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Wind- Chimney (Integrating the Principles of a Wind-Catcher and a Solar-Chimney to Provide Natural Ventilation)Tavakolinia, Fereshteh 01 December 2011 (has links)
WIND-CHIMNEY
Integrating the principles of a wind-catcher and a solar chimney to provide natural ventilation
Fereshteh Tavakolinia
Abstract
This paper suggests using a wind-catcher integrated with a solar-chimney in a single story building so that the resident might benefit from natural ventilation, a passive cooling system, and heating strategies; it would also help to decrease energy use, CO2 emissions, and pollution. This system is able to remove undesirable interior heat pollution from a building and provide thermal comfort for the occupant.The present study introduces the use of a solar-chimney with an underground air channel combined with a wind-catcher, all as part of one device. Both the wind-catcher and solar chimney concepts used for improving a room’s natural ventilation are individually and analytically studied. This paper shows that the solar-chimney can be completely used to control and improve the underground cooling system during the day without any electricity. With a proper design, the solar-chimney can provide a thermally comfortable indoor environment for many hours during hot summers. The end product of this thesis research is a natural ventilation system and techniques that improve air quality and thermal comfort levels in a single story building. The proposed wind-chimney could eventually be designed for use in commercial, retail, and multi-story buildings.
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Low-energy Passive Solar Residence in Austin, TexasSau, Arunabha 2010 August 1900 (has links)
From the various studies, it can be concluded that the excessive summer heating and the humidity are one of the major problems of the hot, humid climatic region. The literature review for this study shows that natural ventilation alone cannot meet year long optimum indoor comfort in buildings. This research, through a design exercise, intends to verify whether a naturally ventilated house, in hot humid region of Austin, TX, can enhance its passive cooling potential through double‐walled wind catcher and solar chimney.
In this research, a passive solar residence has been designed. Two designs have been explored on the chosen site: a basecase design without the wind catcher and solar chimney and another design with wind catcher and solar chimney. In the designcase, the placement of the wind catcher and the solar chimney has been designed so that a thermal siphon of airflow inside the building can be created. The design might show that there will be a natural airflow during the time of the year when natural wind does not flow. Moreover, the double walled wind catcher will resist the cool winter wind due to its shape and orientation. In the design, the placement of the wind catcher and the solar chimney has been done so that a thermal siphon inside the building can be created. Therefore, inside the home, there will be a natural airflow during the time of the year when natural wind does not flow. The double walled wind catcher has been designed and placed according to the orientation of the building in order to achieve the optimum wind flow throughout the year. The solar chimney has been placed in a certain part of the building where it can get maximum solar exposure.
By comparing two cases, it can be clearly said that there will some kind of changed indoor comfort level. Since the potential of the design has been judged through perception, a computational fluid dynamics simulation analysis for a year is to be done.
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Towards an old charmMahdaly, Ahdab Hashim 06 July 2011 (has links)
When we build unconsciously and we build as a habit, only then we lose the essence of architecture / Master of Architecture
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Natural air conditioning, traditions and trends : high performance of sustainable indoor ventilation in a hot and dry climateAmiri-Kordestani, Mohammad 03 1900 (has links)
De nos jours, l'utilisation accrue de combustibles à base de fossiles et l'électricité met en péril l'environnement naturel à cause des niveaux élevés de pollution. Il est donc plausible de prévoir des économies d'énergie significatives grâce à la climatisation dite «naturelle»». En accord avec les objectifs acceptés à l'échelle internationale d'une architecture «verte» et durable, l'utilisation de cours intérieures associées aux capteurs de vent, aux murs-Trombe et à d'autres systèmes de climatisation naturelle (aussi bien traditionnels que nouveaux), paraît prometteuse. Ce mémoire propose une analyse de nouvelles approches à la climatisation naturelle et à la production d'air frais avec une consommation minimale d'énergie, eu égard aux traditions et aux tendances, en particulier dans les zones climatiques chaudes et sèches comme l'Iran. Dans ce contexte, regarder l'architecture de l'Islam et la discipline du Qur'an paraissent offrir un guide pour comprendre l'approche musulmane aux processus de décision en design. Nous regardons donc les traditions et les tendances en ce qui concerne la climatisation naturelle à travers l'élément le plus important du contexte islamique, à savoir le Qur'an.
C'est pourquoi, à l'intérieur du thème de la tradition, nous avons pris en compte quelques considérations concernant l'influence de l'Islam, et en particulier le respect de la nature associé à un équilibre entre l'harmonie et l'individualité. Ce sont autant de facteurs qui influencent la prise de décisions visant à résoudre des problèmes scientifiques majeurs selon la philosophie et les méthodes islamiques ; ils nous permettent de faire quelques recommandations.
La description des principes sous-jacents aux capteurs à vent et des antécédents trouvés dans la nature tels que les colonies de termites, est présentée également.
Sous la rubrique tendances, nous avons introduit l'utilisation de matériaux et de principes de design nouveaux. Regarder simultanément ces matériaux nouveaux et l'analogie des colonies de termites suggère de bonnes approches à la conception d'abris pour les victimes de tremblements de terre dans les régions sisimques. Bam, une ville iranienne, peut être considérée comme un exemple spécifique illustrant où les principes exposés dans ce mémoire peuvent s'appliquer le plus adéquatement. / Nowadays due to the increased use of fossil fuels and electricity, the natural environment is in danger because of high levels of pollution. Hence by creating natural air conditioning, we may save a significant amount of energy. In line with the global objective of sustainable and green architecture, the use of patios to save energy and natural ventilation coupled with wind- catchers, Trombe walls and other natural air conditioning systems (both traditional and emerging architectural elements) seems pertinent. This thesis analyzes designs to produce natural air conditioning and cooler air with the minimum amount of energy, with regard to the tradition and the trends, especially in hot and dry climate regions like Iran. In this context, looking to Islamic Architecture and the Qur’anic discipline of thought are considered as a guide to the way Muslims approach the design-decision making process. We therefore look to the traditions and the trends of natural air conditioning through the most important element of the Islamic context (the Qur’an).
So, within the theme of "tradition", we have introduced some thinking about the influence of Islam and particularly the respect of nature while providing for a balance between harmony and individuality, such as proposing one special kind of decision-making process to solve the main scientific problems according to the Islamic philosophy and the accompanying methods, suggesting some recommendations.
Descriptions of (a) the principles of wind-catchers and (b) antecedents in nature such as the termite hills are pursued as well.
Under "trends", we have introduced the use of novel materials and novel design principles. Looking at the new materials and simultaneously at the analogy of the termite mounds suggests one good sample of design of a shelter for people in earthquake-prone regions. Bam, an Iranian city, can be considered to be a specific context in which the general considerations expressed in this thesis can be most usefully applied.
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