Affiliation:
1. Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland
2. IMPAC Electronic GmbH, Krifteler Straße 32, DE-60326 Frankfurt/Main, Germany
Abstract
Surface temperatures are key parameters in many applications of concentrated solar radiation. Pyrometric temperature determination is, however, hampered by reflected solar radiation. Two approaches to solve this problem were experimentally tested on a solar reactor at the Paul Scherrer Institute (PSI): the flash assisted multi-wavelength pyrometry (FAMP) developed at PSI and a solar-blind pyrometer developed by the IMPAC Electronic GmbH in Frankfurt, Germany, in collaboration with PSI. Performance, advantages, and disadvantages of the two pyrometers are reported and discussed.
Subject
Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment
Reference14 articles.
1. Coates, P. B.
, 1981, “Multi-Wavelength Pyrometry,” Metrologia, 17, pp. 103–109.
2. Nordine, P. C.
, 1986, “The Accuracy of Multicolor Optical Pyrometry,” High. Temp. Sci., 21, pp. 97–109.
3. Allemand, C., Khan, M. A., and Eagar, T. W., 1991, “Noncontact Temperature Measurement. I. Interpolation Based Techniques,” Rev. Sci. Instrum., 62, pp. 392–402.
4. Allemand, C., Khan, M. A., and Eagar, T. W., 1991, “Noncontact Temperature Measurement. II. Least Squares Based Techniques,” Rev. Sci. Instrum., 62, pp. 403–409.
5. White, D. R., and Nicholas, J. V., 1992, Emissivity and Reflection Errors in Radiation Thermometry, Vol. 6 of Temperature, its Measurement and Control in Science and Industry, American Institute of Physics, pp. 917–922.
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