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Experimental Characterization and Energy Performances of Multiple Glazing Units with Integrated Shading Devices

机译:集成遮光装置的多层玻璃单元的实验特性和能量性能

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摘要

Abstract Modern architecture is characterized by the use of large glazed surfaces. New technologies ensure thermal insulation by multiple glazing units so that, maintaining good solar gains, highly glazed buildings can achieve good energy performance during the heating season. More complicated is the management of the energy performance during the cooling season due to high permeability to solar radiation. External shading devices are a suitable solution but they are often neglected for functional and aesthetic reasons. Solar protection devices can be, however, introduced in the air gap of multiple glazing units, providing solar protection without interfering with the building envelope. Solar and thermal properties of several solution of glazing units with in-gap shading devices were measured with advanced experimental set-up, to be compared with conventional systems. Numerical analyses were also performed to estimate the impact of this technology on the energy performance of office buildings.
机译:摘要现代建筑的特点是使用大的玻璃表面。新技术可通过多个玻璃窗单元实现隔热,因此,保持高采光率的高玻璃建筑可以在供暖季节实现良好的能源性能。由于对太阳辐射的高渗透性,在冷却季节对能源性能的管理更为复杂。外部遮光设备是一种合适的解决方案,但是出于功能和美观的原因,它们通常被忽略。但是,可以在多个玻璃单元的气隙中引入遮阳装置,从而在不干扰建筑物围护结构的情况下提供遮阳保护。使用先进的实验装置测量了带有间隙遮阳装置的玻璃窗解决方案的几种解决方案的太阳和热性能,并与传统系统进行了比较。还进行了数值分析,以估算该技术对办公楼能源性能的影响。

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