Comparison of Direct Normal Irradiance Derived from Silicon and Thermopile Global Hemispherical Radiation Detectors: Preprint

Research output: Contribution to conferencePaper

Abstract

Concentrating solar applications utilize direct normal irradiance (DNI) radiation, a measurement rarely available. The solar concentrator industry has begun to deploy numerous measurement stations to prospect for suitable system deployment sites. Rotating shadowband radiometers (RSR) using silicon photodiodes as detectors are typically deployed. This paper compares direct beam estimates from RSRto a total hemispherical measuring radiometer (SPN1) multiple fast thermopiles. These detectors simultaneously measure total and diffuse radiation from which DNI can be computed. Both the SPN1 and RSR-derived DNI are compared to DNI measured with thermopile pyrheliometers. Our comparison shows that the SPN1 radiometer DNI estimated uncertainty is somewhat greater than, and on the same order as,the RSR DNI estimates for DNI magnitudes useful to concentrator technologies.
Original languageAmerican English
Number of pages13
StatePublished - 2010
EventSPIE Optics and Photonics - San Diego, California
Duration: 1 Aug 20105 Aug 2010

Conference

ConferenceSPIE Optics and Photonics
CitySan Diego, California
Period1/08/105/08/10

NREL Publication Number

  • NREL/CP-550-48698

Keywords

  • accuracy
  • detectors
  • direct beam
  • silicon
  • solar radiation
  • thermopile
  • uncertainty

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