Principles of space planning solutions applicable to low-rise buildings in Kesab, Syria

• Main Authors: Saoud Yara, Tatiana R. Zabalueva
• Format: Article
• Language: English
• Published: Moscow State University of Civil Engineering (MGSU) 2020-09-01
• Series: Stroitel’stvo: Nauka i Obrazovanie
• Subjects: terrain; slope orientation; overheating protection; bearing floor; low-energy buildings; cantilever; summer premises
• Online Access: http://www.nso-journal.ru/public/journals/1/issues/2020/03/2305-5502.2020.3.2.pdf

Introduction. Latakia Governorate, Syria, includes Kesab located in a mountainous area. Plains, that are good for construction purposes, are depleted; therefore, mountain slopes have to accommodate new construction projects. The analysis of space planning solutions, designated for single-family residential houses, was performed with regard for the terrain of Kesab. This analysis underlies the fundamental principles of the architectural solutions that take account of the following factors: the slope type/orientation, the layout of buildings in relation to the slope and access routes, the use of the “bearing floor” design system that reduces construction costs, the use of cantilever solutions for first floors, the availability of summer premises protected from overheating in the Kesab climate, the orientation of the slope towards cardinal points, and traditions of Arabic families. Principles of architectural design of single-family residential houses with account taken of the local terrain constitute the subject of this research. The objective is to develop recommendations designated for architectural solutions for single-family residential houses to be built in the mountainous environment of Kesab, to assure indoor comfort depending on the earth grade and terrain orientation towards cardinal points, and to reduce construction costs. Materials and methods. The research is based on the analysis of the Kesab terrain, the analysis of potential construction work to be performed on the slopes having different orientations, the use of the “bearing floor” structural system, the analysis of effective Syrian and Russian regulations and data sources. Results. As a result of research into a single-family residential house built with regard for the Kesab terrain in Syria, the co-authors developed design principles applicable to single-family residential houses in the areas featuring rough terrain. Conclusions. The recommendations are designated for low-rise single-family houses that have different orientations towards cardinal points in the areas that have varied earth grades like Kesab located in the mountain valley.