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Title: Experimental comparison of pyranometer, reflectometer, and spectrophotometer methods for the measurement of roofing product albedo

Journal Article · · Solar Energy
ORCiD logo [1];  [2];  [1];  [1]
  1. Lawrence Berkeley National Lab. (LBNL), Berkeley, CA (United States)
  2. Cool Roof Rating Council, Portland, OR (United States)
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Albedo (solar reflectance) can be measured outdoors with a pyranometer or indoors with a hemispherical reflectometer or a spectrophotometer. The current study evaluates these methods and their applicability to roofing materials by measuring and comparing the ASTM E1918 (pyranometer), non-ASTM E1918A (alternative pyranometer), ASTM C1549 (reflectometer), and E903 (spectrophotometer) albedos of 10 roofing products, including three single-ply membranes, one asphalt shingle, three roofing aggregates, and three high-profile tiles. It uses full-size (4 m × 4 m) assemblies in the E1918 and E1918A trials; corrects the E1918 albedos to remove shadow and background errors; and evaluates C1549 and E903 albedos with two different irradiance spectra, one global horizontal and the other beam normal. E1918A albedos matched E1918 corrected (E1918_cor) albedos to within 0.036. Furthermore, agreement between C1549 air mass 1 global horizontal (C1549_G1) albedo and E1918_cor albedo was within 0.015 for membrane and shingle coupons, and within 0.031 for aggregates, though the uncertainty in the latter agreement was up to 0.043. After minor corrections, C1549_G1 albedos of flat or slightly convex tile chips were 0.032–0.052 higher than the E1918_cor albedos of their corresponding high-profile tile assemblies because high-profile surfaces have concavities. Switching to the beam-normal albedo C1549_1.5E increased the C1549 albedos of the 10 tested products by 0.004–0.054, with the largest increases (C1549_1.5E – C1549_G1) accruing to spectrally selective cool colors. Using C1549_1.5E albedo to characterize a chip of a cool-colored tile compounded the error induced by representing a high-profile surface by a flat or slightly convex specimen.

Research Organization:
Lawrence Berkeley National Lab. (LBNL), Berkeley, CA (United States)
Sponsoring Organization:
USDOE Office of Energy Efficiency and Renewable Energy (EERE), Energy Efficiency Office. Building Technologies Office
Grant/Contract Number:
AC02-05CH11231
OSTI ID:
1782151
Alternate ID(s):
OSTI ID: 1702489
Journal Information:
Solar Energy, Vol. 206; ISSN 0038-092X
Publisher:
ElsevierCopyright Statement
Country of Publication:
United States
Language:
English

References (13)

A new simplified method for measuring the albedo of limited extent targets journal November 2017
Reflectometer measurement of roofing aggregate albedo journal February 2014
Procedure for measuring the solar reflectance of flat or curved roofing assemblies journal July 2008
Evolution of Cool-Roof Standards in the US journal January 2008
The Monte Carlo Method in Radiative Heat Transfer journal August 1998
Study on the cool roof effect of Japanese traditional tiled roof: Numerical analysis of solar reflectance of unevenness tiled surface and heat budget of typical tiled roof system journal December 2012
Measuring the albedo of limited-extent targets without the aid of known-albedo masks journal September 2018
Field measurement of albedo for limited extent test surfaces journal May 2006
Surface roughness effects on the solar reflectance of cool asphalt shingles journal April 2008
Solar spectral optical properties of pigments—Part II: survey of common colorants journal December 2005
A simplified method for the solar reflectance of a finite surface in field journal November 2017
Measuring solar reflectance—Part I: Defining a metric that accurately predicts solar heat gain journal September 2010
Measuring solar reflectance—Part II: Review of practical methods journal September 2010

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Related Subjects

14 SOLAR ENERGY
solar reflectance
albedo
pyranometer
hemispherical reflectometer
solar spectrophotometer
roofing product