[1] | Mallick, T.K., Eames, P.C., Norton B., 2006, Non-concentrating and asymmetric compound parabolic concentrating building facade integrated photovoltaics: An experimental comparison, Solar Energy, 80(7), 834-49. |
[2] | NabinSarmah, Bryce S. Richards, Tapas K. Mallick, 2011, Evaluation and optimization of the optical performance of low-concentrating dielectric compound parabolic concentrator using ray-tracing methods, Applied Optics, 50(19), 3303-3310. |
[3] | Yuehong Su, Saffa B. Riffat, Gang Pei, 2012, Comparative study on annual solar energy collection of a novel lens-walled compound parabolic concentrator (lens-walled CPC), Sus-tainable Cities and Society, Vol. 4, 35-40. |
[4] | Antonimi, A., Butturi, M.A., Di Benedetto, P., Uderzo, D., Zurru, P., Milan, E., Stefancich, M., Armani, M., Parretta, A., Baggio, N., 2009, Rondine® PV concentrators: Field results and developments, Progress in Photovoltaics: Res. Appl., 17(7), 451-459. |
[5] | Hatwaambo, S., Hakansson, H., Nilsson, J., Karlsson, B., 2008, Angular characterization of low concentrating PV-CPC using low cost reflectors, Solar Energy Materials and Solar Cells 92(11), 1347-1351. |
[6] | W.T. Welford and R. Winston, High Collection Nonimaging Optics, Academic Press, San Diego, 1989. |
[7] | Smestad, G., Ries, H., Winston, R., Yablonovitch, E., 1990, The thermodynamic limits of light concentrators, Sol. Energy Mater., 21(2–3), 99-111. |
[8] | Parretta, A., Martinelli, G., Stefancich, M., Vincenzi, D., Winston, R., 2003, Modelling of CPC-based photovoltaic concentrator, Proc. of SPIE, Vol. 4829, pp. 1045-1047. |
[9] | Araki, K., Emery, K., Siefer, G., Bett, A.W., Sakakibara, T., Kemmoku, Y., Ekins-Daukes, N.J., Lee, H.S., Yamaguchi, M., 2005, Comparison of efficiency measurements for HCPV module with 3J cells in 3 sites, Proc. 31st IEEE PVSC, pp. 239-242. |
[10] | Jing, L., Liu, H., Lu, Z., Zhao, H., 2010, Design of compound Fresnel-R lenses for new high-efficient concentrator, Proc. of SPIE, Vol. 7785, pp. 77850K-77850K-10. |
[11] | Hinterberger, H., Winston, R., 1966, Efficient Light Coupler for Threshold Čerenkov Counters, Rev. Sci. Instrum., 37(8), 1094-1095. |
[12] | Baranov, V.K., Melnikov, G.K., 1966, Study of the illumi-nation characteristics of hollow focons, Sov. J. Opt. Technol., Vol. 33, pp. 408-411. |
[13] | M. Brunotte, A. Goetzberger, and U. Blieske, Two-stage concentrator permitting concentration factors up to 300x with one-axis tracking, Solar Energy, 56(3), 285-300. |
[14] | Brogren, M., Nostell, P., Karlsson, B., 2000, Optical Efficiency of a PV-Thermal Hybrid CPC Module, Proc. Eurosun 2000 - ISES Europe Solar Conference, Copenhagen, Denmark. |
[15] | Mohd. YusofHj. Othman, BaharudinYatima, Kamaruzzaman Sopianb, Mohd. Nazari Abu Bakara, 2005, Performance analysis of a double-pass photovoltaic/thermal (PV/T) solar collector with CPC and fins, Renewable Energy, 30(13), 2005-2017. |
[16] | David A.G. Redpath, Harjit Singh, Christopher Tierney, Philip Dalzell, 2012, An Experimental Comparison of two Solar Photovoltaic - Thermal (PVT) Energy Conversion Systems for Production of Heat and Power, Energy and Power, 2(4), 46-50 |
[17] | Franklin, E., Coventry, J.S., 2002, Effects of Highly Non-uniform Illumination Distribution on Electrical Perfor-mance of Solar Cells, Proc. ANZSES Solar Conference, Newcastle, Australia. |
