SFERA Winter School Solar Fuels & Materials Page 267

Solar Fuels & Materials Page 267

Solar Fuels & Materials Page 268 πυρ ε ε ε ε λ ε αε ε

Solar Fuels & Materials Page 269 μ λ μ

Solar Fuels & Materials Page 270 λ λ ε ε ε ε ε ε ε ε ε ε λ μ

Solar Fuels & Materials Page 271 σ σ σ

Solar Fuels & Materials Page 273 μμ ε Δ ε

Solar Fuels & Materials Page 276 ω ω ω λ ω

Solar Fuels & Materials Page 277 λμ ε λμ ε α μ ε ±

Solar Fuels & Materials Page 278 α ε ε

Solar Fuels & Materials Page 279 ε ε ε ε ε ε α

Solar Fuels & Materials Page 280 2 nd SFERA Winter School March 24-25, 2011 1. P.B. Coates; Wavelength Specification In Optical and Photoelectric Pyrometry; Metrologia, 13, 1, (1977). 2. P.B. Coates; Multi-Wavelength Pyrometry; Metrologia, 17, 103, (1981). 3. P.C. Nordine; The Accuracy Of Multicolor Optical Pyrometry; High Temp. Sci., 21, 97, (1986). 4. J.W. Hahn and C.H. Rhee; Calculation of Temperature Error In A 2- color Pyrometer Designed With the Reference Wavelength Method; Appl. Optics, 27, 1916, (1988). 5. M.A. Khan, C. Allemand and T.W. Eagar; Noncontact Temperature- Measurement. 1. Interpolation Based Techniques; Rev. Sci. Instrum., 62, 392, (1991). 6. M.A. Khan, C. Allemand and T.W. Eagar; Noncontact Temperature- Measurement. 2. Least-Squares Based Techniques; Rev. Sci. Instrum., 62, 403, (1991). 7. M. Schubnell, H.R. Tschudi, P. Kuhn and H. Ries; Reflectivity as a Probe for Chemical Reactions; P. Indian AS.-Chem. Sci., 105, 671, (1993). 8. D. Hernandez, G. Olalde, A. Beck and E. Milcent; Bicolor pyroreflectometer using an optical fiber probe; Rev. Sci. Instrum., 66, 5548, (1995). 9. M. Schubnell, H.R. Tschudi and Ch. Muller; Temperature measurement under concentrated radiation; Sol. Energy, 58, 69, (1996). 10. H.R. Tschudi and M. Schubnell; Measuring temperatures in the presence of external radiation by flash assisted multiwavelength pyrometry; Rev. Sci. Instrum., 70, 2719, (1999). 11. H.R. Tschudi, M. Schubnell and Ch. Muller; Measuring temperatures on absorbers irradiated in a solar furnace by flash assisted multi-wavelength pyrometry (FAMP); J. Phys. IV, 9, 629, (1999). 12. I. Alxneit, St. Eckhoff, M. Schubnell and H.R. Tschudi; Determination of the spectral emittance in the visible range at high temperatures supported by laser heating; Proceedings of the ISES Solar World Congress, 1, 372, (1999). 13. O. Rozenbaum, D.D. Meneses, Y. Auger, S. Chermanne and P. Echegut; A spectroscopic method to measure the spectral emissivity of semi-transparent materials up to high temperature; Rev. Sci. Instrum., 70, 4020 (1999). 14. D. Ng and G. Fralick; Use of a multiwavelength pyrometer in several elevated temperature aerospace applications; Rev. Sci. Instrum., 72, 1522, (2001). 15. H.R. Tschudi and G. Morian; Pyrometric temperature measurements in solar furnaces; J. Sol. Energ.-T. ASME, 123, 164, (2001). 16. B. Bittnar, W. Durisch, J.-C. Mayor and H.R. Tschudi; Characterization of rare earth selective emitters for thermophotovoltaic applications; Sol. Energ. Mat. Sol. C., 73, 221, (2002). 1-2 Dr. I. Alxneit, PSI

Solar Fuels & Materials Page 281 2 nd SFERA Winter School March 24-25, 2011 17. M. Musella, S. Eckhoff S, H.R. Tschudi and I. Alxneit; Development of an apparatus for the determination of spectral reflectivity at high temperatures in the visible; Int. J. Thermophys., 23, 1303, (2002). 18. N. Rohner and A. Neumann; Measurement of high temperatures in the DLR solar furnace by UV-B detection; J. Sol. Energ.-T. ASME, 125, 152, (2003). 19. M. Musella, I. Alxneit and H.R. Tschudi; Flash Assisted Multi-Wavelength Pyrometry (FAMP); Proceedings of the 9th International Symposium on Temperature and Thermal Measurements in Industry and Sciences (TEMP- MEKO), 1, 551, (2004). 20. D. Hernandez, G. Olalde, J.M. Gineste and C. Gueymard, C.; Analysis and experimental results of solar-blind temperature measurements in solar furnaces; J. Sol. Energ.-T. ASME, 126, 645, (2004). 21. A.P. Freid, P.K. Johnson, M. Musella, R. Muller, J.E. Steinbrenner and J. E. and R.D. Palumbo; Solar blind pyrometer temperature measurements in high temperature solar thermal reactors: A method for correcting the system-sensor cavity reflection error; J. Sol. Energ.-T. ASME, 127, 86, (2005). 22. Ch. Guesdon, I. Alxneit, H.R. Tschudi, D. Wuillemin and M. Sturzenegger; 1 kw imaging furnace with in situ measurement of surface temperature; Rev. Sci. Instrum., 77, 035102, (2006). 23. M. Pfänder, E. Lüpfert and P. Heller; Pyrometric temperature measurements on solar thermal high temperature receivers; J. Sol. Energ.-T. ASME, 128, 285, (2006). 24. L. del Campo, R.B. Perez-Saez, X. Esquisabel, I. Fernandez and M.J. Tello; New experimental device for infrared spectral directional emissivity measurements in a controlled environment; Rev. Sci. Instrum., 77, 113111, (2006). 25. M. Pfänder, E. Lüpfert and P. Pistor, P.; Infrared temperature measurements on solar trough absorber tubes; Sol. Energy, 81, 629, (2007). 26. D. Hernandez, J.L. Sans and M. Pfänder; Pyroreflectometry to determine the true temperature and optical properties of surfaces; J. Sol. Energ.-T. ASME, 130, 031003, (2008). 27. A.N. Magunov; Spectral pyrometry (Review); Instrum. Exp. Tech., 52, 451, (2009). 28. N.B. Crane; Pyrometric Temperature Measurement in Concentrated Sunlight With Emissivity Determination; J. Sol. Energ.-T. ASME, 132, 11007, (2010). 29. I. Alxneit; Measuring temperatures in a high concentration solar simulator Demonstration of the principle; Sol. Energy, 85, 516, (2011). 2-2 Dr. I. Alxneit, PSI