Tursunkululy Timur
@auezov.edu.kz
Scopus Publications
- Analysis of the influence of the geometry of a ventilated facade subsystem on its stress–strain state and the coefficient of thermal nonuniformity
Nurlan Zhangabay, Marco Bonopera, Arukhan Oner, Murat Rakhimov, Timur Tursunkululy
Results in Engineering, 2026 - Experimental evaluation of the thermophysical performance of an adaptive composite wall system under dynamic climatic conditions
N.Zh. Zhangabay, A.K. Oner, M.N.M. Ibrahim, U.B. Ibraimova, A.S. Kolesnikov, et al.
Construction Materials and Products, 2026
In the sharply continental and hot climate of Kazakhstan, improving building energy efficiency requires adaptive composite envelope systems capable of dynamically responding to external thermal loads. This study provides experimental validation of a newly developed adaptive energy-efficient wall assembly with alternating air channels and a radiant barrier, previously proposed and numerically investigated by the authors. The experiments were conducted in a climatic chamber using a full-scale 3×3 m wall fragment under two operating modes: cold conditions (–14.3 °C) and hot conditions (+26.4 °C with exterior cladding heated up to +46 °C). Interlayer temperatures, heat flux density, and thermal bridging in the bracket zone were measured, and both calculated and effective thermal transmittance resistance values were determined in accordance with regulatory requirements. The experimental results demonstrated strong agreement with numerical simulations: deviations in interlayer temperatures did not exceed 3-7%, while heat flux density differed by 6-9%. The wall configuration Scheme 3/50/75/50 exhibited pronounced adaptive behavior; switching to the ventilation mode during the hot period reduced heat flux density by up to 14% and decreased the temperature gradient within the air channel by an average of 3-5 °C. Under cold conditions, the system increased thermal resistance by up to 18% compared with assemblies without a reflective layer. The obtained effective thermal resistance values comply with the building standards of the Republic of Kazakhstan and confirm the energy efficiency of the wall system for operation in extreme climates. Overall, the experimental validation confirms the reliability of the model and the high practical applicability of the adaptive wall technology. The findings provide a scientifically grounded basis for the development of façade design standards optimized for Central Asian climates and demonstrate the potential for implementation in both new construction and retrofit projects. - Assessment and Numerical Modeling of the Thermophysical Efficiency of Newly Developed Adaptive Building Envelopes Under Variable Climatic Impacts
Nurlan Zhangabay, Arukhan Oner, Ulzhan Ibraimova, Mohamad Nasir Mohamad Ibrahim, Timur Tursunkululy, et al.
Buildings, 2026
The relevance of this study is driven by the increasing requirements for the energy efficiency and indoor comfort of residential and public buildings, particularly in regions with extreme climatic conditions characterized by substantial daily and seasonal temperature fluctuations. Effective management of heat transfer through building envelopes has become a key factor in reducing energy consumption and improving indoor comfort. This paper presents the results of an experimental–numerical investigation of the thermal behavior of an adaptive exterior wall system with a controllable air cavity. Steady-state and transient simulations were performed for three envelope configurations: a baseline design, a design with vertical air channels, and an adaptive configuration equipped with adjustable openings. Quantitative analysis showed that during the winter period, the adaptive configuration increases the interior surface temperature by 1.5–2.3 °C compared to the baseline design, resulting in a 12–18% reduction in the specific heat flux through the wall. In the summer period, the temperature of the exterior cladding decreases by 3–5 °C relative to the baseline, which reduces heat gains by 8–14% and lowers the cooling load. Additional analysis of temperature fields demonstrated that the presence of vertical air channels has a limited effect during winter: temperature differences at the surfaces do not exceed 1 °C. A similar pattern is observed in warm periods; however, due to controlled air circulation, the adaptive configuration provides an improved thermal regime. The results confirm the effectiveness of the adaptive wall system under the climatic conditions of southern Kazakhstan, characterized by high solar radiation and large diurnal temperature variations. The practical significance of the study lies in the potential application of adaptive façades to enhance the energy efficiency of buildings during both winter and summer seasons. - Full-Scale Experimental Investigation of the Influence of Solar Radiation on the Thermal Behavior of Ventilated Façade Envelope Systems Under Hot Climate Conditions
Nurlan Zhangabay, Aizhan Zhangabay, Akmaral Utelbayeva, Timur Tursunkululy, Rozana Zakaria, et al.
