Bahamestan Design With Adaptive Facade Approach in order to Reduce Energy Wasting

Asvadi, Farimah (2017) Bahamestan Design With Adaptive Facade Approach in order to Reduce Energy Wasting. Masters thesis, University of Mohaghegh Ardabili.

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Abstract

Since the structural crust is the boundary between the inside and outside of the building, it has an effective role in reducing energy consumption. The topics currently being discussed in the development of high-tech related technologies include: energy, user comfort, innovation and creativity, adaptation to existing status and ... involves searching for a new solution to the design of the facade. Demonstrators are one of the best options for managing interactions between the interior and exterior of the buildings, because they can be adapted to the climatic conditions and, as a result, have a positive effect on the comfort of the inhabitants and energy consumption. Checking whether the profile building could be part of power adaptation in reducing energy waste and designing a contract evaluation? This is a question that the research is seeking to answer. The method of research in this thesis is based on the principles of scientific research and simulation. Regarding the topic based on library and field studies, the collection of documents and resources together, articles and books related to the issue of adaptability and climatic and meteorological data, and methods and materials of construction, the recognition of existing factors has been addressed. Then, based on these studies, a comparative model with adaptability is designed according to the specifications and criteria of the area and using Energy Builder's simulation software, it simulates the energy consumption of this building and is an effective factor in reducing total energy consumption, including adaptation Validity has been evaluated. Simulation results indicate a 16% reduction in energy consumption in an ancient building, designed to meet the missing parameters of the chicken results. In the following, an optimal design model is proposed to reduce energy waste while at the same time having the identity and impression of the Iranian architecture materials in cooperation with the environmental conditions and reducing the amount of energy lost in renewable energy.

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