, and more.

Energy in a Changing World

Credit: Green city concept, cut the leaves of plants, isolated over white by kirillov alexey, licensed through Shutterstock used with permission

Course Description

What is energy? It's the hot in heat, the glow in light, the push in wind, the pound in water, the sound of thunder and the crack of lightening. It is the pull that keeps us (and everything else!) from simply flying apart, and the promise of an oak deep in an acorn. It is all the same, and it is all different. Sunshine and waterfalls won't start your car, and wind won't run the dishwasher. But, if we match the form and timing of the energy with your needs, all of these things could be true.

Course Spotlight

From Advanced Python Programming for GIS (GEOG 489), learn advanced applications of Python for developing and customizing GIS software, designing user interfaces, solving complex geoprocessing tasks, and leveraging open source.Visit the course.

Faculty Spotlight

Dr. Tim Bralower standing on a research ship

Dr. Tim Bralower (Ph.D. 1986, Earth Sciences, University of California) is Professor of Geosciences at Penn State. He studies ancient climate change and mass extinction from the geological record. He has participated in five expeditions with the International Ocean Discovery Program and conducted field studies from Europe to the Caribbean and South America. He is a former Fulbright Scholar and a Fellow of the Geological Society of America. Bralower was Head of the Department of Geosciences for nine years. See what Dr. Bralower has to say about online education in Earth Sciences.