A Thermophotovoltaic System Using a Photonic Crystal Emitter
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The increasing power demands of portable electronics and micro robotics has driven recent interest in millimeter-scale microgenerators. Many technologies (fuel cells, Stirling, thermoelectric, etc.) that potentially enable a portable hydrocarbon microgenerator are under active investigation. Hydrocarbon fuels have specific energies fifty times those of batteries, thus even a relatively inefficient generator can exceed the specific energy of batteries. We proposed, designed, and demonstrated a first-of-a-kind millimeter-scale thermophotovoltaic (TPV) system with a photonic crystal emitter. In a TPV system, combustion heats an emitter to incandescence and the resulting thermal radiation is converted to electricity by photovoltaic cells. Our approach uses a moderate temperature (1000–1200°C) metallic microburner coupled to a high emissivity, high selectivity photonic crystal selective emitter and low bandgap PV cells. This approach is predicted to be capable of up to 30% efficient fuel-to-electricity conversion within a millimeter-scale form factor. We have performed a robust experimental demonstration that validates the theoretical framework and the key system components, and present our results in the context of a TPV microgenerator. Although considerable technological barriers need to be overcome to realize a TPV microgenerator, we predict that 700–900 Wh/kg is possible with the current technology.
Date issued
2016-01Department
Massachusetts Institute of Technology. Institute for Soldier Nanotechnologies; Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science; Massachusetts Institute of Technology. Department of PhysicsJournal
Proceedings of the ASME 2016 5th International Conference on Micro/Nanoscale Heat and Mass Transfer
Publisher
American Society of Mechanical Engineers (ASME)
Citation
Chan, Walker R. et al. “A Thermophotovoltaic System Using a Photonic Crystal Emitter.” ASME 2016 5th International Conference on Micro/Nanoscale Heat and Mass Transfer, 4-6 January, 2016, Biopolis, Singapore, ASME, 2016.
Version: Final published version
ISBN
978-0-7918-4965-1