U.S. Department of Energy - Energy Efficiency and Renewable Energy
Concentrated Solar Thermoelectric Power
Thermoelectric energy conversion uses temperature difference across solids to convert heat into electricity through the Seebeck effect.
The Rohsenow-Kendall Heat Transfer Lab at Massachusetts Institute of Technology(MIT), under the 2012 SunShot Concentrating Solar Power (CSP) R&D FOA, is developing concentrated solar thermoelectric generators (CSTEGs) for CSP systems. This innovative distributed solution contains no moving parts and converts heat directly into electricity. Thermal storage can be integrated into the system, creating a reliable and flexible source of electricity.
The goals of MIT's CSTEGs project are to:
- Achieve a >10% solar-to-electricity energy conversion efficiency
- Limit optical concentration to less than ten and potentially less than four
- Demonstrate the potential for 24-hour operation by using phase-change materials.
MIT's innovative approach is a significant departure from current CSP systems. The solar thermoelectric generators are based on solid-state thermoelectric devices, and yet, they can store solar energy in the form of heat. When combined with thermal storage, such CSTEGs can provide electricity day and night while eliminating the mechanical power generation blocks. Furthermore, CSTEGs can also be used at small scale, such as commercial rooftops, to provide 24-hour distributed solar power. If successful, CSTEGs introduce a new and viable CSP technology capable of achieving the SunShot Initiative's goal of $0.06 per kilowatt-hour.
Publications, Patents, and Awards
At this time, this project does not have published articles, patents, or awards.
The SunShot CSP R&D program seeks to accelerate progress toward the cost target of $0.06 per kilowatt-hour through novel and revolutionary research into CSP technologies. Learn about other DOE competitive awards for concentrating solar power research that are in progress.