I, Asan Erbolatovich Baibolov, was born on December 20, 1978, in the Talas District of the Zhambyl Region. From 1985 to 1990, I studied at a secondary school, after which I continued my education at a lyceum with an advanced program in physics and mathematics, which I graduated from in 1995. In the same year, I was admitted to the Faculty of Automotive Engineering of the Karatau branch of the Kazakh National Technical University named after K. Satpayev. In 1997, the branch was transferred under the administration of M. Kh. Dulaty Taraz State University, from which I successfully graduated in 2000 with my chosen specialty.
After graduating from the university, I began my professional career as a lecturer at the Agro‑Technical University in the town of Karatau. In 2005, in order to advance my professional qualifications, I was transferred to the Research and Production Center for Agricultural Mechanization (Almaty) as a junior researcher. In 2006, I began working on my dissertation under the supervision of Doctor of Technical Sciences R. A. Omarov.
In 2007, the institution was reorganized into the Kazakh Research Institute of Mechanization and Electrification of Agriculture (KazRIMEA), where I continued my scientific work as a researcher, senior researcher, design engineer, and leading researcher. In 2010, I successfully defended my candidate dissertation titled: “Development and Substantiation of Parameters of a Solar Collector (Solar Water Heater) for Hot Water Supply of Farm Enterprises.”
From September 2014 to 2015, I worked as a senior lecturer at the Department of “Energy Saving and Automation” of the Kazakh National Agrarian University (KazNAU). From September 2015 to March 2021, I held the position of Head of the Department of Scientific and Technical Information and Certification of Scientific Personnel at KazNARU. From March 2021 to April 2022, I worked as Director of the Science Department of KazNARU. Since 2022, I have continued my work as an Associate Professor at the Department of “Energy and Electrical Engineering” of KazNARU.
My scientific interests are related to increasing energy efficiency in agriculture, the implementation of renewable energy sources, and the development of microclimate systems for livestock facilities. As part of my research activities, I have participated in and led several projects aimed at developing and implementing energy‑saving technologies, including:
- “Energy‑ and resource‑saving heat supply system for agriculture based on integrated use of renewable energy sources with microprocessor control” (2013-2015);
- “Development of an innovative heat pump for a ‘green’ low‑carbon economy with microprocessor control” (2015-2017);
- “Development of an energy‑saving heating and ventilation system to create a comfortable microclimate in livestock facilities” (2020-2022);
- “Development of an energy‑saving microclimate system to reduce heat stress in animals using renewable energy sources in hot climatic conditions of Kazakhstan” (2023-2025).
I have published more than 50 scientific papers in domestic and international journals. My citation index in the Scopus database is h-index 2, and my main publications focus on the use of renewable energy sources, thermal system modeling, and the creation of microclimate conditions in livestock facilities.
I am the author of thirteen patents, including developments in energy‑saving technologies, innovative heat pumps, and devices for integrated use of renewable energy sources.
In addition to my scientific activities, I am engaged in training young specialists – master’s students in the field of Heat Power Engineering and doctoral students in the field of Energy Supply for Agriculture. I have supervised several student research projects and contributed to the development of professional competencies of future specialists.
In 2009, I completed an international internship at the World Vegetable Center (Thailand, Kam Phaeng Saen) within the framework of the project “Enhancing the Competitiveness of Agricultural Products.” In 2018, I underwent further training in Israel in the field of “Innovative Technologies in Agriculture.”
Marital status – married, father of three children.
Educational institution: Taraz State University named after M. Kh. Dulati
Specialty / Field of study: 2805 – “Automobiles and Automotive Management”
Year of graduation: 2000
Qualification: Mechanical Engineer
Grants: National, Contract-Based Research, Local Executive Authority (LEA) Projects, and International Projects
1. Development of an energy‑saving microclimate system to reduce heat stress in animals using renewable energy sources in the hot climatic conditions of Kazakhstan. Grant funding of the Ministry of Science and Higher Education of the Republic of Kazakhstan (MSHE RK). 2023–2025. Project performer.
https://www.kaznaru.edu.kz/ru/sciences/scientific-projects/23
2. Development of an energy‑saving heating and ventilation system to create a comfortable microclimate in livestock facilities. Grant funding of the Ministry of Science and Higher Education of the Republic of Kazakhstan (MSHE RK). 2020-2022. Project leader.
