مدلیابی جریان هوای داخل حیاط مرکزی تحت تاثیر تغییرات عوامل کالبدی در خانههای سنتی اقلیم گرم و خشک یزد
محورهای موضوعی : معماری
امید رهایی
1
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امیرحسین شیردل
2
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میلاد امیدی
3
1 - استادیار، گروه معماری، دانشکده معماری و شهرسازی، دانشگاه تربیت دبیر شهید رجایی، تهران، ایران.
2 - پژوهشگر معماری، گروه معماری، دانشکده معماری و شهرسازی، دانشگاه تربیت دبیر شهید رجایی، تهران، ایران.
3 - دانشجوی دکتری معماری، گروه معماری، دانشکده معماری و شهرسازی، دانشگاه تربیت دبیر شهید رجایی، تهران، ایران.
کلید واژه: تهویه طبیعی, حیاط مرکزی, خانه لاری ها, خانه گلشن, دیزاین بیلدر,
چکیده مقاله :
در خانههای سنتی يزد، حياط مركزی نقش مهمی در تهويه طبيعی و جريان هوا دارد كه با بررسی اين جريان تحت تاثير ساختار كالبدی، معيارهايی برای طراحیهای جديد در اين اقليم استخراج گرديد. اين پژوهش به بررسی متغيرهای كالبدی حياطهای مركزی و الگوی گردش هوا در اين خانهها میپردازد. با استفاده از روشهای تركيبی، تجربی و شبيهسازی، خانههای دارای حياط مركزی يزد به عنوان نمونه موردی انتخاب شدند. پس از مشاهدات ميدانی، سرعت جريان هوا به عنوان متغير وابسته اندازهگيری شده، نرمافزار ديزاينبيلدر برای تحليل دادهها به كار رفته و مداخلاتی در متغير مستقل (طول حياط) انجام شد. نتايج نشان میدهد كه تغيير طول حياط بر الگوی گردش هوا و تهويه طبيعی تأثير دارد. در حياط خانه گلشن، افزايش طول از ١٧به ٢٠متر، سرعت هوا را ۲۱٪ افزايش میدهد و در خانه لاریها، افزايش طول از ٢٠به ٢٣متر، سرعت هوا را ۷/۵٪ افزايش میدهد.
Given the increasing consumption of fossil fuels and the architectural consequences of climate change resulting from it, it is essential to create solutions to reduce energy consumption through optimal and climate-friendly design of buildings and the exploitation of traditional foundations. Traditional Iranian architecture, which is known as one of the most successful examples in the world, has overcome environmental problems over the ages by using various methods and measures and has used precise and intelligent methods in coordinating the use of natural environments in the case of discovered hands. Distrust of natural ventilation. The central courtyard is an important element in traditional Iranian architecture that, while being simple and diverse in physical patterns, plays a role in the ventilation of surrounding spaces, considering the principle of compatibility with the environment. The aim of the research is to identify the air circulation pattern inside the courtyard and examine the status of natural ventilation during the study of physical changes in the central courtyards of traditional houses in Yazd. This article, by its nature, has a mixed method and includes experimental, simulation, and research strategies. The statistical population, houses with central courtyards in Yazd and houses in Lariha and Golshan, are selected as a sample. After field observations with experimental measurements, the airflow speed was recorded as a dependent variable. Then, the DesignBuilder software is used and simulated. After proving validity and reliability, interventions were made in the independent change (yard length). The results show that changing the length of the yard, assuming that the width is constant, affects the air circulation pattern of the central courtyard and natural ventilation of nature. In the courtyard of the Golshan house, with an increase in length from 17 meters to 20 meters, the air speed increases by 21%, and in the case of an increase in length from 20 meters to 23 meters, the air speed increases by 7.5%. In other words, the longer the yard, the higher the wind speed, but it is not significant. The same increase will be noticeable in the yard, and it will be ventilated. On the other hand, reducing the length has a proportional effect on the airspeed. This means that with increasing length, the wind speed increases at a slower rate. Changing the length of the courtyard can be applied to improve the ventilation of the central courtyard more easily than other factors, so these changes will be among the changes that are effective in improving ventilation. In previous studies, architectural elements and physical changes have been investigated in natural research on ventilation, but the physical changes of the central courtyard in traditional architecture, especially the height and length of the courtyard, require further investigation and analysis. The results of this research can help develop climate design patterns and create the possibility of using these patterns in contemporary architecture, so that by combining traditional and modern structures, it can be designed in an environmentally friendly and energy-efficient way