P. Sansoni scite author profile

The optimization of the poor heat transfer characteristics of fluids conventionally employed in solar devices are at present one of the main topics for system efficiency and compactness. In the present work we investigated the optical and thermal properties of nanofluids consisting in aqueous suspensions of single wall carbon nanohorns. The characteristics of these nanofluids were evaluated in view of their use as sunlight absorber fluids in a solar device. The observed nanoparticle-induced differences in optical properties appeared promising, leading to a considerably higher sunlight absorption. We found that the thermal conductivity of the nanofluids was higher than pure water. Both these effects, together with the possible chemical functionalization of carbon nanohorns, make this new kind of nanofluids very interesting for increasing the overall efficiency of the sunlight exploiting device.

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Potential of carbon nanohorn-based suspensions for solar thermal collectors

Sani

Mercatelli

Barison

et al. 2011

Solar Energy Materials and Solar Cells

194

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Spectrally selective ultra-high temperature ceramic absorbers for high-temperature solar plants

Sani¹,

Mercatelli²,

Sansoni³

et al. 2012

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Ultra-high temperature ceramics are the ideal materials for extreme conditions owing to their very high melting points and good thermo-mechanical properties at high temperatures. For these reasons, they are widely known as materials for aerospace applications. This paper presents a comparative spectral characterization of zirconium, hafnium, and tantalum carbides ultra-high temperature ceramics for concentrating solar power applications. Room-temperature reflectance spectra have been measured from the ultraviolet wavelength region to the mid-infrared band. Using these spectral properties, the ceramics were evaluated as sunlight absorbers in receivers for high-temperature thermodynamic solar plants. V

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On-line textile quality control using optical Fourier transforms

Castellini

Francini

Longobardi

et al. 1996

Optics and Lasers in Engineering

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Indoor illumination by solar light collectors

Sansoni

Francini

Fontani

et al. 2008

Lighting Research & Technology

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An innovative system for illumination of internal spaces was studied, constructed and tested. The system was dubbed `The Sunflowers' because the solar collectors were designed to track the sun's position during the day. Each Sunflower includes sunlight concentrators, optical fibres and mechanical and electronic systems for sun tracking. A Sunflower lighting system has been successfully installed in a prestigious museum to provide internal illumination of showcases. Solar illumination is obtained by concentrating the sunlight into optical fibres, which guide the light in the interior of the building and realise the lighting points.

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P. Sansoni

Carbon nanohorns-based nanofluids as direct sunlight absorbers

Potential of carbon nanohorn-based suspensions for solar thermal collectors

Spectrally selective ultra-high temperature ceramic absorbers for high-temperature solar plants

On-line textile quality control using optical Fourier transforms

Indoor illumination by solar light collectors

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