Scientific Publications and Works for the Last 5 Years
(in chronological order, with the most recent publications listed first)
ARTICLES IN SCOPUS / WEB OF SCIENCE JOURNALS
1. Alibek N., Sydykov Sh., Baibolov A., Charibayeva S., Akhmetkanova G, Zhakiyev N. An Integrated Horizontal Ground Heat Exchanger for Livestock Facilities in Almaty Region of Kazakhstan // ES Energy and Environment. -2025. -Vol.29, 1690 https://doi.org/10.30919/ee1690
2. Kassym R; Alibek N, Sydykov Sh, Francisco Jurado, Baibolov A., Akhmetkanova G, Zhunisbekova G, Tokmoldayev A. Determination of the possibility of using biogas technologies for the introduction of energy-saving systems microclimate // Eastern-European Journal of Enterprise Technologies, -Vol.5. №10 (137), – P. 33-40. https://doi.org/10.15587/1729-4061.2025.341736
3. Baibolov A., Sydykov S., Alibek N., Tokmoldayev A., Turdybek B., Jurado F., Kassym R. Map of zoning of the territory of Kazakhstan by the average temperature of the heating period in order to select a heat pump system of heat supply: A case study. // Energy Sources, Part A: Recovery, Utilization, and Environmental Effects. -2022. -Vol.44(3), – P. 7303-7315.
https://doi.org/10.1080/15567036.2022.2108168
ARTICLES IN JOURNALS RECOMMENDED BY THE COMMITTEE FOR QUALITY ASSURANCE IN SCIENCE AND HIGHER EDUCATION OF THE MINISTRY OF SCIENCE AND HIGHER EDUCATION OF THE REPUBLIC OF KAZAKHSTAN
1. Omarov R., Omar D., Baibolov A., Nesipbek A., Erzigitov E., Kalkabaeva A. On the justification of the methodology for the techno‑economic assessment of a multizone solar energy utilization system. Izdenister Natigeler, 2025, No.1(105), pp. 382–389. https://doi.org/10.37884/1-2025/41
2. Berdishev A., Baibolov A., Jumabayeva Z., Shymyr Zh., Akhmetkanova G. Study of an autonomous water supply system that neutralizes groundwater using ultraviolet radiation. Izdenister Natigeler, 2024, No.2(102), pp. 550–558. https://doi.org/10.37884/2-2024/53
3. Sydykov Sh., Alibek N., Baibolov A., Tokmoldaev A., Akhmetkanova G. Changes in atmospheric air temperature during the summer period in the southern, southeastern and western regions of Kazakhstan. Izdenister Natigeler, 2024, No.3(103), pp. 459–470. https://doi.org/10.37884/3-2024/50
4. Kalkabaeva A., Alibek N., Baibolov A., Isenov S., Steponavicius D. Heat pump system of autonomous heat supply for heating a low‑potential heat carrier. Izdenister Natigeler, 2024, No.3(103), pp. 470–479. https://doi.org/10.37884/3-2024/51
5. Sydykov Sh., Alibek N., Baibolov A., Tokmoldaev A., Kakimbek I. Renewable energy‑based installation for maintaining microclimate parameters of agricultural facilities. Izdenister Natigeler, 2023, No.3(99), pp. 336–344. https://doi.org/10.37884/3-2023/34
6. Sydykov Sh., Alikhanov D., Baibolov A., Zinchenko D. Energy‑efficient automated microclimate system for livestock facilities for small and medium‑sized farms. Izdenister Natigeler, 2022, No.2(94), pp. 116–128. https://doi.org/10.37884/2-2022/14
7. Sydykov Sh.K., Alibek N.B., Tokmoldaev A.B., Abdikadirova A.A. On the methodology for selecting a heat pump to ensure a standardized microclimate in a livestock building. Reports of the National Academy of Sciences of the Republic of Kazakhstan, No.5(339), 2021, pp. 56–64. https://doi.org/10.32014/2021.2518-1483.83
MONOGRAPHS AND TEXTBOOKS
1. T.Yespolov, Y.Sarkynov, A.Baibolov, G.Zhunisbekova, Zh.Zhakupova. Biomass, biogas technologies and installations in questions and answers. – Алматы: KazNARU. 2020
PATENTS
1. Utility Model Patent of the Republic of Kazakhstan No. 9574. Method for producing zoohumus by processing and utilizing food waste using Qara Sarbaz (Hermetia illucens) fly larvae.
