Design and global optimization of high-efficiency thermophotovoltaic systems

Design and global optimization of high-efficiency thermophotovoltaic systems

Despite their great promise, small experimental thermophotovoltaic (TPV) systems at 1000 K generally exhibit extremely low power conversion efficiencies (approximately 1%), due to heat losses such as thermal emission of undesirable mid-wavelength infrared radiation. Photonic crystals (PhC) have the...

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Veröffentlicht in:Optics express 2010-09, Vol.18 Suppl 3 (S3), p.A314-A334
Hauptverfasser: Bermel, Peter, Ghebrebrhan, Michael, Chan, Walker, Yeng, Yi Xiang, Araghchini, Mohammad, Hamam, Rafif, Marton, Christopher H, Jensen, Klavs F, Soljačić, Marin, Joannopoulos, John D, Johnson, Steven G, Celanovic, Ivan
Format: Artikel
Sprache:eng
Schlagworte:
30 DIRECT ENERGY CONVERSION
solar (photovoltaic), solar (thermal), solid state lighting, phonons, thermal conductivity, thermoelectric, defects, mechanical behavior, charge transport, spin dynamics, materials and chemistry by design, optics, synthesis (novel materials), synthesis (self-assembly), synthesis (scalable processing)
SOLAR ENERGY
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Zusammenfassung:Despite their great promise, small experimental thermophotovoltaic (TPV) systems at 1000 K generally exhibit extremely low power conversion efficiencies (approximately 1%), due to heat losses such as thermal emission of undesirable mid-wavelength infrared radiation. Photonic crystals (PhC) have the potential to strongly suppress such losses. However, PhC-based designs present a set of non-convex optimization problems requiring efficient objective function evaluation and global optimization algorithms. Both are applied to two example systems: improved micro-TPV generators and solar thermal TPV systems. Micro-TPV reactors experience up to a 27-fold increase in their efficiency and power output; solar thermal TPV systems see an even greater 45-fold increase in their efficiency (exceeding the Shockley-Quiesser limit for a single-junction photovoltaic cell).
ISSN:1094-4087
1094-4087
DOI:10.1364/OE.18.00A314