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Harvard
Modin, H. (2014) Adaptive building envelopes. Göteborg : Chalmers University of Technology (Examensarbete - Institutionen för bygg- och miljöteknik, Chalmers tekniska högskola, nr: 2014:147).
BibTeX
@mastersthesis{
Modin2014,
author={Modin, Hanna},
title={Adaptive building envelopes},
abstract={ABSTRACT
Striving for a more sustainable society improving the performance and reducing the
energy consumption of buildings are important steps. Historically, buildings where
designed based on the pre-conditions given by the surrounding environment and
together with the available natural resources, creating comfortable spaces in relation
to the climate. A long with technical development buildings have advanced into being
less specified for a specific site and more and more dependent on technical systems to
maintain interior comfort. In this thesis adaptive envelopes are studied, how they
work, which materials that can be used for such systems and how they can improve
the performance of the building. Adaptive envelopes, which can be divided into
macro, micro or combined systems, intend to improve the comfort and energy
performance of a building through using the energy available in the surrounding as a
trigger for a change or alteration in the envelope configuration to work more
efficiently under those specific circumstances. This can be done through an energy
input that is controlled by a changed precondition and alters a mechanically controlled
system or by the means of smart materials that react to changes depending on the
material properties. Smart material systems are reliable and robust in the sense that
they always react the same way and that they require less parts. But the mechanical
systems have the advantage of being possible to control and to over-rule based on the
desire of the occupants.
Results from the literature study shows that there are possibilities of reducing energy
use through implementation of adaptive envelope solutions but that it still need to be
further developed in order to be easily adopted to regular buildings. But as simulation
tools are becoming better and better and more available adaptive envelopes is a viable
solution for maintaining interior comfort without consuming large amounts of energy.},
publisher={Institutionen för bygg- och miljöteknik, Byggnadsteknologi, Chalmers tekniska högskola},
place={Göteborg},
year={2014},
series={Examensarbete - Institutionen för bygg- och miljöteknik, Chalmers tekniska högskola, no: 2014:147},
keywords={Adaptive envelopes, adaptive architecture, smart materials},
}
RefWorks
RT Generic
SR Electronic
ID 214574
A1 Modin, Hanna
T1 Adaptive building envelopes
T2 Adaptiva klimatskal
YR 2014
AB ABSTRACT
Striving for a more sustainable society improving the performance and reducing the
energy consumption of buildings are important steps. Historically, buildings where
designed based on the pre-conditions given by the surrounding environment and
together with the available natural resources, creating comfortable spaces in relation
to the climate. A long with technical development buildings have advanced into being
less specified for a specific site and more and more dependent on technical systems to
maintain interior comfort. In this thesis adaptive envelopes are studied, how they
work, which materials that can be used for such systems and how they can improve
the performance of the building. Adaptive envelopes, which can be divided into
macro, micro or combined systems, intend to improve the comfort and energy
performance of a building through using the energy available in the surrounding as a
trigger for a change or alteration in the envelope configuration to work more
efficiently under those specific circumstances. This can be done through an energy
input that is controlled by a changed precondition and alters a mechanically controlled
system or by the means of smart materials that react to changes depending on the
material properties. Smart material systems are reliable and robust in the sense that
they always react the same way and that they require less parts. But the mechanical
systems have the advantage of being possible to control and to over-rule based on the
desire of the occupants.
Results from the literature study shows that there are possibilities of reducing energy
use through implementation of adaptive envelope solutions but that it still need to be
further developed in order to be easily adopted to regular buildings. But as simulation
tools are becoming better and better and more available adaptive envelopes is a viable
solution for maintaining interior comfort without consuming large amounts of energy.
PB Institutionen för bygg- och miljöteknik, Byggnadsteknologi, Chalmers tekniska högskola,
T3 Examensarbete - Institutionen för bygg- och miljöteknik, Chalmers tekniska högskola, no: 2014:147
LA eng
LK http://publications.lib.chalmers.se/records/fulltext/214574/214574.pdf
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