Buildings, 2026
The article presents the results of a comprehensive full-scale investigation of the influence of solar radiation on the thermal behavior of the exterior envelope systems of two residential buildings of different heights—a 9-storey building in Turkestan and a 25-storey building in Shymkent. The façade systems of both buildings consist of a multilayer enclosure with a ventilated air cavity, 100 mm wide in the 9-storey building and 50 mm wide in the 25-storey building. The objective of the study was to determine the diurnal and vertical dynamics of temperature fields, analyze the thermal inertia of the materials, and assess the effect of façade geometry on heat-transfer performance. Thermographic measurements were carried out during key periods of the day (7:00, 10:00, 13:00, and 17:00), which enabled coverage of the full solar-insolation cycle. The results showed that the maximum temperatures of the external cladding reached 48–52 °C for the 9-storey building and 53–58 °C for the 25-storey building, with a vertical temperature gradient of 3–7 °C. The temperature of the interior surface varied within 28–32 °C and 29–34 °C, respectively, reflecting the influence of both solar heating and the width of the ventilation cavity on heat transfer. It was found that reducing the air-gap width intensifies natural convection and decreases the thermal inertia of the system, resulting in sharper temperature fluctuations. The study demonstrates that current design standards insufficiently account for the vertical non-uniformity of solar exposure and the aerodynamic processes within the ventilation channel. The findings can be used in the design of energy-efficient façade systems, in the refinement of regulatory methodologies, and in the development of heat-transfer models for high-rise buildings under conditions of increased solar radiation. - DETERMINING THE EFFECT OF TRANSFORMABLE AIR DUCTS AND A HEAT-REFLECTING SCREEN INSIDE THEM ON THE THERMAL-HUMIDITY CONDITION OF THE CORNER ELEMENT CONSIDERING SIGNIFICANT SEASONAL TEMPERATURE GRADIENTS
Nurlan Zhangabay, Ulzhan Ibraimova, Timur Tursunkululy, Bolat Duissenbekov, Bagdaulet Urmashev, et al.
Eastern European Journal of Enterprise Technologies, 2026
This study investigates a corner element in a multi-story building with varying numbers of stories. The task addressed relates to the vulnerability of building corner elements to temperature fluctuations. The energy efficiency of corner elements in external wall structures of buildings with vertical air ducts and a heat-reflecting screen was numerically evaluated under conditions of significant seasonal temperature gradients and varying numbers of stories. The thermal and humidity conditions of corner zones in building envelopes, characterized by spatial heat transfer and increased thermal vulnerability, were analyzed. Numerical modeling was performed using the finite element method in the ANSYS programming environment, using coupled heat and moisture transfer calculations under various climatic scenarios. The influence of corner zone geometry and building height on temperature distribution and the risk of condensation in the outer envelope was analyzed. The study results showed that in winter, pronounced non-uniformity of the temperature field occurs in corner zones due to the thermal bridge effect. Moreover, the relative temperature reduction in the corner zone, compared to straight wall sections, ranges from 7% to 12%. During transitional and summer periods, temperature gradients are significantly reduced, and the influence of building height is insignificant. Analysis of the humidity regime revealed the possibility of short-term condensation without conditions for long-term moisture accumulation. The results could be used in the design of energy-efficient adaptive external wall structures for buildings in regions with pronounced seasonal temperature fluctuations - Analysis of the Impact of Residential Building Shape and Orientation on Energy Efficiency
Nurlan Zhangabay, Adham Giyasov, Arukhan Oner, Aizhan Zhangabay, Timur Tursunkululy, et al.
