Dynamic environmental control mechanisms for pneumatic foil constructions

Flor, Jan-Frederik; Wu, Yupeng; Beccarelli, Paolo

doi:10.1051/e3sconf/20172200048

Cited by 5 publications

(2 citation statements)

References 14 publications

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“…To apply pneumatic ETFE cushions we will use (kangaroo plugins) to generate the pneuma gas in the cushions according to the percentage volume, we choose the three geometric shapes of cushions and measure the daylighting metrics, choose the type of pneumatic system (F-Double layer injected gas) Figure 5 Environmental control mechanisms for multilayer ETFE constructions (we choose the injected gas system) Source: [8] A 50…”

Section: Annual Simulation-basecase Model-with Pneumatic Etfe Cushionsmentioning

confidence: 99%

Appling ETFE Material as Pneumatic Modular Cushions in Workspace's Fascade For Saving Energy

A. Elnawawy,

A. Mandour,

Farag

et al. 2023

Engineering Research Journal

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According to all current studies, global warming and climate change are causing disasters for humanity. As a technique to improve natural light effectiveness in deep office spaces, integrating daylighting systems within building skin has become a lot of attention. However, maintaining the stability and uniformity of daylight distribution throughout the day inside a building remains difficult. Consideration of energy efficiency in buildings and sustainability factors will result in large energy savings, environmental savings, and reduction of greenhouse gas emissions. ETFE foil has been increasingly employed as a building material for building envelopes over the past decades to generate green buildings. The research focuses on a new shading method for ETFE-membrane pneumatic modular cushions. The risk of overheating and glare effect in the summer is particularly considerable due to the high visual transmission of an ETFE foil (one layer transparent ETFE foil 92% @ 200m). As a result, a novel angle-selective shading system filters direct sunlight while allowing diffuse sunlight to enter the building. This solution, in particular, implies a reduction in cooling energy demands, which should improve thermal, daylighting and saving energy in the workspace. the researcher applies ETFE pneumatic modular cushions on the (DAR AL-Handasah) office building at smart-village as a case study to measure the effect of the cushions after and before in saving energy. A parametric design approach will facilitate a multistep comparison study to identify the proper design for the system.

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Section: Annual Simulation-basecase Model-with Pneumatic Etfe Cushionsmentioning

confidence: 99%

Appling ETFE Material as Pneumatic Modular Cushions in Workspace's Fascade For Saving Energy

A. Elnawawy,

A. Mandour,

Farag

et al. 2023

Engineering Research Journal

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“…Despite the environmental potential of this technical solution, there is limited publications focused on soft pneumatic systems. Soft pneumatic systems are mentioned, briefly, in several publications on adaptive systems [1],[2] but there are limited details on switchable fritted layers applied to inflated ETFE cushions for architectural applications [3]. Based on the literature review, it was found that switching transformation type was rarely developed compared with other transformation type.…”

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confidence: 99%

Switching transformation for soft pneumatic adaptive shading

Aditra¹,

Beccarelli²,

Jimenez-Bescos³

2021

10th Edition of the Conference on Textile Composites and Inflatable Structures

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Soft pneumatic systems are one of the alternatives for adaptive building envelopes. They use air under pressure to obtain a movement to change the level of permeability of the façade of a building exposed to solar radiation. Despite the environmental potential of this technical solution, there is limited publications focused on soft pneumatic systems. Soft pneumatic systems are mentioned, briefly, in several publications on adaptive systems [1],[2] but there are limited details on switchable fritted layers applied to inflated ETFE cushions for architectural applications [3]. Based on the literature review, it was found that switching transformation type was rarely developed compared with other transformation type. It was only found in the switchable fritted layers.

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Towards the Smart Filter

Zanelli

Mazzola

2022

Lightweight Energy

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Dynamic environmental control mechanisms for pneumatic foil constructions

Cited by 5 publications

References 14 publications

Appling ETFE Material as Pneumatic Modular Cushions in Workspace's Fascade For Saving Energy

Appling ETFE Material as Pneumatic Modular Cushions in Workspace's Fascade For Saving Energy

Switching transformation for soft pneumatic adaptive shading

Towards the Smart Filter

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