Morphological Decision Making for Amphibious House Platform as a Sustainable Flood Protection Strategy

The concept of amphibious houses has a broad range of application as a sustainable and multi-reason solution for flood protection. Based on the current materials and methods for implementation of the amphibious house, an optimal morphology is required to be achieved. Different morphologies for the b...

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Veröffentlicht in:	National Academy of Sciences, India. Proceedings. Section A. Physical Sciences India. Proceedings. Section A. Physical Sciences, 2018-06, Vol.88 (2), p.285-295
Hauptverfasser:	Nekooie, Mohammad Ali, Taherkhani, Roohollah, Hosnavi, Reza, Nouri, Mahdi
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied and Technical Physics Atomic Concrete blocks Decision making Flood control Flood management Houses Lightweight concretes Molecular Morphology Optical and Plasma Physics Physics Physics and Astronomy Polystyrene resins Pontoons Quantum Physics Research Article Sustainable development
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container_title	National Academy of Sciences, India. Proceedings. Section A. Physical Sciences
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creator	Nekooie, Mohammad Ali Taherkhani, Roohollah Hosnavi, Reza Nouri, Mahdi
description	The concept of amphibious houses has a broad range of application as a sustainable and multi-reason solution for flood protection. Based on the current materials and methods for implementation of the amphibious house, an optimal morphology is required to be achieved. Different morphologies for the buoyant component should be evaluated under four classifications towards sustainable development. This study evaluated the best design and material for floating part in amphibious houses based on technological, environmental, economic, and social classifications. This study applied the multi attribute decision making model using relevant criteria for applying amphibious house as a flood protection strategy in floodplain areas in South-East Asia. The bucket system (pontoons) which is made by lightweight concrete and using expanded polystyrene block inside is identified as an applicable morphology for buoyant part in amphibious houses.
doi_str_mv	10.1007/s40010-017-0419-9
format	Article
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subjects	Applied and Technical Physics Atomic Concrete blocks Decision making Flood control Flood management Houses Lightweight concretes Molecular Morphology Optical and Plasma Physics Physics Physics and Astronomy Polystyrene resins Pontoons Quantum Physics Research Article Sustainable development
title	Morphological Decision Making for Amphibious House Platform as a Sustainable Flood Protection Strategy
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