论文信息 - The effect of a scattering layer on the edge output of a luminescent solar concentrator

The effect of a scattering layer on the edge output of a luminescent solar concentrator

Abstract The effect of adding white scattering layers to the bottom side of luminescent solar concentrator waveguides is evaluated. It is determined that adding a rear scatterer separated from the waveguide by an air gap results in a large increase of energy output from the waveguides, and this enhancement persists over long (>30 cm) distances, although the magnitude of the enhancement decreases with distance. An attached scatterer resulted in the greatest improvement of light output for short (∼6 cm) distances, but actually reduced edge emissions over longer distances. We provide estimates for the relative contribution of dye-emitted light and scattered light to the total waveguide emission, as well as distinguishing between the contributions of direct and indirect scattering of light to the total output as a function of dye content of the waveguides.

[1] A. Goetzberger,et al. Solar energy conversion with fluorescent collectors , 1977 .

[2] W. Weber,et al. Materials for luminescent greenhouse solar collectors. , 1977, Applied optics.

[3] A. Zewail,et al. Photon trapping and energy transfer in multiple-dye plastic matrices: an efficient solar-energy concentrator. , 1977, Optics letters.

[4] J. Lambe,et al. Luminescent greenhouse collector for solar radiation. , 1976, Applied optics.

[5] Ewan D. Dunlop,et al. A luminescent solar concentrator with 7.1% power conversion efficiency , 2008 .

[6] K. Heidler. Efficiency and concentration ratio measurements of fluorescent solar concentrators using a xenon measurement system. , 1981, Applied optics.

[7] Melinda S. Hanes,et al. Optimized excitation energy transfer in a three-dye luminescent solar concentrator , 2007 .

[8] B. Valeur,et al. A photometric approach of fluorescent solar concentrators. Role of diffuse reflectors and spectral sensitivity of solar cells , 1987 .

[9] Nicholas J. Ekins-Daukes,et al. A new approach to modelling quantum dot concentrators , 2003 .

[10] J Franklin,et al. Optimisation of a three-colour luminescent solar concentrator daylighting system , 2004 .

[11] E. T. D. L. Perrelle,et al. The measurements of absorptivity and reflectivity , 1963 .

[12] F. Dimroth,et al. Increasing the efficiency of fluorescent concentrator systems , 2009 .