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Assessment of the energy savings and CO2 emissions reduction of glass structures through alternative demolition scenarios. / Tuna Kayılı, Merve; Veer, Fred; Çelebi, Gülser.

In: Glass Structures and Engineering, Vol. 1, No. 2, 2016, p. 435–449.

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Tuna Kayılı, Merve ; Veer, Fred ; Çelebi, Gülser. / Assessment of the energy savings and CO2 emissions reduction of glass structures through alternative demolition scenarios. In: Glass Structures and Engineering. 2016 ; Vol. 1, No. 2. pp. 435–449.

BibTeX

@article{2fbf9108f0844296b20b13901f3dbd44,
title = "Assessment of the energy savings and CO2 emissions reduction of glass structures through alternative demolition scenarios",
abstract = "Glass is a material that has been significantly increasing its role in architecture in recent decades. Although glass is a material that can survive long, as can be seen from the archaeological pieces in many museums, in practice the glass structures that built nowadays have a finite life time. A notorious case is the original New York Apple Cube, which was removed and replaced within several years of original completion. Whatever the eventual lifetime of the structure, there will be a point where the structure needs to be demolished. This introduces critical questions about the relation between ecological impact and the demolition methods and procedure. This paper looks at the eco-impact of different end of life scenarios of glass structures, using the Haarlem glass cube as a well-documented example to determine the differences between various ends of life scenarios.",
keywords = "Glass construction, Laminated glass, End of life, Demolition method , Separation/collection method",
author = "{Tuna Kayılı}, Merve and Fred Veer and G{\"u}lser {\cC}elebi",
year = "2016",
doi = "10.1007/s40940-016-0024-3",
language = "English",
volume = "1",
pages = "435–449",
journal = "Glass Structures and Engineering",
issn = "2363-5142",
publisher = "Springer International Publishing AG",
number = "2",

}

RIS

TY - JOUR

T1 - Assessment of the energy savings and CO2 emissions reduction of glass structures through alternative demolition scenarios

AU - Tuna Kayılı, Merve

AU - Veer, Fred

AU - Çelebi, Gülser

PY - 2016

Y1 - 2016

N2 - Glass is a material that has been significantly increasing its role in architecture in recent decades. Although glass is a material that can survive long, as can be seen from the archaeological pieces in many museums, in practice the glass structures that built nowadays have a finite life time. A notorious case is the original New York Apple Cube, which was removed and replaced within several years of original completion. Whatever the eventual lifetime of the structure, there will be a point where the structure needs to be demolished. This introduces critical questions about the relation between ecological impact and the demolition methods and procedure. This paper looks at the eco-impact of different end of life scenarios of glass structures, using the Haarlem glass cube as a well-documented example to determine the differences between various ends of life scenarios.

AB - Glass is a material that has been significantly increasing its role in architecture in recent decades. Although glass is a material that can survive long, as can be seen from the archaeological pieces in many museums, in practice the glass structures that built nowadays have a finite life time. A notorious case is the original New York Apple Cube, which was removed and replaced within several years of original completion. Whatever the eventual lifetime of the structure, there will be a point where the structure needs to be demolished. This introduces critical questions about the relation between ecological impact and the demolition methods and procedure. This paper looks at the eco-impact of different end of life scenarios of glass structures, using the Haarlem glass cube as a well-documented example to determine the differences between various ends of life scenarios.

KW - Glass construction

KW - Laminated glass

KW - End of life

KW - Demolition method

KW - Separation/collection method

UR - http://resolver.tudelft.nl/uuid:2fbf9108-f084-4296-b20b-13901f3dbd44

U2 - 10.1007/s40940-016-0024-3

DO - 10.1007/s40940-016-0024-3

M3 - Article

VL - 1

SP - 435

EP - 449

JO - Glass Structures and Engineering

T2 - Glass Structures and Engineering

JF - Glass Structures and Engineering

SN - 2363-5142

IS - 2

ER -

ID: 31916448