Buildings, 2025
The construction of residential buildings and structures is a complex process in which the economic component plays a key role. It is essential to maintain a balance between saving construction materials and the costs of additional engineering solutions while ensuring the functionality and comfort of the building’s operation. To achieve this goal, researchers initially analyze the impact of the climatic environment and spatial planning solutions—i.e., building shapes—that directly affect the building compactness ratio when evaluating the efficiency of the designed building. In this regard, the objective of this study was to analyze the shapes and orientations of buildings in the Republic of Kazakhstan across eight territorial units located in the I, III, and IV climatic zones between latitudes 42°18′ and 52°16′ N. The study identified the most favorable building orientations for each climatic zone: the meridional orientation is preferable for the I and III zones, while the latitudinal orientation is optimal for the IV zone. Four residential building shapes—square, rectangular, cylindrical, and triangular—were analyzed based on a floor area of 1000 m2 and a building volume of 3000 m3 during the coldest five-day period and the hottest month. According to the specific thermal characteristic values, it was found that a cylindrical residential building is 1.1, 1.37, and 1.27 times more efficient than square, rectangular, and triangular residential buildings, respectively. Additionally, the compactness ratio was determined for different residential building shapes and heights, ranging from 8 to 16 floors in increments of four floors. The results showed that under these conditions, the compactness ratio increases by an average of 1.3 times due to the increase in the area of external walls. However, if the initial condition is changed to account solely for the floor area, the compactness ratio decreases by up to 2.3 times. The conducted research shows that when solving the problem of the energy efficiency of a building, taking into account shapes and orientations, it is necessary to carry out a full assessment of the specified energy efficiency parameter depending on the expected results, which requires a comprehensive analysis to achieve energy-efficient buildings. At the same time, the results of this study will be used and will positively complement the results of a comprehensive study by the authors on the development of energy-efficient exterior enclosing structures, which, together with general solutions, will significantly affect the thermal balance of the building and complement the research conducted earlier. - Thermal Performance Evaluation of a Retrofitted Building with Adaptive Composite Energy-Saving Facade Systems
Nurlan Zhangabay, Arukhan Oner, Murat Rakhimov, Timur Tursunkululy, Uliya Abdikerova
Energies, 2025
A possible way to solve the problem of energy saving in construction is to introduce energy-efficient buildings at the design stage and, in particular, during retrofit. Therefore, the purpose of this study is to conduct a theoretical analysis of thermal resistance and energy loads on a building in cold climatic conditions. The study of these values was carried out in the ANSYS software package and the Maple computer algebra system, respectively. This study examines four types of structures: the existing facade of a building constructed in 1966, a traditional ventilated facade, and two designs featuring alternating insulation layers with enclosed air channels and with or without heat-reflecting screens in the insulation layer. The results of this study show that the new design incorporating heat-reflecting screens in the insulation layer is 1.15 times more energy-efficient in terms of thermal resistance than the proposed design without such screens. The effectiveness of the proposed new design with heat-reflecting screens in the insulation layer is also confirmed through an analysis of the thermal protection of the building, where the auxiliary indicators, specific characteristics, and complex values of energy efficiency and energy load of the building show greater efficiencies of 1.6, 1.03, and 1.05 times, respectively, compared to the other studied structures. The comprehensive research results presented in this study indicate that the use of energy-efficient wall structures for the retrofit of external enclosures can significantly improve the thermal performance of buildings. It was also determined that the use of such wall structures can significantly enhance the building’s overall energy efficiency rating. The findings of this study highlight that the proposed solutions can contribute to significant energy savings in buildings, while the newly developed structures can serve as valuable additions to the existing catalog of energy-efficient external wall designs. - A Study of Temperature and Humidity Conditions in a New Energy-Efficient Design of a Wall Structure with Air Gaps
Nurlan Zhangabay, Timur Tursunkululy, Akmaral Utelbayeva, Uliya Abdikerova, Murat Sultanov
Modelling, 2025
This manuscript presents a theoretical study of a newly developed energy-efficient external wall structure in comparison with a traditional ventilated facade. To conduct numerical studies based on mathematical models of the heat transfer of water vapor filtration through a multilayer filler structure with ventilated and non-ventilated air gaps, a calculation method was developed that additionally considers the presence of heat-reflecting screens and different variations in the geometric parameters of air gaps and thermal insulation layers. The study results demonstrated that the new energy-efficient multilayer wall structure was 6.1–7.2% more efficient in terms of heat transfer resistance than the traditional one, and due to the presence of heat-reflecting screens, the efficiency increased to 15.2–16.3% depending on the geometric parameters of the air and thermal insulation layers of the wall structure. In addition, in all the considered variants of the filler structure geometry (i.e., with closed and ventilated air gaps), there were water vapor condensation zones, but it was established that according to the value of the inadmissibility of moisture accumulation in multilayer wall structures, over the annual period of operation, the structures complied with the standard climatic conditions of Shymkent. The results of this study thus positively complement the existing catalog of energy-efficient wall structures, and the new wall structure can be used while considering the necessary geometric parameters of air and heat-insulating layers when designing buildings in the corresponding climatic conditions. - Energy-Efficient Outdoor Fencing with Air Layers: A Review of the Effect of Solar Radiation on the Exterior Fencing of Buildings Made of Composite Material
Nurlan Zhangabay, Aizhan Zhangabay, Akmaral Utelbayeva, Timur Tursunkululy, Murat Sultanov, et al.
