用于个人热管理的动态热调节光子晶体织物

Mohamed Boutghatin, Y. Pennec, S. Assaf, Michèle Carette, V. Thomy, A. Akjouj, B. Djafari-Rouhani
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引用次数: 0

摘要

个人热管理代表了一种减少能源消耗的新模式,它包括控制人体周围的温度,而不是调节整个住宅空间的温度。近年来,智能纺织品在辐射加热和冷却性能方面取得了可喜的进展。然而,对于双功能纺织品,即冷却和加热的建议仍然有限。我们在这里提出了一种动态热调节织物(DTF)的理论研究,该织物能够通过调整其几何形状来调节人体温度。DTF是一种二维光子晶体,由夹在两个温度敏感聚合物膜之间的超薄金属薄膜组成。根据三角形阵列,在堆叠的几何体上钻有气孔。我们证明了DTF能够通过动态控制人体的中红外(MIR)辐射在很大的房间温度范围内保持热舒适。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dynamic thermoregulatory photonic crystal fabric for personal thermal management
Personal thermal management represents a new paradigm to reduce the energy consumption, which consists in controlling the temperature around the human body rather than regulating the temperature of the entire residential space. Recent progress in smart textile showed promising radiative heating and cooling performance. However, propositions for double functional textiles, namely cooling and heating, are still limited. We present here a theoretical study of a dynamic thermoregulatory fabric (DTF) able to regulate the human body temperature by adapting its geometry. The DTF is a 2D photonic crystal constituted of an ultra-thin metallic film sandwiched between two temperature-sensitive polymer membranes. The stacked geometry is drilled with air holes according to a triangular array. We demonstrate that the DTF is able to maintain the thermal comfort over a wide range of room’s temperature by dynamically controlling the mid infrared (MIR) radiations of the human body.
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