Showing 43 results for Architecture
Hadi Ebadi, Zahra Mohebi,
Volume 34, Issue 3 (7-2024)
Abstract
Medical plants gardens are places that primarily focused on the conservation, cultivation, research, and education of plant species that are used medicinally. These gardens have a long history. The creation of a tranquil and pleasant conditions for the visitors, as well as development of the local economy and raising citizen awareness, could be further objectives of the medicinal plants garden. Therefore, the architectural style of successful herbal botanical gardens needs to reflect a broad understanding of botany and encourage creative thinking in garden design and interpretation. It seeks a design that can maintain the virtuous cycle of the medicinal plants and at the same time maintain the spatial equilibrium of the dynamic development of urban landscapes, so as to make them have good ecological and urban functions. The aim of this study is to explore the design methods of plant landscaping in urban medical plants gardens under the concept of sustainability. We first reviewed the design of medicinal plants garden and its application to urban green space design. This research focuses on how to select principles that are adapted to the sustainability and how to promote biodiversity, and improve the quality of life of urban residents through eco-design approaches. Through the analysis of a number of domestic and international cases of medicinal plants gardens, we found that effective sustainable design is not only choosing the right areas but also includes the rational management of water resources, energy conservation, environmental impacts reduction, and creating a calm space and increasing the awareness of citizens. This study also points out socio-cultural challenges and strengths of these gardens. Finally, this paper carries out a specific analysis of the sustainable evaluation system for design of medicinal plants landscaping in urban green spaces and experimentally verifies that, compared with other styles, sustainable architecture style is better overall. This study aims to provide a practical reference and guidance for urban planners, garden designers, and environmentalists.
Parastoo Eshrati, Roza Vakilinezhad, Arezoo Ghahramani, Dorna Eshrati, Mohammad Kazem Namazi,
Volume 34, Issue 3 (7-2024)
Abstract
Various methods have been employed in vernacular architecture, to achieve energy efficiency in different regions worldwide, especially in facade designs. In Iran, most vernacular buildings are still in use without major modifications and renovations, even in harsh climatic conditions. This study uses mathematical analysis to conduct a quantitative approach toward principles used in the façade design of Bushehr's vernacular architecture. The research critically examined the physical characteristics of eight residential buildings, which were selected as case studies. These parameters included window-to-wall ratios, the surface area for each facade, and the size of different openings concerning height and weight. These physical characteristics of the selected houses were systematically extracted for both the interior and exterior facades, delineating eighteen criteria. The statistical analyses were done using IBM SPSS Statistics version 16.0. The results revealed fourteen linear models—six models related to the exterior facades, five models concerned with interior facades, and three models about the opening. Although the linear models are specific to the vernacular architecture of Bushehr, the research method and approach outlined in this study have the potential to contribute to a framework that can be used by other researchers to uncover underlying principles in vernacular facades elsewhere around the world.
Pedram Hessari, Mahdi Zandieh, Parisa Noor Mohammadi,
Volume 35, Issue 1 (1-2025)
Abstract
Thermal comfort conditions include a range of temperature and moisture in which the regulatory mechanism of body temperature is at the lowest level of activity. This paper evaluates the thermal human comfort of bioclimatic conditions according to human comfort with analysis software. In this research, a descriptive-analytical method was utilized. Most of the data were gathered through library studies and required climate information was extracted from the data according to the weather station. In conclusion, the fall and winter seasons and the month of April have cold conditions. Therefore, applying mechanical heating and high thermal mass is needed for most of the year. One-third of a year has human comfort conditions. In this regard, natural and mechanical cooling is required for three months of the year due to warm conditions.
