An overview of analytical models for thermal/ Vis-NIR radiation transfer through nanopigment coated non-metallic materials

IF 6 Q1 ENGINEERING, MULTIDISCIPLINARY Results in Engineering Pub Date : 2024-10-24 DOI:10.1016/j.rineng.2024.103198

Negin Piri, Ali Shams Nateri

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Abstract

Particulate films and coatings have received growing attention in a wide range of optical applications, mainly those that involve passive heating and cooling strategies (e.g., cool coatings for textiles and roofing). They provide a promising sustainable solution, not only in terms of performance but also in terms of cost and feasibility for serious environmental issues such as the Urban Heat Island effect.

Accurate prediction of radiation transfer, on the other hand, is a key factor in the design and development of particulate media with predetermined optical properties. This prediction is classified into two categories: analytical and numerical methods, which necessitate the consideration of various aspects. Accordingly, this paper highlights the significant effect of pigment particles on the light scattering behavior of particulate media and explores the influence of parameters that can tune the efficiency of radiation transfer. It also reviews the advancements achieved in this topic across different investigated models to pave the way for newer developments in the design of particulate films and coatings for optical applications.

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纳米颜料涂层非金属材料热辐射/可见光-近红外辐射传递分析模型概述

微粒薄膜和涂层在广泛的光学应用中受到越来越多的关注，主要是那些涉及被动加热和冷却策略的应用（如纺织品和屋顶的冷却涂层）。它们不仅在性能方面，而且在成本和可行性方面，都为严重的环境问题（如城市热岛效应）提供了一种前景广阔的可持续解决方案。另一方面，对辐射传递的准确预测是设计和开发具有预定光学特性的微粒介质的关键因素。这种预测分为两类：分析方法和数值方法，需要考虑多方面的因素。因此，本文强调了颜料颗粒对颗粒介质光散射行为的重要影响，并探讨了可调节辐射传输效率的参数的影响。本文还回顾了这一主题在不同研究模型中取得的进展，为光学应用中的微粒薄膜和涂层设计的更新发展铺平了道路。

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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