Comprehensive Constructive Achievements of the Regulatory Seismic-Resistance, Energy-Efficiency, Thermal Comfort, and Sanitary Conditions in Low-Rise Residential Building Design

Boronbaev E. Alimova K. Holmatov K. Zhyrgalbaeva N. Abdrashitova N. Mukhanova K. Abdurasulova N.
Jan 2026 Horizon Research Publishing

Civil Engineering and Architecture
2026 #14 Issue 1 549 - 561 pp.

The multidisciplinary goal of the scientific research was achieved through the interdependent achievement of building design problems on its seismic-resistance, energy-efficiency, thermal comfort, and sanitary conditions. Practical issues in optimal design of low-rise buildings are solved by proposing joint structures of brick walls with monolithic reinforced concrete columns, tie beams, and foundations. Based on numerical investigations, the cross-sections of these elements are reduced, since the maximum displacements of the building frame’s upper points along the X and Y axes under seismic loads are lower than the regulatory limits. The presented isotherms and heat flow intensities on the cross sections of the structural joints made it possible to eliminate the negative effects of thermal bridges and mold growth by installing additional layers of thermal insulation on them. Based on the developed schedules, the optimal width of these additional layers of thermal insulation and the radius of rounding of the inner corner of the outer wall with cement-sand mortar are proposed. The authors comprehensive solutions enabled savings of 11.3% for concrete and 3.54% for steel reinforcement, as well as a reduction in annual heat consumption of 6.61–8.08% for the studied building, located in six representative cities in Kyrgyzstan and Tajikistan.

Buildings , Energy-Efficiency , Isotherms , Sanitary Conditions , Seismic-Resistance , Thermal Bridges , Thermal Comfort , Thermal Insulation

Text of the article Перейти на текст статьи

Department of Heat-Gas Supply and Ventilation, I. Razzakov Kyrgyz State Technical University, Kyrgyzstan
Department of Engineering Systems and Networks, K.I. Satbayev National Research Technical University, Kazakhstan
Khujand Polytechnic Institute of M. Osimi Tajik Technical University, Tajikistan
UNISON Group, Unison Public Foundation, Bishkek, 720011, Kyrgyzstan

Department of Heat-Gas Supply and Ventilation
Department of Engineering Systems and Networks
Khujand Polytechnic Institute of M. Osimi Tajik Technical University
UNISON Group

10 лет помогаем публиковать статьи Международный издатель

Книга Публикация научной статьи Волощук 2026 Book Publication of a scientific article 2026