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Applied Optics

Applied Optics

APPLICATIONS-CENTERED RESEARCH IN OPTICS

  • Editor: Joseph N. Mait
  • Vol. 52, Iss. 30 — Oct. 20, 2013
  • pp: 7389–7398

Optical analysis of a curved-slats fixed-mirror solar concentrator by a forward ray-tracing procedure

Ramon Pujol Nadal and Víctor Martínez Moll  »View Author Affiliations


Applied Optics, Vol. 52, Issue 30, pp. 7389-7398 (2013)
http://dx.doi.org/10.1364/AO.52.007389


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Abstract

Fixed-mirror solar concentrators (FMSCs) use a static reflector and a moving receiver. They are easily installable on building roofs. However, for high-concentration factors, several flat mirrors would be needed. If curved mirrors are used instead, high-concentration levels can be achieved, and such a solar concentrator is called a curved-slats fixed-mirror solar concentrator (CSFMSC), on which little information is available. Herein, a methodology is proposed to characterize the CSFMSC using 3D ray-tracing tools. The CSFMSC shows better optical characteristics than the FMSC, as it needs fewer reflector segments for achieving the same concentration and optical efficiency.

© 2013 Optical Society of America

OCIS Codes
(080.2740) Geometric optics : Geometric optical design
(220.1770) Optical design and fabrication : Concentrators
(350.6050) Other areas of optics : Solar energy

ToC Category:
Optical Design and Fabrication

History
Original Manuscript: July 23, 2013
Revised Manuscript: September 22, 2013
Manuscript Accepted: September 24, 2013
Published: October 18, 2013

Citation
Ramon Pujol Nadal and Víctor Martínez Moll, "Optical analysis of a curved-slats fixed-mirror solar concentrator by a forward ray-tracing procedure," Appl. Opt. 52, 7389-7398 (2013)
http://www.opticsinfobase.org/ao/abstract.cfm?URI=ao-52-30-7389


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References

  1. IEA, “Technology roadmap: solar heating and cooling” (2012).
  2. J. M. Gordon and M. Jeffrey, Solar Energy the State of the Art: ISES Position Papers (James & James, 2001).
  3. W. G. Steward and F. Kreith, “Stationary concentrating reflector cum tracking absorber solar energy collector: optical design characteristics,” Appl. Opt. 14, 1509–1512 (1975). [CrossRef]
  4. M. F. El-Refaie, “Performance analysis of the stationary-reflector/tracking-absorber solar collector,” Appl. Energy 28, 163–189 (1987). [CrossRef]
  5. M. F. El-Refaie, “Performance analysis of the stationary-reflector/tracking-absorber solar collector,” Energy Convers. Manag. 29, 111–127 (1989). [CrossRef]
  6. J. L. Russell, E. P. DePlomb, and R. K. Bansal, “Principles of the fixed mirror solar concentrator,” 139–145 (1974).
  7. R. L. Bansal, “Theoretical analysis of fixed mirror solar concentrator,” Ph.D. thesis (Arizona State University, 1974).
  8. G. H. Eggers and J. L. Russell, “The FMSC collector subsystem for the Sandia Solar Total Energy Facility,” in Solar Cooling and Heating: Architectural, Engineering, and Legal Aspects; Proceedings of the Forum (Hemisphere Publishing, 1978), pp. 255–271.
  9. V. E. Dudley and R. M. Workhoven, “Summary report: concentrating solar collector test results: Collector Module Test Facility (CMTF). January–December 1978,” SAND78-0977 (1979).
  10. R. Pujol Nadal and V. Martínez Moll, “Optical analysis of the fixed mirror solar concentrator by forward ray-tracing procedure,” J. Sol. Energy Eng. 134, 031009 (2012).
  11. W. R. McIntire, “Factored approximations for biaxial incident angle modifiers,” Sol. Energy 29, 315–322 (1982). [CrossRef]
  12. D. Chemisana, A. Coronas, J. López-Villada, J. I. Rosell, and C. Lodi, “Building integration of concentrating systems for solar cooling applications,” Appl. Therm. Eng. 50, 1472–1479 (2013). [CrossRef]
  13. J. A. Duffie and W. Beckman, Solar Engineering of Thermal Processes (Wiley, 1991).
  14. R. Pujol Nadal, “Comportamiento óptico y térmico de un concentrador solar lineal con reflector estacionario y foco móvil,” Ph.D. thesis (University of Balearic Islands, 2012), http://hdl.handle.net/10803/84115 .
  15. V. Balasubramanian and G. Sankarasubramanian, “Stretched tape design of fixed mirror solar concentrator with curved mirror elements,” Sol. Energy 51, 109–119 (1993). [CrossRef]
  16. V. Martínez Moll, R. Pujol Nadal, A. Moià Pol, and H. Schwiger, “Analysis of a stationary parabolic linear concentrator with tracking absorber,” in 13th International Symposium on Concentrated Solar Power and Chemical Energy Technologies (2006).
  17. D. Buie, C. J. Dey, and S. Bosi, “The effective size of the solar cone for solar concentrating systems,” Sol. Energy 74, 417–427 (2003). [CrossRef]
  18. T. Tesfamichael and E. Wäckelgård, “Angular solar absorptance of absorbers used in solar thermal collectors,” Appl. Opt. 38, 4189–4197 (1999). [CrossRef]
  19. A. Rabl, P. Bendt, and H. W. Gaul, “Optimization of parabolic trough solar collectors,” Sol. Energy 29, 407–417 (1982). [CrossRef]
  20. A. Fernández-García, E. Zarza, L. Valenzuela, and M. Pérez, “Parabolic-trough solar collectors and their applications,” Renew. Sust. Energ. Rev. 14, 1695–1721 (2010). [CrossRef]
  21. G. Zhu, “Study of the optical impact of receiver position error on parabolic trough collectors,” J. Sol. Energy Eng. 135, 031021 (2013). [CrossRef]
  22. M. Rönnelid, B. Perers, and B. Karlsson, “On the factorisation of incidence angle modifiers for CPC collectors,” Sol. Energy 59, 281–286 (1997). [CrossRef]

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