Authors: A.E.Baibolov, N.K.Syrlybayev, S.Aidarkhanuly, M.A.Sarsenbayev. 2024.
https://gosreestr.kazpatent.kz/Utilitymodel/Details?docNumber=398119
2. Utility Model Patent of the Republic of Kazakhstan No. 9429. Method for measuring soil temperature.
Authors: Sh. K. Sydykov, N. B. Alibek, A. E. Baibolov, A. B. Tokmoldaev, S. Charibaeva, G. Akhmetkanova. 2024.
https://gosreestr.kazpatent.kz/Utilitymodel/Details?docNumber=393836
3. Utility Model Patent No. 8680. Cooling and heating system for livestock facilities in small and medium-sized farms.
Authors: A. E. Baibolov, Sh. K. Sydykov, N. B. Alibek, A. B. Tokmoldaev, M. Serikov. 2023
https://gosreestr.kazpatent.kz/Utilitymodel/Details?docNumber=383363
4. Invention Patent of the Republic of Kazakhstan No. 35737. Method for the utilization of organic waste and exhaust gas–air mixtures from livestock facilities in farming conditions.
Authors: A. E. Baibolov, A. B. Tokmoldaev, M. Serikov, S. E. Zhaksylyk, Sh. K. Sydykov, N. B. Alibek. 2022
https://gosreestr.kazpatent.kz/Invention/Details?docNumber=339929
5. Utility Model Patent of the Republic of Kazakhstan No. 7238.
Heating and cooling system for livestock facilities.
Authors: Sh. K. Sydykov, N. B. Alibek, A. B. Tokmoldaev, M. Serikov, S. E. Zhaksylyk, A. P. Sadvakassova. 2022
https://gosreestr.kazpatent.kz/Utilitymodel/Details?docNumber=383363
6. Utility Model Patent of the Republic of Kazakhstan No. 7109. Shepherd’s staff.
Authors: A. M. Ombaev, S. T. Tashen, M. Aldabergenov, A. E. Baibolov. 2022.
https://gosreestr.kazpatent.kz/Utilitymodel/Details?docNumber=346956
OTHER PUBLICATIONS
Conference Proceedings
1. Sydykov Sh., Baibolov A., Alibek N., Tokmoldaev A., Charibayeva S., Akhmetkanova G. Reducing the risk of heat stress for livestock development in Kazakhstan. Proceedings of the XII International Scientific Congress “Agricultural Machinery”, Varna, 2024, pp. 31–34.
https://agrimachinery.net/sbornik/2024.pdf
2. Bekbosynov S. B., Tokmoldaev A. B., Baibolov A. E., Omarov A. On the development of a system for microclimate control in individual livestock buildings. Proceedings on the development of a system for microclimate control in individual livestock buildings, Minsk: BSATU, 2022, pp. 613–616. https://rep.bsatu.by/handle/doc/18200
3. Nesipbek A. B., Sydykov Sh. K., Baibolov A. E., Tokmoldaev A. B. Method for the utilization of greenhouse gases in livestock production. XI International Scientific and Technical Conference “Energy, Infocommunication Technologies and Higher Education”, 2020, pp. 435–438. https://rep.bsatu.by/handle/doc/18200
Methodological Guidelines
1. Sydykov Sh. K., Alibek N. B., Baibolov A. E., Charibayeva S. K., Akhmetkanova G. A. Energy‑saving microclimate system for reducing heat stress in animals using renewable energy sources in the hot climatic conditions of Kazakhstan. Almaty: KazNARU, 2025. – 63 p.
2. Sydykov Sh. K., Alibek N. B., Baibolov A. E., Tokmoldaev A. B. Energy‑saving system for creating a standardized microclimate based on the use of a chiller with fan coils integrated with renewable energy sources. Almaty: KazNARU, 2022. – 76 p.
Doctoral level (if applicable):
• Methods of Scientific Research
Dr. Jurado, Francisco J. – Universidad de Jaén. Jaen c. Spain
ORCID: https://orcid.org/0000-0001-8122-7415
Scopus Author ID: 7007100345