Double Face 2.0: A lightweight translucent adaptable Trombe wall

Double Face 2.0: A lightweight translucent adaptable Trombe wall

Double Face 2.0 is a novel solar wall, joining a strong design identity and high technical performances. In response to the need for energy saving, new high-performance building elements are shape-optimised for passive climate design and to increase user engagement. Given a design concept, computat...

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Bibliographic Details
Main Authors: Martin Tenpierik, Michela Turrin, Yvonne Wattez, Tudor Cosmatu, Stavroula Tsafou
Format: Article
Language:English
Published: TU Delft Open 2018-04-01
Series:Spool
Subjects:
trombe wall
double face
3d printing
Online Access:https://ojs-libaccp.tudelft.nl/index.php/spool/article/view/2090
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spelling doaj-e4d22a9728c240f180b5e5395774d69c2021-02-09T12:08:43ZengTU Delft OpenSpool 2215-08972215-09002018-04-0152-10.7480/spool.2018.2.2090Double Face 2.0: A lightweight translucent adaptable Trombe wallMartin Tenpierik0Michela Turrin1Yvonne Wattez2Tudor Cosmatu3Stavroula Tsafou4TU Delft, Architecture and the Built EnvironmentTU Delft, Architecture and the Built EnvironmentTU Delft, Architecture and the Built EnvironmentTU Delft, Architecture and the Built EnvironmentTU Delft, Architecture and the Built Environment Double Face 2.0 is a novel solar wall, joining a strong design identity and high technical performances. In response to the need for energy saving, new high-performance building elements are shape-optimised for passive climate design and to increase user engagement. Given a design concept, computational approaches help to optimise and to customise high-performance building elements for any environment. Double Face 2.0 has been developed by research through design involving designing, 3D modelling, robotic FDM printing, prototyping, experimenting, simulating, and simulation-based optimising. An adjustable, lightweight, translucent Trombe wall has been developed, using an insulator (aerogel) and heat storage (phase change material) encapsulated in optimised and customizable shapes. In winter, it captures, stores, and re-radiates heat from the sun (heating); in summer, it captures internal heat (cooling). https://ojs-libaccp.tudelft.nl/index.php/spool/article/view/2090trombe walldouble face3d printing
collection DOAJ
language English
format Article
sources DOAJ
author Martin Tenpierik
Michela Turrin
Yvonne Wattez
Tudor Cosmatu
Stavroula Tsafou
spellingShingle Martin Tenpierik
Michela Turrin
Yvonne Wattez
Tudor Cosmatu
Stavroula Tsafou
Double Face 2.0: A lightweight translucent adaptable Trombe wall
Spool
trombe wall
double face
3d printing
author_facet Martin Tenpierik
Michela Turrin
Yvonne Wattez
Tudor Cosmatu
Stavroula Tsafou
author_sort Martin Tenpierik
title Double Face 2.0: A lightweight translucent adaptable Trombe wall
title_short Double Face 2.0: A lightweight translucent adaptable Trombe wall
title_full Double Face 2.0: A lightweight translucent adaptable Trombe wall
title_fullStr Double Face 2.0: A lightweight translucent adaptable Trombe wall
title_full_unstemmed Double Face 2.0: A lightweight translucent adaptable Trombe wall
title_sort double face 2.0: a lightweight translucent adaptable trombe wall
publisher TU Delft Open
series Spool
issn 2215-0897
2215-0900
publishDate 2018-04-01
description Double Face 2.0 is a novel solar wall, joining a strong design identity and high technical performances. In response to the need for energy saving, new high-performance building elements are shape-optimised for passive climate design and to increase user engagement. Given a design concept, computational approaches help to optimise and to customise high-performance building elements for any environment. Double Face 2.0 has been developed by research through design involving designing, 3D modelling, robotic FDM printing, prototyping, experimenting, simulating, and simulation-based optimising. An adjustable, lightweight, translucent Trombe wall has been developed, using an insulator (aerogel) and heat storage (phase change material) encapsulated in optimised and customizable shapes. In winter, it captures, stores, and re-radiates heat from the sun (heating); in summer, it captures internal heat (cooling).
topic trombe wall
double face
3d printing
url https://ojs-libaccp.tudelft.nl/index.php/spool/article/view/2090
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AT yvonnewattez doubleface20alightweighttranslucentadaptabletrombewall
AT tudorcosmatu doubleface20alightweighttranslucentadaptabletrombewall
AT stavroulatsafou doubleface20alightweighttranslucentadaptabletrombewall
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