TY - JOUR KW - Cool roofs KW - Solar reflectance KW - Thermal emittance KW - Soiling KW - Weathering KW - Aging KW - Interlaboratory study AU - Mohamad Sleiman AU - Sharon S Chen AU - Haley E Gilbert AU - Thomas W Kirchstetter AU - Paul H Berdahl AU - Erica Bibian AU - Laura S Bruckman AU - Dominic Cremona AU - Roger H French AU - Devin A Gordon AU - Marco Emiliani AU - Justin Kable AU - Liyan Ma AU - Milena Martarelli AU - Riccardo Paolini AU - Matthew Prestia AU - John Renowden AU - Gian Marco Revel AU - Olivier Rosseler AU - Ming Shiao AU - Giancarolo Terraneo AU - Tammy Yang AU - Lingtao Yu AU - Michele Zinzi AU - Hashem Akbari AU - Ronnen M Levinson AU - Hugo Destaillats AB -

A laboratory method to simulate natural exposure of roofing materials has been reported in a companion article. In the current article, we describe the results of an international, nine-participant interlaboratory study (ILS) conducted in accordance with ASTM Standard E691-09 to establish the precision and reproducibility of this protocol. The accelerated soiling and weathering method was applied four times by each laboratory to replicate coupons of 12 products representing a wide variety of roofing categories (single-ply membrane, factory-applied coating (on metal), bare metal, field-applied coating, asphalt shingle, modified-bitumen cap sheet, clay tile, and concrete tile). Participants reported initial and laboratory-aged values of solar reflectance and thermal emittance. Measured solar reflectances were consistent within and across eight of the nine participating laboratories. Measured thermal emittances reported by six participants exhibited comparable consistency. For solar reflectance, the accelerated aging method is both repeatable and reproducible within an acceptable range of standard deviations: the repeatability standard deviation sr ranged from 0.008 to 0.015 (relative standard deviation of 1.2–2.1%) and the reproducibility standard deviation sR ranged from 0.022 to 0.036 (relative standard deviation of 3.2–5.8%). The ILS confirmed that the accelerated aging method can be reproduced by multiple independent laboratories with acceptable precision. This study supports the adoption of the accelerated aging practice to speed the evaluation and performance rating of new cool roofing materials.

BT - Solar Energy Materials and Solar Cells DA - 12/2015 DO - 10.1016/j.solmat.2015.07.031 N2 -

A laboratory method to simulate natural exposure of roofing materials has been reported in a companion article. In the current article, we describe the results of an international, nine-participant interlaboratory study (ILS) conducted in accordance with ASTM Standard E691-09 to establish the precision and reproducibility of this protocol. The accelerated soiling and weathering method was applied four times by each laboratory to replicate coupons of 12 products representing a wide variety of roofing categories (single-ply membrane, factory-applied coating (on metal), bare metal, field-applied coating, asphalt shingle, modified-bitumen cap sheet, clay tile, and concrete tile). Participants reported initial and laboratory-aged values of solar reflectance and thermal emittance. Measured solar reflectances were consistent within and across eight of the nine participating laboratories. Measured thermal emittances reported by six participants exhibited comparable consistency. For solar reflectance, the accelerated aging method is both repeatable and reproducible within an acceptable range of standard deviations: the repeatability standard deviation sr ranged from 0.008 to 0.015 (relative standard deviation of 1.2–2.1%) and the reproducibility standard deviation sR ranged from 0.022 to 0.036 (relative standard deviation of 3.2–5.8%). The ILS confirmed that the accelerated aging method can be reproduced by multiple independent laboratories with acceptable precision. This study supports the adoption of the accelerated aging practice to speed the evaluation and performance rating of new cool roofing materials.

PY - 2015 SP - 581 EP - 590 T2 - Solar Energy Materials and Solar Cells TI - Soiling of building envelope surfaces and its effect on solar reflectance – Part III: Interlaboratory study of an accelerated aging method for roofing materials VL - 143 ER -