Journal of Composites Science, 2025
In this study, the authors conducted a comprehensive review of the scientific and technical literature in the field of heat transfer in outdoor enclosures with an air layer of composite material, reviewing the effect of solar radiation on these areas. The review of the problem was carried out both at the national scale in the Republic of Kazakhstan and at the international level. It was found that an impressive number of scientists are involved in this topic, which is confirmed by the recent reviews, which analyzed more than 2700 relevant scientific and technical reports. The authors also reviewed the chronology of the development of hinged facade systems made of composite material on an international scale. Following the comprehensive review, a critical analysis was carried out on the most appropriate works, where a number of contradictions and discrepancies in the results were found. Taking into account these circumstances, the authors proposed to investigate the effects of climatic parameters considering barometric pressure. Using the regularity of the ideal gas equation, the dependences on the change in the volume of gas (air) when exposed to temperature loads and the influence of barometric pressure were determined. The results obtained will elucidate future research directions and can be taken into account in further studies of outdoor fences with an air layer considering solar radiation and territorial terrain. - Analysis of the influence of temperature loads on the stress-strain state of a pre-stressed cylindrical shell
N.Zh. Zhangabay, A.B. Moldagaliyev, S.N. Buganova, A.K. Bektursunova, T. Tursunkululy, et al.
Construction Materials and Products, 2025
The progressiveness of the idea of prestressing consists, on the one hand, in the possibility to regulate the stress state in accordance with the peculiarity of the structure operation, and on the other hand, in the expansion of the economically advantageous range of application of high- and high-strength steels. Such strengthening is also relevant for cylindrical shells, the throughput or storage volumes of which are directly proportional to the operating pressure. The most effective type of prestressing in this case is considered to be winding on the shell body at an angle to the longitudinal axis or in the annular direction without tilting the high-strength profile. In this regard, in this work, a theoretical study of the influence of temperature loads on the stress state of the combined shell was carried out. As a result of the study, an analytical evaluation method was developed that takes into account the mechanical, geometric values of the wall and wrapping material, as well as the parameters of the prestress, taking into account temperature effects. The developed method also found that the established ring stresses in the shell wall increase with an increase in the temperature gradient, and the stresses in the wrapping decrease. At a temperature gradient of 70°C, the ring stresses increased by 1.8 times, and the stresses in the wrapping decreased by 1.3 times. At the same time, the change in operating temperature has a noticeable effect on the distribution of stresses in the wall of the shell and wrapping. Thus, calculations of a main pipeline pre-stressed with steel wire showed that at a temperature gradient of ΔΤ=30°C, the achieved level of prestressing can decrease by 10-12% compared to the initial one, and at ΔΤ=50°C, the pre-stressed wrapping does not affect the stress state of the shell wall. The obtained results of the study indicate that, taking into account the temperature loads on the structure, it is possible to adopt the necessary design parameters for further design of steel shells even more accurately. - Energy-Efficient Adaptive Dynamic Building Facades: A Review of Their Energy Efficiency and Operating Loads
Nurlan Zhangabay, Timur Tursunkululy, Ulzhan Ibraimova, Uliya Abdikerova
Applied Sciences Switzerland, 2024 - Experimental Study of Avalanche Damage Protection Methods for Main Steel Gas Pipelines
Nurlan Zhangabay, Ulzhan Ibraimova, Timur Tursunkululy, Svetlana Buganova, Arman Moldagaliev, et al.