[18] | Antonini, A., Stefancich, M., Vincenzi, D., Malagù, C., Bizzi, F., Ronzoni, A., Martinelli, G., 2003, Contact grid optimization methodology for front contact concentration solar cells, Solar Energy Materials and Solar Cells. 80(2), 155-166. |
[19] | Leutz, R., Suzuki, A., Akisawa, A., Kashiwagi, T., 2001, Flux uniformity and spectral reproduction in solar concentrators using secondary optics, Proc. ISES Solar World Congress, Adelaide, Australia. |
[20] | Leutz, R., Suzuki, A., Akisawa, A., Kashiwagi, T., 2001, Nonideal concentration of nonimaging linear Fresnel lenses, Proc. Nonimaging Optics: Maximum Efficiency Light Transfer VI, San Diego, CA. The International Society for Optical Engineering, 2001, pp.100-109. |
[21] | Ries, H., Gordon, J.M., Lasken, M., 1997, High-flux photo-voltaic solar concentrators with kaleidoscope-based optical designs, Solar Energy 60(1), 11-16. |
[22] | Chen, M.M., Berkowitz-Mattuck, J.B., Glaser, P.E., 1963, The Use of a Kaleidoscope to Obtain Uniform Flux Over a Large Area in a Solar or Arc Imaging Furnace, Applied Optics 2(3), 265-272. |
[23] | Kreske, K., 2002, Optical design of a solar flux homogenizer for concentrator photovoltaics, Applied Optics, 41(10), 2053-2058. |
[24] | Luque, A., Sala, G., Arboiro, J.C., Bruton, T., Cunningham, D., Mason, N., 1997, Some Results of the EUCLIDES Photovoltaic Concentrator Prototype, Prog. Photovoltaics: Res. Appl., Vol. 5, pp. 195-212. |
[25] | Coventry, J.S., 2005, Performance of a concentrating photo-voltaic/thermal solar collector, Solar Energy, 78(2), 211-222. |
[26] | Leutz, R., Suzuki, A., Akisawa, A., Kashiwagi, T., 2000, Shaped nonimaging Fresnel lenses, J. Opt. A: Pure Appl. Opt. 2(2), 112-116. |
[27] | Leutz, R., Suzuki, A., Akisawa, A., Kashiwagi, T., 1999, Design of a nonimaging Fresnel lens for solar concentrators, Solar Energy, 65(6), 379-387. |
[28] | Franklin, E., Blakers, A., 2004, SLIVER® Cells for Con-centrator Systems, Proc. 19th EPSEC, Paris, France. |
[29] | Blakers, A.W., Deenapanray, P.N.K., Everett, V., Franklin, E., Jellett, W., Weber, K.J., 2005, Recent Developments in SLIVER Cell Technology, Proc. 20th EPSEC, Barcelona, Spain. |
[30] | V. Díaz, J. Alonso, J.L. Alvarez, C. Mateos, The Path for Industrial Scale Production of Very High Concentration PV Systems, Proc. 20th EPSEC, June 6-10, 2005, Barcelona, Spain. |
[31] | Anton, I., Sala, G., 2005, Losses caused by dispersion of optical parameters and misalignments in PV concentrators, Prog. In Photovoltaics: Res. Appl. 13(4), 341-352. |
[32] | R. Winston, R, C. Gee, Nonimaging light concentrator with uniform irradiance, US Patent 6,541,694 B2, April 1, 2003. |
[33] | Leutz, R., Ries, H., 2003, Squaring the Circle - The Use of Microstructures for Converting and Homogenizing Beam Patterns, Proc. SPIE Vol. 5186, Design of EfficientIllumi-nation Systems, 106, Nov. 10, 2003; doi:10.1117/12.506792. |
[34] | Nostell, P., Roos, A., Karlsson, B., 1998, Ageing of solar booster reflector materials, Sol. Energy Mater. Sol. Cells, 54(1-4), 235. |
[35] | B.M. Clive, “Very low cost PV concentrators”, ETSU S/P2/00349REP, DTI/Pub URN 01/1120. |
[36] | J. Harrison, “Investigation of Reflectivity Materials for the Solar Cooker”, Florida Solar Energy Center, 24-12-2001. |