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Transparent Photonic Crystal Heat Mirrors for Solar Thermal Applications (2020)

Rostami, Mohsen ; Talebzadeh, Nima ; O’Brien, Paul G.

Molecular Diversity Preservation International

In: Energies. 2020; 13(6): 1464. Published 2020 Mar 20. doi: 10.3390/en13061464.

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Publication Date: 2020-03-20

Description: Numerical calculations are performed to determine the potential of using one-dimensional transparent photonic crystal heat mirrors (TPCHMs) as transparent coatings for solar receivers. At relatively low operating temperatures of 500 K, the TPCHMs investigated herein do not provide a significant advantage over conventional transparent heat mirrors that are made using transparent conducting oxide films. However, the results show that TPCHMs can enhance the performance of transparent solar receiver covers at higher operating temperatures. At 1000 K, the amount of radiation reflected by a transparent cover back to the receiver can be increased from 40.4% to 60.0%, without compromising the transmittance of solar radiation through the cover, by using a TPCHM in the place of a conventional transparent mirror with a In2O3:Sn film. For a receiver operating temperature of 1500 K, the amount of radiation reflected back to the receiver can be increased from 25.7% for a cover that is coated with a In2O3:Sn film to 57.6% for a cover with a TPCHM. The TPCHM that is presented in this work might be useful for high-temperature applications where high-performance is required over a relatively small area, such as the cover for evacuated receivers or volumetric receivers in Sterling engines.

Electronic ISSN: 1996-1073

Topics: Energy, Environment Protection, Nuclear Power Engineering

Published by Molecular Diversity Preservation International

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Elliptic Array Luminescent Solar Concentrators for Combined Power Generation and Microalgae Growth (2021)

Talebzadeh, Nima ; O’Brien, Paul G.

Molecular Diversity Preservation International

In: Energies. 2021; 14(17): 5229. Published 2021 Aug 24. doi: 10.3390/en14175229.

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Publication Date: 2021-08-24

Description: The full utilization of broadband solar irradiance is becoming increasingly useful for applications such as long-term space missions, wherein power generation from external sources and regenerative life support systems are essential. Luminescent solar concentrators (LSCs) can be designed to separate sunlight into photosynthetically active radiation (PAR) and non-PAR to simultaneously provide for algae cultivation and electric power generation. However, the efficiency of LSCs suffers from high emission losses. In this work, we show that by shaping the LSC in the form of an elliptic array, rather than the conventional planar configuration, emission losses can be drastically reduced to the point that they are almost eliminated. Numerical results, considering the combined effects of emission, transmission and surface scattering losses show the optical efficiency of the elliptic array LSC is 63%, whereas, in comparison, the optical efficiency for conventional planar LSCs is 47.2%. Further, results from numerical simulations show that elliptic array luminescent solar concentrators can convert non-PAR and green-PAR to electric power with a conversion efficiency of ~17% for AM1.5 and 17.6% for AM0, while transmitting PAR to an underlying photobioreactor to support algae cultivation.

Electronic ISSN: 1996-1073

Topics: Energy, Environment Protection, Nuclear Power Engineering

Published by Molecular Diversity Preservation International

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