Materials, 2024 - Study of heat protection of translucent external envelope in winter period
Nurlan Zhangabay, Adham Giyasov, Sultan Ybray, Timur Tursunkululy
E3s Web of Conferences, 2024 - Study of heat protection of external envelopes of a residential building in the cold period
Nurlan Zhangabay, Adham Giyasov, Sultan Ybray, Timur Tursunkululy
E3s Web of Conferences, 2024 - Analysis of the effect of porosity on thermal conductivity with consideration of the internal structure of arbolite
N. Zhangabay, D. Chepela, T. Tursunkululy, A. Zhangabay, A. Kolesnikov
Construction Materials and Products, 2024 - Field thermovision study of externsl enclosure for multi-storey residential building under climatic conditions of Northern Kazakhstan
N. Zhangabay, A. Giyasov, S. Ybray, T. Tursunkululy, A. Kolesnikov
Construction Materials and Products, 2024 - Field thermal imaging surveys of residential buildings – a prerequisite for the development of energy-efficient external enclosures
N. Zhangabay, T. Tursunkululy, U. Ibraimova, S. Bakhbergen, A. Kolesnikov
Construction Materials and Products, 2024 - Thermovision study of a residential building under climatic conditions of South Kazakhstan in a cold period
N. Zhangabay, A. Giyasov, S. Bakhbergen, T. Tursunkululy, A. Kolesnikov
Construction Materials and Products, 2024 - Construction and climatic certification of an area as a prerequisite for development of energy-efficient buildings and their external wall constructions
N. Zhangabay, A. Giyasov, U. Ibraimova, T. Tursunkululy, A. Kolesnikov
Construction Materials and Products, 2024 - Analysis of thermal efficiency of external fencing made of innovative ceramic blocks
N. Zhangabay, S. Bakhbergen, Zh. Aldiyarov, T. Tursunkululy, A. Kolesnikov
Construction Materials and Products, 2024 - ENVIRONMENTAL PHYSICS IS A PREREQUISITE FOR STUDYING THE EFFECT OF SOLAR RADIATION ON THE EXTERNAL WALL FENCES OF BUILDINGS
N. Zhangabay, A. Utelbayeva, T. Tursunkululy, A. Zhangabay, S. Bakhbergen
Herald of the Kazakh British Technical University, 2024 - Experimental and Theoretical Reproducibility Research on the Earthquake Resistance of Cylindrical Steel Tanks
Nurlan Zhangabay, Marco Bonopera, Akmaral Utelbayeva, Timur Tursunkululy, Murat Rakhimov
Vibration, 2023 - Development of method for calculation of pre-strained steel cylindrical sheaths in view of the winding angle, pitch and thickness
Ulzhan Ibraimova, Nurlan Zhangabay, Timur Tursunkululy, Murat Rakhimov, Serik Dossybekov, et al.
Case Studies in Construction Materials, 2023 - Factors affecting extended avalanche destructions on long-distance gas pipe lines: Review
Nurlan Zhangabay, Ulzhan Ibraimova, Ulanbator Suleimenov, Arman Moldagaliyev, Svetlana Buganova, et al.
Case Studies in Construction Materials, 2023 - Research of Heat Tolerance and Moisture Conditions of New Worked-Out Face Structures with Complete Gap Spacings
Nurlan Zhangabay, Marco Bonopera, Islambek Baidilla, Akmaral Utelbayeva, Timur Tursunkululy
Buildings, 2023 - Laboratory Investigation of the Dynamic Response of a Prestressed Composite Steel Cylindrical Tank Subjected to Horizontal Loading
Nurlan Zhangabay, Timur Tursunkululy, Marco Bonopera, Otabek Azatkulov
Journal of Composites Science, 2023 - Analysis of strength and eigenfrequencies of a steel vertical cylindrical tank without liquid, reinforced by a plain composite thread
Timur Tursunkululy, Nurlan Zhangabay, Ulanbator Suleimenov, Khassen Abshenov, Akmaral Utelbayeva, et al.
Case Studies in Construction Materials, 2023 - OSCILLATION FREQUENCIES OF THE REINFORCED WALL OF A STEEL VERTICAL CYLINDRICAL TANK FOR PETROLEUM PRODUCTS DEPENDING ON WINDING PRE-TENSION
Timur Tursunkululy, Nurlan Zhangabay, Konstantin Avramov, Maryna Chernobryvko, Medetbek Kambarov, et al.
Eastern European Journal of Enterprise Technologies, 2023 - INFLUENCE OF THE PARAMETERS OF THE PRESTRESSED WINDING ON THE OSCILLATIONS OF VERTICAL CYLINDRICAL STEEL OIL TANKS
Timur Tursunkululy, Nurlan Zhangabay, Konstantin Avramov, Maryna Chernobryvko, Ulanbator Suleimenov, et al.
