精神天空项目:未来栖息地的二氧化硅气凝胶圆顶

Ioannis Michaloudis, Maria Skouloudi, C. Bok, Qin Jingyan
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引用次数: 1

摘要

本文的假设是对使用空间技术纳米材料二氧化硅气凝胶作为绝缘材料的圆顶结构进行研究。二氧化硅气凝胶是一种具有优异隔热性能的纳米材料,因为其体积的99.98%可以是纯净的空气。绝缘一词来源于拉丁语insula,意为“岛屿”,我们可以说是“孤立的土地”。行星地球是一个“太空岛”,换句话说,是一个被大气层包围的绿洲:一层名为天空的气体包围着我们的星球,保护生命免受太阳紫外线辐射的遗传损害。通过模仿自然——为了保护自己——人类创造了服装和建筑。服装和建筑的主要功能是绝缘和保护人体。二氧化硅气凝胶可以被认为是21世纪的环保“塑料”,因为它可以在任何领域找到应用。由于气凝胶是非凡的节能材料,它们可以成为设计未来可持续太空栖息地隔热材料的典范。气凝胶代表了未来隔热建筑最有前途的材料之一,因为这种材料表现出高性能,在非真空中使用的隔热商业产品中表现出10-20 mW/(mK)的热导率。气凝胶在制造时,可以表现出不同程度的不透明度,包括半透明和透明,从而实现各种各样的应用,用于可能需要进入日光或利用阳光作为能量的建筑物的隔热。二氧化硅气凝胶是所有作者的多学科研究的材料震中。在互动展示中,我们将提出名为“充满活力的天空”和“玻璃中的天堂”的小玻璃圆顶的设计,其中二氧化硅气凝胶被倒入夹套的玻璃烧杯中,微云被安置在玻璃之间。我们认为,这些未来太空圆顶透明或半透明的外壳上的人造云可能会减轻宇航员对地球——我们的家园——的怀念。出于同样的目的,我们还建议在未来的太空任务中使用双壁玻璃器皿中带有蓝色和金色天空景观的水(或酒)杯。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spirited Skies Project: Silica Aerogel Domes for the Habitat of the Future
The hypothesis of this paper is the examination of dome constructions using the space technology nanomaterial silica aerogel as insulating material. Silica aerogels are nanomaterials with excellent thermal insulations properties because 99.98% of their volume can be pure air. Insulation’s origin is the Latin insula ‘island’, an “isolated land” we could say. Planet Earth is a “space island”, in other words an oasis enveloped by its atmosphere: a layer of gases named sky surrounds our planet and protects life from genetic damage by ultraviolet solar radiation. By imitating nature -and in order to protect themselves-humans create garments and architectures. The primary function for garments and architecture is to insulate and to protect the human body. Silica aerogels could be considered as the eco friendly “plastic” of the 21st century because they can find application in any field. As aerogels are phenomenal energy savers they could be the paradigmatic materials for designing the insulation for future sustainable space habitats. Aerogels represent one of the most promising materials for thermally insulating buildings of the future, since the material demonstrates high performance, exhibiting thermal conductivities of 10-20 mW/(mK) in insulated, commercial products not used in a vacuum. Aerogels, when manufactured, can exhibit varying degrees of opacity, including both translucency and transparency, thereby enabling a diverse variety of applications for insulation in buildings that might require access to daylight or exploit sunlight for energy. Silica aerogel is the material-epicentre of all of the author’s multidisciplinary research. During the interactive presentation we will propose the design of small glass domes entitled Spirited Skies and Heaven in a Glass where silica aerogel was poured into jacketed glass beakers and micro clouds were settled in between the glazing. We suggest that the artificial clouds set on the transparent or translucent shell of these future space domes may relieve astronauts of their nostalgia of Earth, our home planet. With the same intention we also propose for a future space mission to utilise water (or wine) glasses with blue and gold skyscapes in double walled glass utensils.
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