Considering the rapid depletion of natural resources because of increasing comfort conditions in living spaces and increasing expectations from buildings due to developing technology and climate change, today it has become inevitable to develop effective policies to meet the energy demand of buildings and to create renewable and sustainable systems. In this context, new generation building design in architecture requires regulations that reduce energy consumption, protect natural resources while considering climatic conditions and carbon emissions. In this study, buildings with net-positive energy were evaluated with the comparative analysis method and inferences were made for new generation building designs. In the first step, the properties of buildings with net-positive energy are discussed. Then, it is aimed to evaluate the buildings in which the design principles determined for a positive energy building are applied according to these features. In this context, ten buildings, which can produce more energy than the energy they consume and whose designs were made by considering the energy criteria developed according to different climatic regions, were examined. It is aimed the outcomes of this study to raise awareness against building design concepts with net-positive energy and contribute to raise the number of buildings designed with energy concepts.
With the emergence of Industry 4.0, the use of robotic technologies is among today’s trends. The innovations that this revolution brought to robotic construction in the fields of communication, control, and software also improve flying robot technology. In the study, the place and importance of drone technology, which is one of the flying robot technologies at the intersection of Industry 4.0 and AEC (architecture, engineering, and construction) industry, in architecture is defined. The research aims to analyze the digital fabrication studies with drone technology in the field of architecture by reviewing the literature and to reveal how these applications are followed. Studies with drones, which are the technology of the future, are presented by creating a timeline. Drone studies in the building and construction industry were classified according to drone type, gripper and software features and comparative analyses were made. As a result, it is desired to show the development of drone technology in architecture, examine how it is used, and create a reference study in the light of existing examples for its use in future applications.
The housing typologies that meet shelter and other basic needs are diverse, and bungalows are one of them. These buildings are generally single-story and mostly use wooden building materials. This paper introduces a new construction technique using steel, which is more durable than typical wooden bungalow houses. This design aimed to create a new building stock based on the logic of mass production, where modular steel bars can be prefabricated and transported to the construction site. An architectural design with a steel construction instead of a wooden one and a hexagonal plan instead of a rectangular one was developed. Structures designed with wooden and steel materials were compared using the structural analysis method. Structural analysis of the construction designs using wood and S235 steel grade was performed with the SAP2000 software. The structures were evaluated according to displacement, modal analysis periods, and self-weight, and their static suitability was tested. This new architectural design was developed because steel can maintain its strength for a long time compared to wood and has a higher modulus of elasticity. The results showed that wood and steel materials exhibit similar behavior under the same cross-sections, but the steel structure has come to the forefront as it is lighter than wood in terms of self-weight.
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