Eastern European Journal of Enterprise Technologies, 2022 - STRENGTH ANALYSIS OF PRESTRESSED VERTICAL CYLINDRICAL STEEL OIL TANKS UNDER OPERATIONAL AND DYNAMIC LOADS
Eastern European Journal of Enterprise Technologies, 2022
RECENT SCHOLAR PUBLICATIONS
- Experimental evaluation of the thermophysical performance of an adaptive composite wall system under dynamic climatic conditions
NZ Zhangabay, ZN Zh, AK Oner, MNM Ibrahim, UB Ibraimova, ...
Construction Materials and Products 9 (1), 8-8 , 2026
2026 - Assessment and Numerical Modeling of the Thermophysical Efficiency of Newly Developed Adaptive Building Envelopes Under Variable Climatic Impacts
N Zhangabay, A Oner, U Ibraimova, MNM Ibrahim, T Tursunkululy, ...
Buildings 16 (2), 366 , 2026
2026
Citations: 3 - Analysis of the influence of the geometry of a ventilated facade subsystem on its stress–strain state and the coefficient of thermal nonuniformity
N Zhangabay, M Bonopera, A Oner, M Rakhimov, T Tursunkululy
Results in Engineering, 109127 , 2026
2026 - DETERMINING THE EFFECT OF TRANSFORMABLE AIR DUCTS AND A HEAT-REFLECTING SCREEN INSIDE THEM ON THE THERMALHUMIDITY CONDITION OF THE CORNER ELEMENT CONSIDERING SIGNIFICANT …
N Zhangabay, U Ibraimova, T Tursunkululy, B Duissenbekov, B Urmashev, ...
Eastern-European Journal of Enterprise Technologies 1 (1 (139)), 70 , 2026
2026 - Full-Scale Experimental Investigation of the Influence of Solar Radiation on the Thermal Behavior of Ventilated Façade Envelope Systems Under Hot Climate Conditions
N Zhangabay, A Zhangabay, A Utelbayeva, T Tursunkululy, R Zakaria, ...
Buildings 16 (1), 122 , 2025
2025
Citations: 1 - Analysis of the influence of temperature loads on the stress-strain state of a pre-stressed cylindrical shell
NZ Zhangabay, ZN Zh, AB Moldagaliyev, SN Buganova, AK Bektursunova, ...
Construction Materials and Products 8 (4), 5 , 2025
2025 - РАЗРАБОТКА МАТЕМАТИЧЕСКОЙ МОДЕЛИ ТЕПЛОПЕРЕДАЧИ ЧЕРЕЗ МНОГОСЛОЙНУЮ ОГРАЖДАЮЩУЮ КОНСТРУКЦИЮ С ВОЗДУШНЫМИ ПРОСЛОЙКАМИ
N Zhangabay, A Oner, S Buganova, T Tursunkululy, A Utelbayeva, ...
Вестник КазГАСА 2 (96), 148-159 , 2025
2025 - Analysis of the Impact of Residential Building Shape and Orientation on Energy Efficiency
N Zhangabay, A Giyasov, A Oner, A Zhangabay, T Tursunkululy, ...
Buildings 15 (8), 1359 , 2025
2025
Citations: 3 - Thermal Performance Evaluation of a Retrofitted Building with Adaptive Composite Energy-Saving Facade Systems
N Zhangabay, A Oner, M Rakhimov, T Tursunkululy, U Abdikerova
Energies 18 (6), 1402 , 2025
2025
Citations: 12 - A study of temperature and humidity conditions in a new energy-efficient design of a wall structure with air gaps
N Zhangabay, T Tursunkululy, A Utelbayeva, U Abdikerova, M Sultanov
Modelling 6 (1), 12 , 2025
2025
Citations: 6 - Energy-Efficient Outdoor Fencing with Air Layers: A Review of the Effect of Solar Radiation on the Exterior Fencing of Buildings Made of Composite Material
N Zhangabay, A Zhangabay, A Utelbayeva, T Tursunkululy, M Sultanov, ...
