TY - RPRT KW - Energy savings KW - EnergyPlus KW - Cool roofs KW - Solar reflectance KW - Albedo KW - Heat island mitigation KW - Natural exposure KW - WRF KW - Cool walls KW - Peak power demand reduction KW - Urban cooling KW - Paint KW - Cladding KW - Fluorescent pigments KW - Retroreflectors KW - Guidelines KW - Building energy standards KW - Green building programs KW - Utility incentives KW - Product rating KW - TUF-IOBES AU - Ronnen M Levinson AU - George A Ban-Weiss AU - Paul H Berdahl AU - Sharon S Chen AU - Hugo Destaillats AU - Nathalie Dumas AU - Haley E Gilbert AU - Howdy Goudey AU - Sébastien Houzé de l’Aulnoit AU - Jan Kleissl AU - Benjamin Kurtz AU - Yun Li AU - Yan Long AU - Arash Mohegh AU - Negin Nazarian AU - Matteo Pizzicotti AU - Pablo J Rosado AU - Marion L Russell AU - Jonathan L Slack AU - Xiaochen Tang AU - Jiachen Zhang AU - Weilong Zhang AB -

Raising the albedo (solar reflectance) of a building’s walls reduces unwanted solar heat gain in the cooling season. This saves electricity and lowers peak power demand by decreasing the need for air conditioning. It can also cool the outside air, which can mitigate the urban heat island effect and also improve air quality by slowing the reactions that produce smog. This project quantified the energy savings, peak demand reduction, urban cooling, and air quality improvements attainable from solar-reflective “cool” walls in California; collaborated with industry to assess the performance of existing cool-wall technologies, and to develop innovative cool-wall solutions; and worked with state and federal government agencies, utilities, and industry to create a cool-wall infrastructure, including application guidelines, a product rating program, incentives, and building code credits. 

Simulations indicate that cool walls provide annual energy savings, peak demand reduction, annual emission reduction, and summer heat island mitigation benefits comparable to those yielded by cool roofs, and are helpful across California and in most of the southern half of the United States (that is, in U.S. climate zones 1—4). Natural exposure trials conducted at three sites in California and another three sites across the United States indicate that cool-wall materials tend to stay clean and reflective. Significant advances were made in novel cool-wall technologies, such as fluorescent cool pigments that expand the color palette for cool-wall products. We prepared guidelines for the climate- and building-appropriate use of cool walls, convened a stakeholder workshop, and created a working group. Ongoing efforts seek to introduce or expand cool-wall provisions in building energy standards, green building programs, and energy efficiency incentive programs, and to develop a cool-wall product rating system. 

C2 - 2001296 DA - 04/2019 DO - 10.20357/B7SP4H LA - eng N2 -

Raising the albedo (solar reflectance) of a building’s walls reduces unwanted solar heat gain in the cooling season. This saves electricity and lowers peak power demand by decreasing the need for air conditioning. It can also cool the outside air, which can mitigate the urban heat island effect and also improve air quality by slowing the reactions that produce smog. This project quantified the energy savings, peak demand reduction, urban cooling, and air quality improvements attainable from solar-reflective “cool” walls in California; collaborated with industry to assess the performance of existing cool-wall technologies, and to develop innovative cool-wall solutions; and worked with state and federal government agencies, utilities, and industry to create a cool-wall infrastructure, including application guidelines, a product rating program, incentives, and building code credits. 

Simulations indicate that cool walls provide annual energy savings, peak demand reduction, annual emission reduction, and summer heat island mitigation benefits comparable to those yielded by cool roofs, and are helpful across California and in most of the southern half of the United States (that is, in U.S. climate zones 1—4). Natural exposure trials conducted at three sites in California and another three sites across the United States indicate that cool-wall materials tend to stay clean and reflective. Significant advances were made in novel cool-wall technologies, such as fluorescent cool pigments that expand the color palette for cool-wall products. We prepared guidelines for the climate- and building-appropriate use of cool walls, convened a stakeholder workshop, and created a working group. Ongoing efforts seek to introduce or expand cool-wall provisions in building energy standards, green building programs, and energy efficiency incentive programs, and to develop a cool-wall product rating system. 

PY - 2019 TI - Solar-Reflective “Cool” Walls: Benefits, Technologies, and Implementation UR - https://submit.escholarship.org/dspace-preview/qt5w9995b4/content/Solar_Reflective_Cool_Walls_CEC_Final_Report_LBNL_20001296.pdf?key=8vx7ho6e2rt7qr8efi0gxas70m3zclo SN - CEC-500-2019-040 ER -