历史建筑中的灯光设计:参数与原型。表面行为的比较:金属网与高强度聚合物复合网

Ernesto Cesario, R. C. Grifoni, A. Leuzzi, Davide Paciotti
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引用次数: 1

摘要

长期以来,居住空间的质量一直是关注用户需求的设计的关键问题。要正确定义室内空间的环境质量,必须考虑许多方面,这必然涉及横向知识。空间质量的一个重要因素是正确使用自然光,以确保良好的照明和用户舒适度。在历史建筑中更是如此,几个世纪以来,这些建筑的最终功能或用途都发生了变化。与此同时,仿真工具以及基于开源协议的新测量模型最近变得非常重要。提出的实验方法应用于高性能外壳设计的初步分析,该外壳可以优化与太阳辐射有关的表面行为,同时考虑美学方面。这项研究旨在展示历史建筑如何从高科技设备的多功能中受益,这些设备可以同时满足古代建筑的功能和审美需求。我们的目标是在视觉舒适方面获得最佳的室内条件。结果证实了有意识地使用现代技术工具来支持设计的必要性。健康、安全、舒适环境的设计可以而且必须利用最具创新性的建筑支持工具,但它仍然需要设计师的意识和能力来实现高效的解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Light design in historical buildings: Parameters and prototypes. Comparison of façade behavior: Metal meshes vs. high-tenacity polymer composite meshes
The quality of living spaces has long been a key issue in design focused on user needs. To correctly define the environmental quality of indoor spaces, many aspects must be considered, which necessarily involves transverse knowledge. An important role in the quality of spaces is the correct use of natural light to ensure good lighting and user comfort. This is even truer within historical buildings where the final function or use has changed over the centuries. At the same time, simulation tools have recently become very important, along with new measurement models based on open-source protocols. The experimental method proposed is applied to initial analysis for the design of a high-performance shell that can optimize façade behavior in relation to solar radiation, considering aesthetic aspects as well. The research aims to show how historical buildings could benefit from the versatile nature of high-technological devices that can answer both the functional and aesthetic needs of ancient structures. The goal is to obtain the best indoor conditions in terms of visual comfort. The results confirm the need to consciously use modern technological tools to support design. The design of healthy, safe, comfortable environments can and must make use of the most innovative architectural support tools, but it still requires the awareness and ability of the designer to achieve efficient solutions.
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