Journal of Composites Science 9 (1), 9 , 2025
2025
Citations: 6 - ФИЗИКА СРЕДЫ–ПРЕДПОСЫЛКА ДЛЯ ИССЛЕДОВАНИЯ ВЛИЯНИЯ СОЛНЕЧНОЙ РАДИАЦИИ НА НАРУЖНЫЕ СТЕНОВЫЕ ОГРАЖДЕНИЯ ЗДАНИЙ
НЖ Жаңабай, АБ Утелбаева, Т Тұрсұнқұлұлы, АЖ Жаңабай, ...
Вестник Казахстанско-Британского технического университета 21 (4), 196-209 , 2024
2024 - Energy-efficient adaptive dynamic building facades: A review of their energy efficiency and operating loads
N Zhangabay, T Tursunkululy, U Ibraimova, U Abdikerova
Applied Sciences 14 (23), 10979 , 2024
2024
Citations: 29 - Experimental study of avalanche damage protection methods for main steel gas pipelines
N Zhangabay, U Ibraimova, T Tursunkululy, S Buganova, A Moldagaliev, ...
Materials 17 (13), 3171 , 2024
2024
Citations: 3 - Analysis of thermal efficiency of external fencing made of innovative ceramic blocks
N Zhangabay, N Zhangabay, S Bakhbergen, S Bakhbergen, Z Aldiyarov, ...
Construction Materials and Products 7 (3), 1 , 2024
2024
Citations: 14 - Analysis of the effect of porosity on thermal conductivity with consideration of the internal structure of arbolite
N Zhangabay, D Chepela, T Tursunkululy, A Zhangabay, A Kolesnikov
Constr. Mater. Prod 7 (4) , 2024
2024
Citations: 8 - ENVIRONMENTAL PHYSICS IS A PREREQUISITE FOR STUDYING THE EFFECT OF SOLAR RADIATION ON THE EXTERNAL WALL FENCES OF BUILDINGS
N ZHANGABAY, A UTELBAYEVA, T TURSUNKULULY, A ZHANGABAY, ...
HERALD OF THE KAZAKH-BRITISH TECHNICAL UNIVERSITY Учредители: Казахстанско … , 2024
2024 - Study of heat protection of external envelopes of a residential building in the cold period
N Zhangabay, A Giyasov, S Ybray, T Tursunkululy
E3S Web of Conferences 542, 06003 , 2024
2024
Citations: 4 - Thermovision study of a residential building under climatic conditions of South Kazakhstan in a cold period
N Zhangabay, A Giyasov, S Bakhbergen, T Tursunkululy, A Kolesnikov
Constr. Mater. Prod 7 (1) , 2024
2024
Citations: 17 - Construction and climatic certification of an area as a prerequisite for development of energy-efficient buildings and their external wall constructions
N Zhangabay, A Giyasov, U Ibraimova, T Tursunkululy, A Kolesnikov
Constr. Mater. Prod 7 (1) , 2024
2024
Citations: 15
MOST CITED SCHOLAR PUBLICATIONS
- Strength analysis of prestressed vertical cylindrical steel oil tanks under operational and dynamic loads
T Tursunkululy, N Zhangabay, K Avramov, M Chernobryvko, ...
Eastern-European journal of enterprise technologies 2 (7), 116 , 2022
2022
Citations: 31 - Energy-efficient adaptive dynamic building facades: A review of their energy efficiency and operating loads
N Zhangabay, T Tursunkululy, U Ibraimova, U Abdikerova
Applied Sciences 14 (23), 10979 , 2024
2024
Citations: 29 - Research of heat tolerance and moisture conditions of new worked-out face structures with complete gap spacings
N Zhangabay, M Bonopera, I Baidilla, A Utelbayeva, T Tursunkululy
Buildings 13 (11), 2853 , 2023
2023
Citations: 29 - Factors affecting extended avalanche destructions on long-distance gas pipe lines
N Zhangabay, U Ibraimova, U Suleimenov, A Moldagaliyev, S Buganova, ...
Case Studies in Construction Materials 19, e02376 , 2023
2023
Citations: 26 - Analysis of strength and eigenfrequencies of a steel vertical cylindrical tank without liquid, reinforced by a plain composite thread
T Tursunkululy, N Zhangabay, U Suleimenov, K Abshenov, A Utelbayeva, ...
Case Studies in Construction Materials 18, e02019 , 2023
2023
Citations: 21 - INFLUENCE OF THE PARAMETERS OF THE PRESTRESSED WINDING ON THE OSCILLATIONS OF VERTICAL CYLINDRICAL STEEL OIL TANKS.
