Black Cool Pigments for Urban Heat Island (UHI) Control: from Cr-Hematite to Mn-Melilite

Journal of Solar Energy Research Updates Pub Date : 2021-07-01 DOI:10.31875/2410-2199.2021.08.4

G. Monrós, S. Cerro, J.A. Badenes, M. Llusar

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引用次数: 2

Abstract

Black cool pigments are very interesting for its application in asphalt urban pavements and building floors for moderate the urban heat island effect (UHI) and improving air conditioning energy efficiency. Cool black pigments based on Cr doped hematite Fe2O3 (trigonal, R-3c), hexagonal perovskites YMnO3 (hexagonal, P63cm) and Sr4CuMn2O9 (trigonal, P321) and melilite Sr2(Mg0.5Mn0.5)Ge2O7 (tetragonal, P-421m) with high NIR reflectance synthesized by ceramic and coprecipitation method, are analyzed and compared from color yield in alkyd paint, ceramic glazes and porcelain stoneware, NIR reflectance, bandgap and photocatalytic activity on Orange II substrate. Sr4CuMn2O9 black powders show the nearest hue h to the reference carbon black and the highest NIR reflectance (51%). All pigments show high NIR reflectance in all tested applications. The Fe1.2Cr0.8O3 pigment shows good behavior in the free ZnO glaze and also in porcelain stoneware, YMnO3 and Sr4CuMn2O9 pigments are compatible with low temperature glazes, but Sr2(Mg0.5Mn0.5)Ge2O7 pigment loses the black color even in low temperature glazes. Sr4CuMn2O9 pigment shows moderate photoactivity on Orange II (t1/2=216 min) and the Fe1.2Cr0.8O3 pigment also shows some activity (t1/2=329 min).

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城市热岛(UHI)控制用黑色冷颜料:从cr -赤铁矿到Mn-Melilite

黑色冷色颜料在沥青城市路面和建筑地板上的应用非常有趣，可以缓解城市热岛效应，提高空调能效。采用陶瓷共沉淀法合成了高近红外反射率Cr掺杂赤铁矿Fe2O3(三角形，R-3c)、六方钙钛矿YMnO3(六边形，P63cm)、Sr4CuMn2O9(三角形，P321)和melilite Sr2(Mg0.5Mn0.5)Ge2O7(四方，P-421m)的冷黑色颜料，从醇酸漆、陶瓷釉料和瓷石器的显色率、近红外反射率、带隙和在Orange II衬底上的光催化活性等方面进行了分析和比较。Sr4CuMn2O9黑色粉末具有与参考炭黑最接近的色相h和最高的近红外反射率(51%)。在所有测试应用中，所有颜料都显示出高的近红外反射率。Fe1.2Cr0.8O3颜料在游离ZnO釉和陶瓷中表现良好，YMnO3和Sr4CuMn2O9颜料与低温釉相兼容，而Sr2(Mg0.5Mn0.5)Ge2O7颜料即使在低温釉中也会失去黑色。Sr4CuMn2O9和Fe1.2Cr0.8O3对橙ⅱ具有中等的光活性(t1/2=216 min)和一定的光活性(t1/2=329 min)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Solar Energy Research Updates

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