Cellular Landscapes
Global climate change has been a point of concern over the past century. Some of its major consequences, which are already present, include melting of glaciers, increasing sea water level, temperature rise and excessive acidity of sea water. The natural fluctuations harm the ecology and the biologic...
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ndltd-UPSALLA1-oai-DiVA.org-kth-2296562018-06-26T06:09:46ZCellular LandscapesengPetrova, SiyanaKTH, Arkitektur2018landscapescellularcell structuresinflatable structuresclimate changeglobal warmingsea level riseArchitectureArkitekturGlobal climate change has been a point of concern over the past century. Some of its major consequences, which are already present, include melting of glaciers, increasing sea water level, temperature rise and excessive acidity of sea water. The natural fluctuations harm the ecology and the biological species will face increased extinction risk. The raise of the water level will cause sinking and gradually vanishing of the land’s surface as a natural resource and place for habitation. It has been estimated that if Greenland ice sheet melts completely, the water would be enough to cover the land with up to 6 meters. The project investigates the consequences of the rising sea levels due to the climate change and what impact this will have on the topography and the natural landscape. It proposes a utopian vision for a large scale strategy for agriculture which does not rely on the use of land. The structure comprises of inflatable spherical modules, which float on the water surface. It is a dynamic and expandable system, with minimal environmental footprint, designed for low-lying areas vulnerable to flooding and land shortage. The more the land surface is vanishing due to the increasing sea levels, the more the structure will stretch to compensate for the loss of farmland. Student thesisinfo:eu-repo/semantics/bachelorThesistexthttp://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-229656application/pdfinfo:eu-repo/semantics/openAccess |
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Others
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landscapes cellular cell structures inflatable structures climate change global warming sea level rise Architecture Arkitektur |
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landscapes cellular cell structures inflatable structures climate change global warming sea level rise Architecture Arkitektur Petrova, Siyana Cellular Landscapes |
description |
Global climate change has been a point of concern over the past century. Some of its major consequences, which are already present, include melting of glaciers, increasing sea water level, temperature rise and excessive acidity of sea water. The natural fluctuations harm the ecology and the biological species will face increased extinction risk. The raise of the water level will cause sinking and gradually vanishing of the land’s surface as a natural resource and place for habitation. It has been estimated that if Greenland ice sheet melts completely, the water would be enough to cover the land with up to 6 meters. The project investigates the consequences of the rising sea levels due to the climate change and what impact this will have on the topography and the natural landscape. It proposes a utopian vision for a large scale strategy for agriculture which does not rely on the use of land. The structure comprises of inflatable spherical modules, which float on the water surface. It is a dynamic and expandable system, with minimal environmental footprint, designed for low-lying areas vulnerable to flooding and land shortage. The more the land surface is vanishing due to the increasing sea levels, the more the structure will stretch to compensate for the loss of farmland. |
author |
Petrova, Siyana |
author_facet |
Petrova, Siyana |
author_sort |
Petrova, Siyana |
title |
Cellular Landscapes |
title_short |
Cellular Landscapes |
title_full |
Cellular Landscapes |
title_fullStr |
Cellular Landscapes |
title_full_unstemmed |
Cellular Landscapes |
title_sort |
cellular landscapes |
publisher |
KTH, Arkitektur |
publishDate |
2018 |
url |
http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-229656 |
work_keys_str_mv |
AT petrovasiyana cellularlandscapes |
_version_ |
1718707736731975680 |