T Tursunkululy, N Zhangabay, K Avramov, M Chernobryvko, ...
Eastern-European Journal of Enterprise Technologies 119 (7) , 2022
2022
Citations: 21 - Thermovision study of a residential building under climatic conditions of South Kazakhstan in a cold period
N Zhangabay, A Giyasov, S Bakhbergen, T Tursunkululy, A Kolesnikov
Constr. Mater. Prod 7 (1) , 2024
2024
Citations: 17 - Field thermovision study of externsl enclosure for multi-storey residential building under climatic conditions of Northern Kazakhstan
N Zhangabay, A Giyasov, S Ybray, T Tursunkululy, A Kolesnikov
Constr. Mater. Prod 7 (1) , 2024
2024
Citations: 17 - Construction and climatic certification of an area as a prerequisite for development of energy-efficient buildings and their external wall constructions
N Zhangabay, A Giyasov, U Ibraimova, T Tursunkululy, A Kolesnikov
Constr. Mater. Prod 7 (1) , 2024
2024
Citations: 15 - Analysis of thermal efficiency of external fencing made of innovative ceramic blocks
N Zhangabay, N Zhangabay, S Bakhbergen, S Bakhbergen, Z Aldiyarov, ...
Construction Materials and Products 7 (3), 1 , 2024
2024
Citations: 14 - OSCILLATION FREQUENCIES OF THE REINFORCED WALL OF A STEEL VERTICAL CYLINDRICAL TANK FOR PETROLEUM PRODUCTS DEPENDING ON WINDING PRE-TENSION.
T Tursunkululy, N Zhangabay, K Avramov, M Chernobryvko, M Kambarov, ...
Eastern-European Journal of Enterprise Technologies 123 (7) , 2023
2023
Citations: 13 - Thermal Performance Evaluation of a Retrofitted Building with Adaptive Composite Energy-Saving Facade Systems
N Zhangabay, A Oner, M Rakhimov, T Tursunkululy, U Abdikerova
Energies 18 (6), 1402 , 2025
2025
Citations: 12 - Development of method for calculation of pre-strained steel cylindrical sheaths in view of the winding angle, pitch and thickness
U Ibraimova, N Zhangabay, T Tursunkululy, M Rakhimov, S Dossybekov, ...
Case Studies in Construction Materials 19, e02233 , 2023
2023
Citations: 11 - Analysis of the effect of porosity on thermal conductivity with consideration of the internal structure of arbolite
N Zhangabay, D Chepela, T Tursunkululy, A Zhangabay, A Kolesnikov
Constr. Mater. Prod 7 (4) , 2024
2024
Citations: 8 - Laboratory investigation of the dynamic response of a prestressed composite steel cylindrical tank subjected to horizontal loading
N Zhangabay, T Tursunkululy, M Bonopera, O Azatkulov
Journal of Composites Science 7 (9), 373 , 2023
2023
Citations: 8 - Field thermal imaging surveys of residential buildings—A prereq-uisite for the development of energy-efficient external enclosures
N Zhangabay, T Tursunkululy, U Ibraimova, S Bakhbergen, A Kolesnikov
Constr. Mater. Prod 7 (1) , 2024
2024
Citations: 7 - A study of temperature and humidity conditions in a new energy-efficient design of a wall structure with air gaps
N Zhangabay, T Tursunkululy, A Utelbayeva, U Abdikerova, M Sultanov
Modelling 6 (1), 12 , 2025
2025
Citations: 6 - Energy-Efficient Outdoor Fencing with Air Layers: A Review of the Effect of Solar Radiation on the Exterior Fencing of Buildings Made of Composite Material
N Zhangabay, A Zhangabay, A Utelbayeva, T Tursunkululy, M Sultanov, ...
Journal of Composites Science 9 (1), 9 , 2025
2025
Citations: 6 - Study of heat protection of external envelopes of a residential building in the cold period
N Zhangabay, A Giyasov, S Ybray, T Tursunkululy
E3S Web of Conferences 542, 06003 , 2024
2024
Citations: 4 - Experimental and theoretical reproducibility research on the earthquake resistance of cylindrical steel tanks
N Zhangabay, M Bonopera, A Utelbayeva, T Tursunkululy, M Rakhimov
Vibration 6 (4), 960-974 , 2023
2023
Citations: 4
