Pariz Amiri Ade, Saeed Tizghalam Zenozi, Mehrdad Javidi Nejad,
Volume 22, Issue 65 (6-2022)
Abstract
this study is designed to investigate the impact of micro climatic factors on optimizing energy consumption in Tehran urban buildings. The present study is of applied purpose and analytical method. Libraries and documents were used to collect the required data. Design Builder software was used to achieve the purpose of the research. The information given to the software is the thickness of the walls: exterior 20 cm - internal 15 cm, south windows (double shell balcony with 40% glass), northern windows 30%, brick exterior walls with natural ventilation were used. The results of this study showed that the orientation of the building on the site due to Tehran climate and the results obtained from Ecotect software was rotated about 25 degrees to the southwest to prevent direct sunlight from the east and west. And reduce the heat loads on the building. The volume of the building was designed in a stepped fashion, and while it could aesthetically enhance its strength, it could reduce the wind load on the upper floors. Green roofs were also designed on the exposed roofs, and according to the results of the analysis, the green roof can be very effective in reducing heating and cooling loads. The eastern and western fronts were also considered to be non-popping because of the results obtained in Design Builder software for daylight, which may result in dazzling workspaces such as kitchens sometimes day in the year.
Pariz Amiri Ade, Saeed Tizghalam Zenozi, Mehrdad Javidi Nejad,
Volume 23, Issue 69 (6-2023)
Abstract
Before the modern era, cities were built on a scale that did not change the environmental balance significantly. With the expansion of population and the expansion of cities and the conversion of settlements into big cities and metropolises, new conditions have emerged which show that cities today make their own climates. The new climates created in these areas are completely different from their predecessors. In this study, we try to use urban and architectural solutions in the Saadat Abad area of Tehran to reduce energy consumption. Urban and architectural variables including street and sidewalk width, green space and trees, materials, dimensions and directions for openings and energy entry paths, roof, wall width, porch, passive heating control (canopies, curtains and systems) Pore controls). So first, we examined the climate and climate of Tehran and Saadat Abad. Then, model the current status of Saadat Abad using simulated software to evaluate ambient and building temperature. The results of the study showed that improvement of outdoor thermal conditions and bio-closure of residential buildings. Reduction of direct and indirect thermal energy loss through exterior shell of buildings. Upgrading of the exterior shell climatic design knowledge of the building on the southern flank of central Alborz mountain range of Tehran.